Primary etiologic sites:
1- Neuromuscular system:
The muscle group that serve most frequently as primary etiologic sites are:
== muscles of mastication
== muscles of facial expression
== tongue
The neuromuscular system plays its primary role in the etiology of dentofacial deformity by the effect of abnormal contraction of bony skeleton and the dentition. Both bones and teeth are affected by the many functional activities of orofacial region
2- Bone:
Since the bone pf maxilla and mandible serve as bases of dental arches, changes in dental arches growth may alter the occlusal and functional relationship.
3- Teeth;
The teeth may be primary sites in the etiology of dentofacial deformity in many ways
Gross variation in size and shape are encountered frequently and always are of concern
Decrease or increase in the regular number of teeth will give rise malocclusion
Etiologic factors:
A- Extrinsic factors:
1- Evolution:
With evolution, the jaws become smaller, reduction in number and size of teeth and diminution of jaw projections together with increased in vertical height of the face and there is a retrognathic tendency in mans as he ascends the evolutionary scale
2- Heredity:
Transmission of dentofacial characteristics through generations by genes. Most authors between 1900-- 1920 did not completely determine the role of inheritance in determination of the form, size and proportion of dentofacial skeleton, but they stress their work upon the effect of the environmental factors, and at this time they were hardly belief that the effect of local lack of function is more important.
Bennet statement: the size, form and density of bones such as maxilla and mandible varies according to the extent to which these structure are used during period of growth – (function stimulate growth)
Walk Joff statement: the form and degree of development of maxilla and mandible depends upon the magnitude of functional stimuli of muscles acting upon these structures.
Baker: his study was performed on animals by unilateral amputation of muscles of mastication, he found lack of growth on the affected side.
Brash: studied the facial form and the dental development in twins on genetic bases, he also emphasized the genetic facial pattern of some royal families in Europe where they had been inter-marriage, his studies gave the best evidence to support the role of inheritance
Axel Lundstorm:1925 showed that, the form and size of dental bases and the teeth are genetically determined, when the size of the teeth and their basal arches are not correlated, problems of crowding or spacing will be arising.
Broadbent and Hofrath 1931: developed standardized cephalometric x-ray technique which permit serial longitudinal studies of facial growth, by this studies the concept of inheritance growth pattern arises
There are three types of transmission of malocclusion from the standpoint of genetics:
a- Repetitive: the recurrence of single dentofacial deviation within the immediate famil
etiology of malocclusion for general practitioners.docxDr.Mohammed Alruby
Etiology of Malocclusion
For general practitioners
Prepared by
Dr. M Alruby
Etiology in orthodontics is the study of actual causes of dento – facial abnormalities.
Malocclusion is the condition where there is a deviation from the usual or accepted relationship, dental malocclusion exists when the individual teeth within one or both jaws are abnormally related to each other, this condition may be limited to a couple of teeth or involving the majority of teeth present.
Development of normal dentition and occlusion depends on a number of interrelated factors that include the dento alveolar, skeletal and the neuromuscular factors. Thus localization of the possible etiology may be a very difficult task.
A- Extrinsic factors:
1- Evolution:
With evolution, the jaws become smaller, reduction in the number and size of teeth and diminution of jaw projection together with increased in vertical height of the face and there is retrognathic tendency in man as he ascends the evolutionary scale.
2- Heredity:
Transmission of dento facial characteristic through generation by genes. The child is a product of parents who have dissimilar genetic material. Thus the child may inherit conflicting traits from both the parents resulting in abnormalities of the dentofacial region. Another reason attributed for genetically determined malocclusion is the racial, ethnic and regional intermixer, which might have led to uncoordinated inheritance of teeth and jaws.
There are three types of transmission of malocclusion from the stand point of genetics:
1- Repetitive: the recurrence of single dentofacial deviation within the immediate family.
2- Discontinuous: a tendency for a malocclusion trait to reappear within the family over several generations.
3- Variable: the occurrence of different but related types of malocclusion within several generation of the same family.
Dental defect of genetic origin include the following:
= Crowding and spacing of teeth.
= Size and characteristic of soft tissue including muscles and frenum.
= Macrognathia and micrognathia.
= Macrodontia and microdontia.
= Oligodontia.
= Tooth shape variations.
= Median diastemas.
= upper face height, nose height, and bigonial width.
= Bimaxillary protrusion.
4- Congenital:
Those are deformities of hereditary or non-hereditary origin but exciting at birth.
The congenital abnormalities that cause malocclusion:
= Cleft lip and palate:
lack of fusion between the two palatal processes to each other. From one third to one half of all cleft palate children have familial history of this deformity.
As with the non-cleft child, palatal, pharyngeal and perioral musculature is well developed at birth to meet the demand of suckling, deglutition and mastication. While the complete unilateral or complete bilateral cleft break the continuity of the upper lip and disturbs the functional pattern and significantly reduce the restraining effect of the buccinators mechanism that pro
Types of malocclusion
Malocclusion can occur singly or in combination as follows:
1- Dental mal-relationship.
2- Dento-alveolar, involving the teeth and alveolar process.
3- Dental arch mal- relationship
4- Basal arch discrepancy
5- Cranio-facial abnormalities.
1- Dental mal relationship
Including crowding, spacing, ectopism and other local malposition of the teeth that not affect the arch size, relationship and growth.
Causes of dental malposition:
1- genetic factors.
2- Prolonged retention or early loss of primary teeth.
3- Delayed eruption of permanent teeth.
4- Supernumerary teeth, missing teeth, either congenital or due to extractions.
5- Ectopic eruption and abnormal tooth morphology.
6- Abnormal development of the teeth.
Frequency:
=The most frequently malposed teeth in permanent dentition are the 3rd molars, maxillary lateral incisors, mandibular incisors, 2nd premolars and 2nd molars, the less frequently malposed teeth are the 1st molars and 1st premolars.
= spacing is predominating in deciduous dentition while crowding is common in permanent dentition.
= Irregularities due to local pot natal causes will manifest themselves clinically and will requires corrective treatment.
= rotation of the teeth in most cases is a sequlea of crowding but sometimes occurs with spacing due to loss of proximal contact between the erupting and adjacent teeth.
= crowding and spacing of the same arch may be expected in deciduous dentition but if occurs in permanent dentition, it will represent a symptoms of tooth shifting and detective eruption due to local interfere.
Spacing of permanent teeth:
In the permanent dentition, spacing in the maxillary arch is usually localized from canine to canine.
The median diastema in maxillary arch may be caused by:
1- Abnormal labial Frenum or presence of mesiodense
2- Dwarfed or congenitally absent lateral incisors.
3- Or as a part of generalized spacing.
Spacing in the mandibular arch is less common but may occurs due to:
1- Abnormal large tongue and bi dental protrusion.
2- Abnormal lingual Frenum ----- median diastema.
3- As a part of generalized spacing.
Loss of space or space closure:
a- In mixed dentition:
= In children with well-developed arches, there is little or no space loss after extraction of primary molars, this may be due to the cuspal interlocking of U and L 6
= There will be more space loss after extraction of E then after extraction of D
= loss of UE before the eruption of UB causes the U6 to erupt far mesially toward UD occupying the space required for eruption of U5------ impaction of U5.
= in the mandibular arch the forward shifting of L6 is less great and space loss is less marked.
= the order of eruption of permanent teeth has some effect on determining the space closure. For example: the maxillary canine may block out labially because it erupts after U4, the mandibular 2nd bicuspids may block out lingually because it is the last tooth erupt in the front of L6.
b- In permanent
etiology of malocclusion for general practitioners.docxDr.Mohammed Alruby
Etiology of Malocclusion
For general practitioners
Prepared by
Dr. M Alruby
Etiology in orthodontics is the study of actual causes of dento – facial abnormalities.
Malocclusion is the condition where there is a deviation from the usual or accepted relationship, dental malocclusion exists when the individual teeth within one or both jaws are abnormally related to each other, this condition may be limited to a couple of teeth or involving the majority of teeth present.
Development of normal dentition and occlusion depends on a number of interrelated factors that include the dento alveolar, skeletal and the neuromuscular factors. Thus localization of the possible etiology may be a very difficult task.
A- Extrinsic factors:
1- Evolution:
With evolution, the jaws become smaller, reduction in the number and size of teeth and diminution of jaw projection together with increased in vertical height of the face and there is retrognathic tendency in man as he ascends the evolutionary scale.
2- Heredity:
Transmission of dento facial characteristic through generation by genes. The child is a product of parents who have dissimilar genetic material. Thus the child may inherit conflicting traits from both the parents resulting in abnormalities of the dentofacial region. Another reason attributed for genetically determined malocclusion is the racial, ethnic and regional intermixer, which might have led to uncoordinated inheritance of teeth and jaws.
There are three types of transmission of malocclusion from the stand point of genetics:
1- Repetitive: the recurrence of single dentofacial deviation within the immediate family.
2- Discontinuous: a tendency for a malocclusion trait to reappear within the family over several generations.
3- Variable: the occurrence of different but related types of malocclusion within several generation of the same family.
Dental defect of genetic origin include the following:
= Crowding and spacing of teeth.
= Size and characteristic of soft tissue including muscles and frenum.
= Macrognathia and micrognathia.
= Macrodontia and microdontia.
= Oligodontia.
= Tooth shape variations.
= Median diastemas.
= upper face height, nose height, and bigonial width.
= Bimaxillary protrusion.
4- Congenital:
Those are deformities of hereditary or non-hereditary origin but exciting at birth.
The congenital abnormalities that cause malocclusion:
= Cleft lip and palate:
lack of fusion between the two palatal processes to each other. From one third to one half of all cleft palate children have familial history of this deformity.
As with the non-cleft child, palatal, pharyngeal and perioral musculature is well developed at birth to meet the demand of suckling, deglutition and mastication. While the complete unilateral or complete bilateral cleft break the continuity of the upper lip and disturbs the functional pattern and significantly reduce the restraining effect of the buccinators mechanism that pro
Types of malocclusion
Malocclusion can occur singly or in combination as follows:
1- Dental mal-relationship.
2- Dento-alveolar, involving the teeth and alveolar process.
3- Dental arch mal- relationship
4- Basal arch discrepancy
5- Cranio-facial abnormalities.
1- Dental mal relationship
Including crowding, spacing, ectopism and other local malposition of the teeth that not affect the arch size, relationship and growth.
Causes of dental malposition:
1- genetic factors.
2- Prolonged retention or early loss of primary teeth.
3- Delayed eruption of permanent teeth.
4- Supernumerary teeth, missing teeth, either congenital or due to extractions.
5- Ectopic eruption and abnormal tooth morphology.
6- Abnormal development of the teeth.
Frequency:
=The most frequently malposed teeth in permanent dentition are the 3rd molars, maxillary lateral incisors, mandibular incisors, 2nd premolars and 2nd molars, the less frequently malposed teeth are the 1st molars and 1st premolars.
= spacing is predominating in deciduous dentition while crowding is common in permanent dentition.
= Irregularities due to local pot natal causes will manifest themselves clinically and will requires corrective treatment.
= rotation of the teeth in most cases is a sequlea of crowding but sometimes occurs with spacing due to loss of proximal contact between the erupting and adjacent teeth.
= crowding and spacing of the same arch may be expected in deciduous dentition but if occurs in permanent dentition, it will represent a symptoms of tooth shifting and detective eruption due to local interfere.
Spacing of permanent teeth:
In the permanent dentition, spacing in the maxillary arch is usually localized from canine to canine.
The median diastema in maxillary arch may be caused by:
1- Abnormal labial Frenum or presence of mesiodense
2- Dwarfed or congenitally absent lateral incisors.
3- Or as a part of generalized spacing.
Spacing in the mandibular arch is less common but may occurs due to:
1- Abnormal large tongue and bi dental protrusion.
2- Abnormal lingual Frenum ----- median diastema.
3- As a part of generalized spacing.
Loss of space or space closure:
a- In mixed dentition:
= In children with well-developed arches, there is little or no space loss after extraction of primary molars, this may be due to the cuspal interlocking of U and L 6
= There will be more space loss after extraction of E then after extraction of D
= loss of UE before the eruption of UB causes the U6 to erupt far mesially toward UD occupying the space required for eruption of U5------ impaction of U5.
= in the mandibular arch the forward shifting of L6 is less great and space loss is less marked.
= the order of eruption of permanent teeth has some effect on determining the space closure. For example: the maxillary canine may block out labially because it erupts after U4, the mandibular 2nd bicuspids may block out lingually because it is the last tooth erupt in the front of L6.
b- In permanent
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
Etiology of malocclusion/certified fixed orthodontic courses by Indian dental...Indian dental academy
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and offering a wide range of dental certified courses in different formats.
Indian dental academy provides dental crown & Bridge,rotary endodontics,fixed orthodontics,
Dental implants courses.for details pls visit www.indiandentalacademy.com ,or call
0091-9248678078
management of anterior open bite
examination of open bite
treatment of open bite
etiology of open bite
II- Clinical examination
a- Extra-oral:
1- Dental open bite: patient with dental open bite often have normal facial proportion
2- Skeletal open bite: patient with skeletal open bite often show the following:
- Narrow and long face
- Slim nose with narrow nasal slits
- Incompetent lips, short upper lip and hyperactive lower lip
- Shallow labio-mental sulcus
- Excessive upper incisors show, and gummy smile
- Increase lower third of the face
- Receded chin point
- Increase inter-labial gap
- Steep mandibular plane
- Excessive anti-gonial notch
- Short ramus
b- Intra-oral examination:
1- Dental open bite: may be associated with:
= proclination of upper and lower incisors and open bite not more than 1mm ------ pseudo open bite
= localized open bite confined to one or two teeth ------ mechanical interference by nail biting or putting something between the teeth, lead to attrition at incisal edge
= well circumscribed open bite confined to the anterior region associate with history of thumb sucking -------- adaptive tongue thrust
= clinical crown of anterior teeth is short
2- Skeletal open bite:
May be associated with the following:
- Will circumscribed open bite extending to the 1st molars
- Ill-defined open bite extending to the last occluding molars
- Poor inter-cuspation
- Collapsed maxilla and buccal cross bite
- Anterior teeth may be extruded
- The posterior dentoalveolar segment is over-developed
III- Study cast
1- Anterior posterior relationship:
= anterior open bite rarely presented as a separate or isolated entity but may be associated with class I, II, III relationship
= the upper incisors are proclined, while the lower incisors often retroclined by the action of lower lip
= crowding is common finding in lower incisors, while the upper incisors may or may not show crowding
= as a general, dental open bite is frequently associated with Class I skeletal base and good intercuspation while skeletal open bite may be associated of skeletal anterior posterior dysplasia and poor intercuspation.
2- Vertical analysis:
= in dental open bite, the clinical crown of the anterior teeth is short, the anterior teeth lack vertical development due to mechanical interference or disturbance in eruption
= the vertical height of posterior teeth is normal
= in skeletal open bite: the anterior teeth may be extruded and there is excessive posterior dental alveolar development. The curve of spee is reversed
3- Transverse analysis:
Dental open bite has no discrepancy in lateral direction while skeletal open bite may be associated with collapsed maxilla and buccal cross bite
IV- Cephalometric analysis
1- Anterior posterior:
Dental open bite is most frequently associated with skeletal class I while skeletal open bite is most commonly associated with skeletal class II or class III skeletal pattern
2- Vertical cephalometric analysis:
The vertical facial measurem
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
Definition
Types of rotation
Etiology of rotation
Winging and counter winging rotation
Advantages of derotation
Biomechanics of rotation correction
Methods of correction rotation
Management of molar derotation
Retention of rotated tooth
Methods to prevent relapse
Active retention
Torque when, where, how?
Importance of torque
Biomechanics in torque
Torque expression in slot 0.018 and 0.022
Expression of torque
Mode of ligation and torque
Types of torque
- Passive
- Active
Factors affect torque
Torque with different appliances
Torque in base and face
Torque prescription in different techniques
Class II malocclusion and torque
Torque control in different treatment steps
Differential torque
Torque clearance
Intrusion and torque
Torque and intra-oral elastics
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
Etiology of malocclusion/certified fixed orthodontic courses by Indian dental...Indian dental academy
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and offering a wide range of dental certified courses in different formats.
Indian dental academy provides dental crown & Bridge,rotary endodontics,fixed orthodontics,
Dental implants courses.for details pls visit www.indiandentalacademy.com ,or call
0091-9248678078
management of anterior open bite
examination of open bite
treatment of open bite
etiology of open bite
II- Clinical examination
a- Extra-oral:
1- Dental open bite: patient with dental open bite often have normal facial proportion
2- Skeletal open bite: patient with skeletal open bite often show the following:
- Narrow and long face
- Slim nose with narrow nasal slits
- Incompetent lips, short upper lip and hyperactive lower lip
- Shallow labio-mental sulcus
- Excessive upper incisors show, and gummy smile
- Increase lower third of the face
- Receded chin point
- Increase inter-labial gap
- Steep mandibular plane
- Excessive anti-gonial notch
- Short ramus
b- Intra-oral examination:
1- Dental open bite: may be associated with:
= proclination of upper and lower incisors and open bite not more than 1mm ------ pseudo open bite
= localized open bite confined to one or two teeth ------ mechanical interference by nail biting or putting something between the teeth, lead to attrition at incisal edge
= well circumscribed open bite confined to the anterior region associate with history of thumb sucking -------- adaptive tongue thrust
= clinical crown of anterior teeth is short
2- Skeletal open bite:
May be associated with the following:
- Will circumscribed open bite extending to the 1st molars
- Ill-defined open bite extending to the last occluding molars
- Poor inter-cuspation
- Collapsed maxilla and buccal cross bite
- Anterior teeth may be extruded
- The posterior dentoalveolar segment is over-developed
III- Study cast
1- Anterior posterior relationship:
= anterior open bite rarely presented as a separate or isolated entity but may be associated with class I, II, III relationship
= the upper incisors are proclined, while the lower incisors often retroclined by the action of lower lip
= crowding is common finding in lower incisors, while the upper incisors may or may not show crowding
= as a general, dental open bite is frequently associated with Class I skeletal base and good intercuspation while skeletal open bite may be associated of skeletal anterior posterior dysplasia and poor intercuspation.
2- Vertical analysis:
= in dental open bite, the clinical crown of the anterior teeth is short, the anterior teeth lack vertical development due to mechanical interference or disturbance in eruption
= the vertical height of posterior teeth is normal
= in skeletal open bite: the anterior teeth may be extruded and there is excessive posterior dental alveolar development. The curve of spee is reversed
3- Transverse analysis:
Dental open bite has no discrepancy in lateral direction while skeletal open bite may be associated with collapsed maxilla and buccal cross bite
IV- Cephalometric analysis
1- Anterior posterior:
Dental open bite is most frequently associated with skeletal class I while skeletal open bite is most commonly associated with skeletal class II or class III skeletal pattern
2- Vertical cephalometric analysis:
The vertical facial measurem
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
Definition
Types of rotation
Etiology of rotation
Winging and counter winging rotation
Advantages of derotation
Biomechanics of rotation correction
Methods of correction rotation
Management of molar derotation
Retention of rotated tooth
Methods to prevent relapse
Active retention
Torque when, where, how?
Importance of torque
Biomechanics in torque
Torque expression in slot 0.018 and 0.022
Expression of torque
Mode of ligation and torque
Types of torque
- Passive
- Active
Factors affect torque
Torque with different appliances
Torque in base and face
Torque prescription in different techniques
Class II malocclusion and torque
Torque control in different treatment steps
Differential torque
Torque clearance
Intrusion and torque
Torque and intra-oral elastics
Extra-oral forces
And
Appliances
Prepared by:
Dr. Mohammed Alruby
Definition
Philosophy
History and development
Classification of extra-oral forces
Advantages of extra-oral forces
Disadvantages of extra-oral forces
Uses of extra-oral forces
Headgear
Appliance enhanced the action of headgear
Protraction appliances
Types of reversed headgear
Chin cup appliance
Orthopedic correction of class III
Orthopedic correction of open bite
Orthopedic correction of class II
Retention after orthopedic correction
Definition
It is a force derived from an extra-oral appliance that uses the forehead, the top of the head or the back of the neck as anchorage to apply forces to the dental or basal arch. It may be orthodontic force or orthopedic force to move the dentition, or restrict or redirect the growth respectively.
Philosophy:
The philosophy beyond the use of extra-oral force is based upon the old concept that, (the application of appreciable amount of force against the growing bone con modify or alter the direction of bone growth and consequently alter the shape and position of the bone
= the well-known best examples are the induced skull deformation in Colombia –India and feet deformation in Chinese girls
History and development:
Appliances resembling chin cups have been in use since the early 1800's. According to Graber, the early attempts with the chin cup were not successful because of incomplete knowledge of mandibular and facial growth, its use on non-growing patients, and an inadequate understanding of the forces generated by the chin cup.
1802: Cellier and Josef Fox in 1803, utilized chin caps in combination with bite blocks to correct the “underslung chin”
1866: Norman Kingsley introduced extra-oral head cap anchorage or force for maxillary distal movement
1880: Kingsley described an appliance that could influence the position of the dentition in upper jaw with the aid of extra-oral forces
1887: E.H.Angle recommended the use of occipital bandage in treatment of maxillary protrusion
1904: Jackson was first describing the facial mask
1892: headgear appliance was originally designed by Kingsley
1920: Angle and his followers were convinced that class II and class III elastics not only moved teeth but cause a significant skeletal changes: stimulate growth of one and restrain growth for the other so we not need to use any extra-oral force just wait until permanent dentition is completed
1923: Case recommend the use of extra-oral force against maxilla in treatment of class II and class I maxillary protrusion
1947: Kleohn, presented his treatment results with cervical neck strap, subsequent to this report, many other variation of the headgear appliance were presented
1960: Delaire facemask
Classification of extra-oral force appliances according to uses
The extra-oral pull is generally applied bilaterally, for three main purposes:
(1) as a restraining force
(2)
Effects of extra-oral appliances
And
Forces
Prepared by
Dr. Mohammed Alruby
Factors affect extra-oral force
Studies of maxillary protraction force
Results of extra-oral force
Effects of extra-oral appliances
The effects of extra-oral forces on dentofacial structure depend on the following factors:
- Direction of force
- Magnitude of force
- Duration of force
- Growth
- Patient cooperation
1- Direction of force:
Kloehn 1953, Gould 1975, Greenspan 1970, Merrifield and Cross 1970, and Worms et al 1973, all give an adequate description for the direction of force application and their effect on maxillary molar position, tipping, bodily, extrusion, intrusion movement
The direction of force should be adjusted according to the patient needs and objective of treatment as:
- When bodily movement is required, the force should pass through the center of resistance of molars (at the tri-furcation of roots) and the extra-oral tube should be placed gingivally as possible
- When bodily displacement of maxilla is required, the force should pass through the center of maxillary resistance (zygomatic bone)
- When extrusion of molars is required, (in case of deep bite) the force should pass below the center of resistance (below the level of occlusal plane)- cervical headgear is the best choice
- When intrusion is required (open bite cases) the force should pass above the level of occlusal plane
- In occipital headgear, the vector of force may pass through the center of resistance of 1st molar and thus causes: -------------- distal translation of 1st molar
- If the vector of force passes above the center of resistance causing:
a- Distal root torque
b- Mesial crown tipping
c- Intrusion of maxillary 1st molar ---- that, ----- closing the bite and same can occurs in the vertical or high pull headgear
== the direction of force can be determined by adjusting the outer bow in relation to the occlusal plane or center of resistance
== the best method for recording the force direction is the lateral cephalometric radiograph with the appliance in place, then the outer bow is adjusted in relation to the occlusal plane and the center of resistance of tooth or jaw
= in Kloehn’s face bow, the direction of force is 25 – 30 degree below the occlusal plane so that, the vector of force is far away from the center of resistance of 1st molars, thus cervical headgear causes distal tipping and extrusion of 1st molars and open bite
The direction of force depends upon the following variables:
I- Vertical position of the outer bow relative to the center of resistance:
= force applied by oblique headgear passing through the center of resistance will cause translation of the tooth and make intrusion at the same time
= force applied by oblique headgear passing above the occlusal plane
but below the center of resistance will cause:
a- Distal crown tipping, mesial root torque
b- Extrusion of mesial marginal ri
Characteristic of light
History
Laser physics and properties
Component of laser
Classification of laser
Biological effect of laser
Laser effect on dental tissues
Laser safety in dental practice
General application of laser
Personal protective equipment
Types of laser intensity in orthodontics
Uses of laser in orthodontics
Effect of laser in orthodontics
Introduction
History
Classification of maxillary fractured Lefort
Special consideration for orthognathic surgery
- Patient selection:
Age of patient
Assessment of patient motivation and expectation
The nature and severity of skeletal dysplasia
Systemic evaluation
- Patient evaluation:
(1) General evaluation
(2) Esthetic evaluation
(3) Functional evaluation
(4) Radiographic evaluation
a- Ceph ---
PA
Lateral: ------ soft and hard
b- Panorama
c- CBCT
d- Periapical
Protocol for basic orthognathic record collection
Treatment planning
- Time of treatment
- Objective of orthodontic treatment
Pre-surgical
Post-surgical
- Sequence of treatment:
Pre-surgical phase
Orthodontic in theatre
Post-surgical treatment
Surgery without orthodontics
Stability and clinical success
complications
Medical glossary
Prepared by:
Dr. Mohammed Alruby
Medical glossary
Aberrancy: occurring or developing away from the normal situation
Acantholysis: loss of coherence between epithelial cells due to degeneration of desmosomes (intercellular bridge) this will lead to the formation of intra-epithelial clefts, vesicle and bullae
Acanthosis: epithelial hyperplasia, mainly of the stratum spinosum, leading to increase thickness of the stratum granulosum due to increased number of cell layers of prickle cells
Achondroplasia: an autosomally inherited disorder characterized by abnormality of conversion cartilage into bone predominantly affecting the epiphyses of long bones, leading to retarded growth at the epiphyses and resulting in dwarfism with short extremities but normal trunk
Acidogenic: referring to organisms capable of producing acid
Aciduric: referring to organisms capable of surviving and metabolizing under highly acidic conditions
Acquired: a term used to describe a condition, habit or other characteristic which is not present at birth, which developed in the individuals by reaction to some environmental factor (to acquire is to obtain)
Agenesis: failure of formation leading to absence of a part or organ
Aglossia: failure of formation leading to absence of the tongue
Agnathia: absence of the jaw, usually the lower jaw, usually accompanied by approximation of the ears
Amyloid: pertaining of starch, having the characteristic of starch. A protein compound of albumin and chondroitin sulphate which resembles starch in appearance and may be pathologically deposited in certain tissues
Anaplasia: atypical differentiation or lack of differentiation of epithelial cells occurring in the malignant disease. Anaplastic cells have large, hyperchromatic, irregularly shaped nuclei and frequently show a typical mitosis.
Aneuploidy: an abnormal number of chromosomes in a nucleus. This usually arise from failure of paired chromosomes or sister chromatids to disjoin at anaphase of cell division
Aneurysm: circumscribed dilatation of an artery
Aneurysmal: relating to an aneurysm. The term applied to a type of cyst that produce bony expansion simulating the expansion of an artery produced by a vascular aneurysm
Angiogenesis: development of blood vessels
Angioma: a swelling or mass due to proliferation with or without dilatation of vascular channels
Anhydrosis: absence of sweating due to absence of sweat glands
Ankyloglossia: tongue tie, usually due to a short lingual frenum or one attached too near the tip of the tongue, may be due to failure of separation of tongue from the floor of the mouth during embryogenesis
Ankylosis: stiffening or fixation of a joint as a result of a disease process
Anodontia: absence of teeth
Anomaly: deviation from the normal, anything structurally unusual or irregular
Antigen: a substance that can induce an antibody response
Antimongoloid slant: an obliquity of the palpebral fissures laterally
Muscles
Part 3
Prepared by
DR. Mohammed Alruby
Development of oropharyngeal function
Neuromuscular regulation of jaw positions and functions
Muscles controlling mandibular postures
- Muscles of mastication
- Submandibular muscles
- Extensor and flexor muscles of neck
Positions of mandible
Some clinical implications
Development of oropharyngeal function
1- Prenatal maturation:
= During prenatal life, the neuromuscular system does not mature evenly, it is not accidentally that the orofacial region matures a head of limb region
= In human fetus, by about the 8 week, generalized uniform reflex movement of entire body can be elicited by tactile stimulation
Diffuse spontaneous movements in response to as yet unidentified stimuli have been observed as early as 9.5 weeks
Localized specific and more peripheral responses cannot be produced before 11 weeks, and at this time, stimulation of the nose-mouth region causes lateral body flexion
By 14 weeks, the movements have become much more individualized. Stimulation of the mouth area, the general bodily movements no longer are seen but instead facial and orbicular muscle response are produced
Stimulation of the upper lip causes the mouth to close and often deglutition occurs
Respiratory movements of the chest and abdomen are seen first at about 16 week
The gag reflex has been demonstrated in human fetus of 18.5 weeks. By 25v weeks, respiration is shallow but may support life for few hours
Stimulation of the mouth at 29 weeks’ menstrual age has elicited sucking through complete suckling and swallowing is not thought to be developed until at least 32 week
2- Neonatal oral functions:
a- The mouth as sensory instrument:
= At birth, the orofacial region is a very active perceptual system, the infant finds the mouth nipple = more tactile than the visual sensation
At birth, the tactile sense already is more highly developed in the lips and mouth than in the fingers
= The neonate’s slobbers, drools, chew his toe, sucks his thumb and discovers the gurgling sounds can be made with his mouth
= oral function of the neonate is guided primarily by local tactile stimuli, particularly those from the lips and anterior part of the tongue
= the posture’s of neonate’s tongue is between the gum pads and often for enough forward to rest between the lips, where it can perform its role of sensory guidance more easily
= the mouth of infant is used for many purpose, the perceptual functions of the tongue, lips, and facial skin are mingled with the sensory function of taste, smell and jaw position.
= the sensitivity of tongue and lips is greater than other area of the body and the sensory guidance for oral functioning, including jaw movements is from remarkably large area
b- Infant suckling and swallowing:
= Infant suckling and swallowing have been the subjects of much research due to the effectiveness of these activities is a good indication of the neurologic ma
Muscles
Part 2
Prepared by:
Dr. Mohammed Alruby
Muscle function and malocclusion
Muscle development and skull form in relation to function
Facial balance, muscle balance, and orthodontic therapy
EMG response of muscles
Myofunctional therapy
Basic concepts of neuromuscular physiology
Muscle function and malocclusion
Muscle function is a factor in shaping the dental arches and is important in maintaining the stability of the teeth following orthodontic treatment
Muscle fibers contract in response to change in electrical potential of its investing membrane, proprioceptors located in the muscles and the periodontal membrane make possible a high degree of accuracy in bringing the teeth in contact
Class II malocclusion:
The muscle function is usually normal in class I malocclusion with the exception of class I Openbite
In class I cases, the teeth are in state of balance with environmental force, although the actual measurements of tongue and lip forces showed that, they are not equal at any area during particular function
Class I openbite:
= Usually caused by thumb sucking, retained infantile tongue swallowing or both, the child begins with finger habits of sufficient intensity and duration to deform the maxillary anterior segment forcing the incisors labially and allowing the tongue to move farther in forward direction
= the tongue continues to thrust instead of entering the transitional phase, a large part of this activity may be compensatory or adaptive to produce anterior seal with lower lip during swallowing
=such activity accentuates the openbite, prevent complete eruption of incisors and increase the overjet to the extent that the lower lip may cushion behind the maxillary incisors during rest and functional movements
- The upper lip become more hypotonic
- The lower lip become hyperactive
- Chin puckering can see with each swallowing
= the hyperactive mentalis muscle, retroclined, imprecate and flatten the mandibular anterior segment
= the tongue drop downward and mouth breathing become a dominate pattern, as the tongue thrust forward, it elongates in shape thus alter the balance with buccinator mechanism resulting in:
- Collapse of posterior segment
- V-shaped palate
- Buccal cross bite
This occurs also as a result of molding effect of the tongue upon the hard palate
Mouth breathing:
Is the good explain for these changes a result of underdeveloped nasopharyngeal structures and subsequently maxillary deficiency
Class II division 1 malocclusion:
= In contrast to class I class II div 1 involve an abnormal muscle function from beginning
= As abnormal muscle function in class II div 1 is a compensatory or adaptive and is secondary to skeletal relationship
= Because of large overjet, there is lack of the lip seal during rest and various functions so, mouth breathing is developed
= Some individuals translate the mandible forward to effect lip seal and to improv
Muscles
Part 1
Prepare by
Dr. Mohammed Alruby
Histology of muscles
Physiology of muscles
Muscles development
Orofacial muscles
- Facial muscles
- Jaw muscles
- Portal muscles
Methods of studying muscles
Muscle changes during growth
Muscle function and facial development
Histology of muscles
The structural and functional unit of the muscles is the muscle fiber
Muscle fiber: elongated cylinder measure about 10 to 80 microns in thickness and from 1 to 15cm in length
= Each muscle fiber contains an acidophilic granular cytoplasm (sarcoplasm) that rich in:
Glycogen, mitochondria, Golgi apparatus, protein (actin, myosin, tropomyosin),
Large number of myofibrils (sarcostyles) which responsible for muscle contraction
= the muscle fiber is covered by thick membrane called (sarcolemma) and surrounded by CT called (endomysium)
= the muscle fibers are coalescing together to form bundles; each bundles are covered by C T septa called perimysium
= the muscle bundles are coalescing together to the whole muscle which is covered by CT fascia called epimysium, these CT contain: blood vessel, lymph vessel, and nerves, that firmly attach the muscle bundles to each other and attach the whole muscle to its tendon
= the myofibrils (sarcostyles)are the contractile units of the muscle, in skeletal muscle they are transversely striated due to presence of dark and light bands
The dark bands are formed of thick myosin filaments rich in Ca, the light bands are formed of thin actine filaments rich in water, there is a pale line in at the center of dark band called (Henesen’s disk), There is dark line at the center of light bands called (Krauses membrane) or Z line
The distance between the two lines called (sarcomere) which is a contraction unit of the muscle.
During the muscle contraction there the Sarcomere is shortened due to sliding of the light bands over the dark bans. The energy required for contraction is derived from transformation of ATP ------ ADP
Physiology of muscles:
Man has 639 muscles, composed of 6 billion muscle fibers, each fiber has 1000 fibrils, which means that there are 6000 billion fibrils at work at one of time or another.
Elasticity: muscle can be stretched behind its original length and return to the original shape after relaxation (normal muscle can be elongated about 6/10 of its length
Contractility: it is the ability of muscle to shorten its length under nerve impulse, this contraction is stimulated by acetyl choline, glycogen is partially oxidized to provides energy and lactic acid that carried away by blood stream
Excessive accumulation of lactic acid can produce fatigue
Isometric contraction: (stretching): the muscle is simply resisting the external forces without actual shortening
Isotonic contraction: there is an actual shortening of the muscle, the strength of isometric contraction is much greater than that of isotonic contraction as the stre
diagnostic aids part 3, photograph and radiograph.docxDr.Mohammed Alruby
Diagnostic Aids
Part 3
{Radiographs and Photographs}
{BMR and EMG}
Prepared by
Dr. Mohammed Alruby
Radiographs
Means: A procedure that uses a type of high-energy radiation called x-rays to take pictures of areas inside the body. X-rays pass through the body onto film or a computer, where the pictures are made
Types:
Intra-oral radiographs:
Periapical radiographs:
It is necessary for any orthodontic diagnosis for the following reasons:
The pattern and amount of root resorption of deciduous teeth
Presence or absence of permanent teeth, their size, shape, position and relative state of development
Congenital absence of teeth or presence of supernumerary teeth
Character of alveolar bone, lamina dura, and periodontal membrane
Morphology and inclination of permanent teeth roots
Pathological oral condition such as thickened periodontal membrane, periapical infection, root fractures, cysts, retained deciduous teeth
Abnormal path of eruption of permanent teeth
Malposition of individual as: rotation, which requires a larger space on the arch
Very useful in mixed dentition analysis
Recognition of exact position of impacted tooth by using method of parallax: that determine whether the unerupted tooth is located labially or palatally. Two periapical radiograph is taken with the film in the same position in each exposure, but the tube is moved in second exposure about 10cm. if the impacted tooth is moved in the same direction as the tube so the tooth is impacted palatally and the reverse is versa.
Bit-wing radiographs:
Is used mainly for detection of proximal cries, but it is of little value in orthodontic diagnosis
Occlusal film:
Occlusal projection is useful to locate the supernumerary teeth at the midline (mesiodens) and to determine accurately the position of impacted maxillary cuspids
Extra-oral radiographs:
Cephalometric radiographs:
Lateral cephalometric radiographs
PA cephalometric radiographs
Lateral oblique cephalogram:
The patient is directed by 45 degree and take the shot
Since dentofacial structure will be superimposed in the true lateral cephalometric projection, the lateral oblique direction is designed to gives a more accurate recording of the actual tooth position in either the left or right buccal segments depending on which side is approximately perpendicular to the central rays
The lateral oblique cephalogram combines most of advantages of the lateral views, intra-oral periapical survey and panoramic radiograph plus a standard cephalometric registration that makes possible measurements of bone size and eruptive movements so it is of particular size in analysis of developing dentition
Submental vertex cephalometric:
Is used to assess mandibular asymmetry in the transverse and anterior-posterior plane. It is an important aid in detecting asymmetry in the symphysis, body, ramus, and condyle of the mandible. In many cases of asymmetry, this view is important for evaluation of mandibular displacemen
Diagnostic Aids
{Study cast, Cast analysis}
Part (2)
Prepared by
Dr. Mohammed Alruby
Study cast
Definition: it is a positive replica of the teeth and their supporting structure, it should be reproducing accurately all the anatomical details of the teeth, alveolar process, mucobuccal folds, palate, frenal attachment as well as the exact relationship of the mandibular to the maxillary dental arch
Good models begin with good impression, orthodontic impression should displace the lips and cheeks, so that, the full depth of mucobuccal sulci is recorded. This over extension of impression is obtained by building up the tray periphery with wax or by using special orthodontic trays
The position of maximum intercuspation should be recorded by getting the patient to bite through softened wax, that is important for:
1- Recording the proper intercuspation specially in cases of poor occlusal fit due to extraction or tongue thrust. So it is wise to check the occlusion in the mouth and compare it to the occluded cast to insure that the model is correctly articulated
2- Trimming of the upper and lower cast together without change in occlusal relationship or fracture of teeth
Occlusal registration of wax bite:
= the position of maximum intercuspation as well as the centric relation must be registered
= a piece of soft wax large enough to cover the occlusal surface of maxillary teeth is shaped to the form of maxillary arch, then gently pressed against the maxillary teeth
= the patient instructed to relax and mandible is guided to most posterior and superior position of condyle within the glenoid fossa, while the teeth come into occlusion
= if there is shifting during closure due to cuspal interference, this mean that the occlusal position is not coincide with centric occlusal position, in this case, in this case two bites are taken one for usual occlusal position, and the other for centric occlusion
Ideal requirements of orthodontic study models:
1- They are symmetrical and pleasing to the eye and so that a symmetrical arch form can be readily recognized
2- The dental occlusion shows by setting the models on their backs
3- Clean, smooth, bubble free, with sharp angles where the cuts meet
4- Glossy in finish.
Trimming of study models:
There are two types of trimming:
a- Angle trimming:
The purpose of angle trimming is to added an appropriate proportional bases to the anatomical portion of dental casts which is important in:
- Registration of centric occlusion by having the posterior and lateral border of both casts on the same plane, so that cast may place on any side without change in its relationship
- Giving an idea about the relationship of the teeth to the alveolar process and basal bone
- Giving harmonizing appearance of the right and left sides of the cast which any a symmetry can be detected
- Detection of occlusion from any side, anterior as well as lateral sides
Principles:
1- The floor of the base is trimmed
diagnostic aids part 1 diagnosis, examination, BMR, EMG.docxDr.Mohammed Alruby
Introduction:
Proper treatment plane depends on prompt diagnosis, good clinician should have a bird’s eyes to first identify the problem and find its etiology
Definitions:
= Grabber and Rackosi: defined diagnosis as:
Recognition and systemic designation of anomalies, the practical synthesis of the finding, permitting therapy to be planned and identification to be determined
=a continuous evaluation process in orthodontics starting right from the first interaction with the patient continuing through different stages till end of treatment and course follow up visits
Goal of orthodontic diagnosis:
Is to produce a comprehensive description of the patient’s problem and then to synthesis the various elements of description into a rational problem list
Diagnostic aids:
Data required for orthodontic diagnosis are derived from routine essential diagnostic aids and also from supplemental aids when needed, Graber categorized the diagnostic aids into essential and supplemental aids
Essential:
- Case history
- Study models
- Certain radiographs: periapical, bite wing, panoramic radiograph
- Facial photographs
- Intra-oral photographs
Supplemental:
- Specialized radiographs: occlusal of maxilla and mandible, lateral cephalogram
- Hand &wrist radiograph
- Electromyography
- Endocrine test
- Basal metabolic rate
Case history:
Complete case history includes all the relevant information derived from the patient and parents and essential for planning
Personal details:
Name:
The patient’s name should be recorded for the purpose of identification and communications
Calling the patient by his/her name not only establishes a good report but also imparts confidence in the patient mind about treatment providers
In case of children, it might help to know their pet problems
Age:
= certain malocclusion occurring during growth period are transient and self-correcting
= growth modification procedures such as functional appliances can be carried out during growth periods
= surgical respective procedures such as orthognathic surgery are best carried out after cessation of growth
= chronological age is important for the maintaining of shedding and eruption time tables as well
Gender:
= recording gender of the patient is important for treatment planning, females are observed to precede males in growth related events such as onset of growth spurt, eruption of the teeth and onset of puberty
= gender may also have a bearing on patient’s compliance toward certain types of orthodontic treatment
Occupation and address:
Occupation of patient / or parents gives an idea about socioeconomic condition which might affect the selection of orthodontic appliances and can give an idea about awareness
Address of patient determine the sociality of the patient and this effect on the treatment because some countries have normally bi-maxillary protrusion and also determine the awareness of patient about treatment and oral hygiene
Patient behavior:
Behavior of patient depend on: patient
Smile: is the most pleasant and wanted expression by each one of us.
Smile: is amused facial expression with the corner of mouth turned up and exposed front teeth
Facial expression, postures of lips, occlusion and arrangement of teeth, buccal corridor, shape of teeth, gingival color, texture, contour and other several aspects constitute component of smile
Most of patients come to us to improve their smiles, the orthodontic studies stress on skeletal structure than soft tissue structure, and the smile still receives relatively little attention
Nature of smile:
1- Posed smile: voluntary, static, sustained, social smile not elicited by an emotion
2- Un-posed smile: spontaneous, involuntary, dynamic, natural, and not sustained characterized by greater lip elevation
Smile types: smile styles:
1- Commissures smile: the corner of the mouth turned upward called Monalisa smile
2- Cuspid smile: the upper lip is elevated, the entire lip rises like a window shade
3- Complex smile: the upper lip moves superiorly as in cuspid smile and lower lip moves inferiorly
Evaluation of posed smile:
variables Normal smile Not good smile
Smile arc Consonant Non consonant
Smile index Average Increased / decreased
Morley’s ratio 75 – 100% (normal) Disturbed
Buccal corridor Average Obliterated / excessive
Smile line Average High / low
Occlusal plane No canting Canting occlusal plane
Important definitions:
Smile arc:
the curvature formed by an imaginary line tangent to the incisal edges of the teeth, modified in varying degree of curvature in relationship to the lower lip
Range: from no curvature to an accentuated curvature was in relation to the lower lip, so quantification differed for each model
Buccal corridor:
the amount of dark space displayed between the facial surfaces of the posterior teeth and the corner of the mouth, calculated as the total dark space on both sides of the mouth as a percentage of the total smile width
Range: from 6% to 26.5 in approximately 0.5% increments
Maxillary gingival display or gummy smile:
The amount of gingival show above the central incisor crown and below the center of the upper lip. Negative number indicate gingival exposure. Positive number indicate tooth overlap by the lip
Range: from 1mm of gingival display (-1) to almost 7mm of tooth coverage for the female models, and approximately 2mm of gingival display (-2) to 6mm tooth coverage for male models
The variation between the models was due to differences in sizes and coordinating the images for different faces
Maxillary midline to face:
The relationship of maxillary dental midline (measured between the central incisors) to the midline of the face, defined by the center of the philtrum and the facial midline
Range: the maxillary midline was moved to the left of the face in approximately 0.25 mm increments. The right and left buccal corridor was maintained throughout the movement of the dentition. The maximum deviation show is 6mm
Maxillary to mandibular mid
orthodontic biology of tooth and supporting structure.docxDr.Mohammed Alruby
The goal is to examine the relationship between orthodontic biomechanics and the underlying biological process
When orthodontic force is applied to the crown of the tooth it is transmitted through the roots to the periodontal ligament and alveolar bone
Histology of supporting structure:
- Periodontal ligament
- Alveolar bone
I- Periodontal ligament:
A- Cellular component:
• Forming cells:
Osteoblast: bone forming cells
Fibroblast: PDL fibers forming cells
Cementoblast: in layer adjacent to the roots
• Resorptive cells:
Osteoblast: large cell rich acid phosphatase enzyme that demineralize the bone and disintegrate of organic matrix
Fibroblast: disintegrate fibers
Cementoblast: resorb cementum
• Progenitor cells: undifferentiated mesenchymal cells UMC: small cells with closed nucleus and little cytoplasm & monocytes
• Epithelial rest of malassez: arise as a result of breakdown of epithelial root sheath at the time of cementogesis
• Defensive cells: as macrophages & mast cells
B- Periodontal fibers:
1- Collagen fibers:
the main bulk of PDL fibers and found in 5 groups:
- Alveolar crest group: from cervix to alveolar crest
- Horizontal group: from cementum to bone horizontally
- Oblique group: the main attachment that run obliquely from cementum to bone in an apical direction
- Apical group: circumscribed the apex and responsible for resistance to rotation
- Inter-radicular group: inter-mediate plexus, observed midway between bone and root
- Supra-alveolar group:
Dento-gingival
Dento-periosteal
Transeptal
Circular
Alveolo-gingival
2- Oxytalan fibers:
Immediate elastic fibers that resist dissolution by acids unlike collagen
Run from cementum or bone to blood vessels
Play a role in supporting the blood vessels against distortion and compressive strain
c- Ground substances:
organic matrix surrounding the PDL elements, it is chemically composed of CHO linked with protein. CHO- protein complex commonly divided into two groups: proteoglycan and glycoprotein
ground substances of periodontal ligament is in a continuous state of remodeling process
d- Neurovascular elements:
myelinated: pain sensation
non-myelinated: blood vessels wall
PDL functions:
- Supportive
- Nutritive
- Remodeling
- Sensory
II- Alveolar bone:
= in human, marrow spaces are rare in the buccal and lingual plates, these spaces decreased with age
= wider spaces are lined with a layer of fenestrated compact bone when PDL fibers are anchor these fibers is called bundle bone
N: B:
= collagen turn over in PDL is higher 4 times than skin and 2 times than gingiva and this due to the forces in PDL is multi-directional takes vertical and horizontal component
= lake of marrow spaces implies that bone resorption takes more time so that the tooth movement in mesial and distal direction occur more than labial and lingual sides
= the resorptive cells increase as the marrow spaces increase
N: B:
The new deposited tissue during tooth migration have 3 stages:
Stage I osteoid:
is the pr
Successful infection prevention program
A successful infection prevention program depends on:
1-Developing standard operating procedures.
2- Evaluating practices and providing feedback to dental health care personnel (DHCP).
3- Routinely documenting adverse outcomes (e.g., occupational exposures to blood) and work-related illnesses in DHCP.
4- Monitoring health care associated infections in patients.
Standard Precautions
Standard Precautions: are the minimum infection prevention practices that apply to all patient care, regardless of suspected or confirmed infection status of the patient, in any setting where health care is delivered. These practices are designed to both protect DHCP and prevent DHCP from spreading infections among patients.
Standard Precautions include:
1- Hand hygiene.
2- Use of personal protective equipment (e.g., gloves, masks, eyewear).
3- Respiratory hygiene / cough etiquette.
4- Sharps safety.
5- Safe injection practices (i.e., aseptic technique for parenteral medications).
6- Sterile instruments and devices.
7- Clean and disinfected environmental surfaces.
Each element of Standard Precautions is described in the following sections. Education and training are critical elements of Standard Precautions, because they help DHCP make appropriate decisions and comply with recommended practices.
1- HAND HYGIENE:
1- Perform hand hygiene.
a. When hands are visibly soiled.
b. After bare hand touching of instruments, equipment, materials, and other objects likely to be contaminated by blood, saliva, or respiratory secretions.
C. Before and after treating each patient.
d. Before putting on gloves and again immediately after removing gloves.
2. Use soap and water when hands are visibly soiled (e.g., blood, body fluids); otherwise, an alcohol-based hand rub may be used.
2- PERSONAL PROTECTIVE EQUIPMENT (PPE):
1- Provide sufficient and appropriate PPE and ensure it is accessible to DHCP.
2- Educate all DHCP on proper selection and use of PPE.
3- Wear gloves whenever there is potential for contact with blood, body fluids, mucous membranes, non-intact skin or contaminated equipment.
a- Do not wear the same pair of gloves for the care of more than one patient.
b- Do not wash gloves. Gloves cannot be reused.
c- Perform hand hygiene immediately after removing gloves.
4- Wear protective clothing that covers skin and personal clothing during procedures or activities where contact with blood, saliva, or OPIM (other potential infectious materials) is anticipated.
5- Wear mouth, nose, and eye protection during procedures that are likely to generate splashes or spattering of blood or other body fluids.
6- Remove PPE before leaving the work area.
3- RESPIRATORY HYGIENE / COUGH ETIQUETTE:
1- Implement measures to contain respiratory secretions in patients and accompanying individuals who have signs and symptoms of a respiratory infection, beginning at point of entry to the facility and conti
The way to infection control in dental clinics
Introduction:
The unique nature of dental procedures, instrumentation and patient care settings require specific strategies directed to the prevention of transmission of diseases among dental health care workers and their patients.
Disease: impairment of normal functioning, manifested by signs and symptoms.
Infection: state produced by an infected agent in or on a suitable host, host may be or may not have signs or symptoms.
Carrier: individual harbors the agent but does not have symptoms (person can infect others).
Factors that allow or aid infection:
= The presence of pathogenic micro-organisms.
= There must be a portal of entry via which the organisms invade and colonize the susceptible host.
Medical history
A thorough medical history should be taken and up-dated at subsequent examinations. Medical history screening is essential in alerting the clinician to medical problems that could, in conjunction with dental treatment, adversely affect the patient.
Protective measures
Protection can be achieved by a combination of immunization procedures, use of barrier techniques and strict adherence to routine infection control procedures.
(a) Immunization:
All dental health care workers are advised to be immunized against HBV unless immunity from natural infection or previous immunization had been documented
(b) Protective coverings:
=Uniforms:
Uniforms should be changed regularly and whenever soiled. Gowns or aprons should be worn during procedures that are likely to cause spattering or splashing of blood.
=Hand protection:
Gloves must be worn for procedures involving contact with blood, saliva or mucous membrane. A new pair of gloves should be used for each patient.
If a gloves damaged, it must be replaced immediately. Hands should be washed thoroughly with a proprietary disinfectant liquid soap prior to and immediately after the use of gloves.
Disposable paper towels are recommended for drying of hands.
Any cuts o abrasions on the hands or wrists should be covered with adhesive waterproof dressings at all times.
=Protective glasses, masks or face shields Protective:
Glasses, masks or face shields should be worn by operators and close-support dental surgery assistants to protect the eyes against the spatter and aerosols which may occur during cavity preparation, scaling and the cleaning of instruments.
(c) Sharp instruments and needles:
Sharp instruments and needle should be handled with great care to prevent unintentional injury. Needles should never be recapped by using both hands indirect contact or by any other technique that involves moving the point of a used needle towards any part of the body. The needle can be recapped by laying the cap on the tray, placing the cap in a re-sheathing device or holding the cap with forceps before guiding the needle into the cap.
(d) First aid and inoculation injuries:
Defecation
Normal defecation begins with movement in the left colon, moving stool toward the anus. When stool reaches the rectum, the distention causes relaxation of the internal sphincter and an awareness of the need to defecate. At the time of defecation, the external sphincter relaxes, and abdominal muscles contract, increasing intrarectal pressure and forcing the stool out
The Valsalva maneuver exerts pressure to expel faeces through a voluntary contraction of the abdominal muscles while maintaining forced expiration against a closed airway. Patients with cardiovascular disease, glaucoma, increased intracranial pressure, or a new surgical wound are at greater risk for cardiac dysrhythmias and elevated blood pressure with the Valsalva maneuver and need to avoid straining to pass the stool.
Normal defecation is painless, resulting in passage of soft, formed stool
CONSTIPATION
Constipation is a symptom, not a disease. Improper diet, reduced fluid intake, lack of exercise, and certain medications can cause constipation. For example, patients receiving opiates for pain after surgery often require a stool softener or laxative to prevent constipation. The signs of constipation include infrequent bowel movements (less than every 3 days), difficulty passing stools, excessive straining, inability to defecate at will, and hard feaces
IMPACTION
Fecal impaction results from unrelieved constipation. It is a collection of hardened feces wedged in the rectum that a person cannot expel. In cases of severe impaction the mass extends up into the sigmoid colon.
DIARRHEA
Diarrhea is an increase in the number of stools and the passage of liquid, unformed feces. It is associated with disorders affecting digestion, absorption, and secretion in the GI tract. Intestinal contents pass through the small and large intestine too quickly to allow for the usual absorption of fluid and nutrients. Irritation within the colon results in increased mucus secretion. As a result, feces become watery, and the patient is unable to control the urge to defecate. Normally an anal bag is safe and effective in long-term treatment of patients with fecal incontinence at home, in hospice, or in the hospital. Fecal incontinence is expensive and a potentially dangerous condition in terms of contamination and risk of skin ulceration
HEMORRHOIDS
Hemorrhoids are dilated, engorged veins in the lining of the rectum. They are either external or internal.
FLATULENCE
As gas accumulates in the lumen of the intestines, the bowel wall stretches and distends (flatulence). It is a common cause of abdominal fullness, pain, and cramping. Normally intestinal gas escapes through the mouth (belching) or the anus (passing of flatus)
FECAL INCONTINENCE
Fecal incontinence is the inability to control passage of feces and gas from the anus. Incontinence harms a patient’s body image
PREPARATION AND GIVING OF LAXATIVESACCORDING TO POTTER AND PERRY,
An enema is the instillation of a solution into the rectum and sig
CHAPTER 1 SEMESTER V - ROLE OF PEADIATRIC NURSE.pdfSachin Sharma
Pediatric nurses play a vital role in the health and well-being of children. Their responsibilities are wide-ranging, and their objectives can be categorized into several key areas:
1. Direct Patient Care:
Objective: Provide comprehensive and compassionate care to infants, children, and adolescents in various healthcare settings (hospitals, clinics, etc.).
This includes tasks like:
Monitoring vital signs and physical condition.
Administering medications and treatments.
Performing procedures as directed by doctors.
Assisting with daily living activities (bathing, feeding).
Providing emotional support and pain management.
2. Health Promotion and Education:
Objective: Promote healthy behaviors and educate children, families, and communities about preventive healthcare.
This includes tasks like:
Administering vaccinations.
Providing education on nutrition, hygiene, and development.
Offering breastfeeding and childbirth support.
Counseling families on safety and injury prevention.
3. Collaboration and Advocacy:
Objective: Collaborate effectively with doctors, social workers, therapists, and other healthcare professionals to ensure coordinated care for children.
Objective: Advocate for the rights and best interests of their patients, especially when children cannot speak for themselves.
This includes tasks like:
Communicating effectively with healthcare teams.
Identifying and addressing potential risks to child welfare.
Educating families about their child's condition and treatment options.
4. Professional Development and Research:
Objective: Stay up-to-date on the latest advancements in pediatric healthcare through continuing education and research.
Objective: Contribute to improving the quality of care for children by participating in research initiatives.
This includes tasks like:
Attending workshops and conferences on pediatric nursing.
Participating in clinical trials related to child health.
Implementing evidence-based practices into their daily routines.
By fulfilling these objectives, pediatric nurses play a crucial role in ensuring the optimal health and well-being of children throughout all stages of their development.
Explore our infographic on 'Essential Metrics for Palliative Care Management' which highlights key performance indicators crucial for enhancing the quality and efficiency of palliative care services.
This visual guide breaks down important metrics across four categories: Patient-Centered Metrics, Care Efficiency Metrics, Quality of Life Metrics, and Staff Metrics. Each section is designed to help healthcare professionals monitor and improve care delivery for patients facing serious illnesses. Understand how to implement these metrics in your palliative care practices for better outcomes and higher satisfaction levels.
Medical Technology Tackles New Health Care Demand - Research Report - March 2...pchutichetpong
M Capital Group (“MCG”) predicts that with, against, despite, and even without the global pandemic, the medical technology (MedTech) industry shows signs of continuous healthy growth, driven by smaller, faster, and cheaper devices, growing demand for home-based applications, technological innovation, strategic acquisitions, investments, and SPAC listings. MCG predicts that this should reflects itself in annual growth of over 6%, well beyond 2028.
According to Chris Mouchabhani, Managing Partner at M Capital Group, “Despite all economic scenarios that one may consider, beyond overall economic shocks, medical technology should remain one of the most promising and robust sectors over the short to medium term and well beyond 2028.”
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2. 2
Dr. Mohammed Alruby
Etiology: in orthodontics, is the study of actual causes of dento-facial abnormalities
Malocclusion:
= a condition where there is a deviation from the usual or accepted relationship
= dental malocclusion exists when the individual teeth within one or both jaws abnormally related
to each other, this condition may be limited to a couple of teeth or involving the majority of teeth
presents.
Orthodontic equation: is an expression of the development of any dento-facial deformity
Cause --------- acts at a certain time --------- on tissue – produce --- results
cause time tissue Results
1-Hereditary
2-Developmental
of unknown origin
3-Trauma
4-Physical
5-Habits
6-Diseases
7-malnutrition
It is important to
know the following:
1- onset
2- duration
3- frequency
1-neuromuscular
tissue
2-teeth
3-bone and
cartilage
The severity of dentofacial
deformity depend on:
1-the nature of primary
etiologic factor
2-time of onset, duration and
frequency of primary etiologic
factor
3-the resistance of the tissue
Primary etiologic sites:
1- Neuromuscular system:
The muscle group that serve most frequently as primary etiologic sites are:
== muscles of mastication
== muscles of facial expression
== tongue
The neuromuscular system plays its primary role in the etiology of dentofacial deformity by the
effect of abnormal contraction of bony skeleton and the dentition. Both bones and teeth are affected
by the many functional activities of orofacial region
2- Bone:
Since the bone pf maxilla and mandible serve as bases of dental arches, changes in dental arches
growth may alter the occlusal and functional relationship.
3- Teeth;
The teeth may be primary sites in the etiology of dentofacial deformity in many ways
Gross variation in size and shape are encountered frequently and always are of concern
Decrease or increase in the regular number of teeth will give rise malocclusion
Etiologic factors:
A- Extrinsic factors:
1- Evolution:
With evolution, the jaws become smaller, reduction in number and size of teeth and diminution of
jaw projections together with increased in vertical height of the face and there is a retrognathic
tendency in mans as he ascends the evolutionary scale
2- Heredity:
Transmission of dentofacial characteristics through generations by genes. Most authors between
1900-- 1920 did not completely determine the role of inheritance in determination of the form, size
and proportion of dentofacial skeleton, but they stress their work upon the effect of the
3. 3
Dr. Mohammed Alruby
environmental factors, and at this time they were hardly belief that the effect of local lack of
function is more important.
Bennet statement: the size, form and density of bones such as maxilla and mandible varies
according to the extent to which these structure are used during period of growth – (function
stimulate growth)
Walk Joff statement: the form and degree of development of maxilla and mandible depends upon
the magnitude of functional stimuli of muscles acting upon these structures.
Baker: his study was performed on animals by unilateral amputation of muscles of mastication, he
found lack of growth on the affected side.
Brash: studied the facial form and the dental development in twins on genetic bases, he also
emphasized the genetic facial pattern of some royal families in Europe where they had been inter-
marriage, his studies gave the best evidence to support the role of inheritance
Axel Lundstorm:1925 showed that, the form and size of dental bases and the teeth are genetically
determined, when the size of the teeth and their basal arches are not correlated, problems of
crowding or spacing will be arising.
Broadbent and Hofrath 1931: developed standardized cephalometric x-ray technique which permit
serial longitudinal studies of facial growth, by this studies the concept of inheritance growth
pattern arises
There are three types of transmission of malocclusion from the standpoint of genetics:
a- Repetitive: the recurrence of single dentofacial deviation within the immediate family
b- Discontinuous: a tendency for mal-occlusal trait to reappear within the family over several
generation
c- Variable: the occurrence of different but related types of malocclusion within several
generation of the same family
Dental defect of genetic origin includes the following:
1- Crowding and spacing of teeth
2- Size and characteristic of the soft tissue including muscles and Frenum
3- Facial a symmetry
4- Macrognathia and Micrognathia
5- Macrodontia and Microdontia
6- Oligodontia
7- Tooth shape variations (peg shaped lateral incisor)
8- Mandibular retrusion
9- Mandibular prognathism
10-Median diastema
11-Upper face height, nose height, bi-gonial breadth
12-Bimaxillary protrusion
NB: hereditary ectodermal dysplasia: it is a sex linked anomaly transmitted by the unaffected
female to their male offspring, and has the following manifestation:
== soft and thin dry skin with absence of sweet gland
== frontal bossing and depressed nose
== thick hypotonic lip
== Oligodontia and complete anodontia
== delayed eruption of teeth
== maxilla and mandible are normal size but the present teeth are widely separated
== the incisor may be peg shape or conical
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Dr. Mohammed Alruby
3- Congenital:
Deformities either heredity or non-heredity origin but exciting at birth
a- Cleft palate:
= Lack of fusion of two palatal process to each other, various studies have shown that from one
third to one half of all cleft palate children have familial history of this deformity.
= Classification of clefts:
Class I: soft palate cleft with possible notching of hard palate
Class II: soft and hard palate but not alveolar ridge
Class III: complete unilateral lip jaw palate right or left
Class IV: complete bilateral lip jaw palate
= As with non- cleft child, palatal, pharyngeal and perioral musculature is well developed at birth
to meet the demand of suckling, deglutition and mastication.
= While the complete unilateral cleft and complete bilateral cleft break the continuity of the upper
lip and disturbs the functional pattern and significantly reduces the restraining effect of the
buccinators mechanism that produce malocclusion
= Cleft palate may lead to:
- Underdevelopment and retruded maxilla due to continuation of the oral cavity to nasal
cavity that affect the pressure of air cells in the nose and maxillary sinus that stimulate
growth of maxilla
- Excessive intraoral clearance
- Lingual tipped incisors
b- Cleft lip:
The common cleft is the upper lip as a result of failure of globular process with maxillary process,
this cleft lead to discontinuity of buccinator mechanism that lead to protrusion of anterior teeth
c- Cerebral palsy:
a paralysis or lack of muscular coordination due to inter-cranial lesion
There is a varying degree of abnormal muscular function may occur in mastication, deglutition,
respiration and speech.
This uncontrolled muscle activity gives rise difficulty in establishment and maintenance of normal
occlusion
The electo-myographic studies on cerebral palsied children showed significant difference in the
level of activity even when muscles are not in active function
d- Torticollis: Wryneck
Foreshortening of the sternocleidomastoid muscle can cause profound changes in the bony
morphology of cranium and face
Facial a symmetry with dental malocclusion may be created if this problem not treated fairly early
e- Cleidocranial dysostosis:
another congenital defect that characterized by:
- Unilateral or bilateral complete or partial absence of the clavicle
- Delayed closure of cranial suture
- Maxillary retrusion of due to underdevelopment of it
- Mandibular protrusion
- Retarded eruption of permanent teeth
- Retained deciduous teeth
- Supernumerary teeth are common
- Underdevelopment of paranasal sinuses
- Multi-impacted tooth
f- Mandibulo-facial dysostosis: characterized by;
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Dr. Mohammed Alruby
- Hypoplasia of facial bones especially zygomatic
- Marked hypoplasia of mandible ------ bird face appearance
- Crowding and malposition of teeth
- Agenesis of malar and palatine bone --- cleft palate
- Anomalies of external ear
g- Micrognathia: Abnormal small jaws maxilla or mandible may be affected
Mandible: sever retrusion of chin
Steep mandibular plane
Retrognathic profile
Deficient chin button
Maxilla: retruded middle third of face
Deficient premaxilla
Prognathic profile
h- Macrognathia: Abnormally large jaw, may be true due to the actual prognathism of jaw or
relative due to underdevelopment of one jaw to the other
i- Pierre Robin’s syndrome: Micrognathia -- glossoptosis -- cleft palate
May be associated with other abnormalities such as mongolism, atresia of ear and absence of TMJ
j- Cleft mandible: midline defect result from failure of union between left and right
mandibular process
k- Tongue tie: is congenital condition caused by shortness or excessive anterior prolongation
of Frenum linguae of the under surface of tongue.
Effects: restriction of normal tongue function that cause:
- Constriction of maxillary arch
- Difficulties in eating
- Periodontal disease in mandibular segment
Ankylglosum superior syndrome: rare condition characterized by:
- Tongue congenitally attached to the hard palate or maxillary alveolar ridge
- Hypodontia
- Microglossia
- Anomalies of extremities
l- Microcephaly: Congenitally anomaly in which
= the brain development is retarded, and it is smaller than normal
= cranial dimensions are affected as well as the volume
= skull is small because of a lack of brain growth
= none of cranial sutures is closed, but since the brain does not grow
= the demand of sutures is absent
= in a number of chromosomal anomalies, microcephaly is present with varying degree of mental
retardation
m- Hydrocephaly: Spinal fluid fills the cranium and causes the enlargement of cranial vaults.
= The sutures of the cranial bones are separated and new bone formation tends to close the gap
and the cranium may be double its volume
= Mental retardation may occur and it is not a necessary component because the pressure
influences the vault rather than the brain
= cranial base not affected severely, and face may grow normally
= the jaws and occlusion of teeth are not directly involved
= Although the face looks larger in microcephaly and smaller in hydrocephaly is only relative to
the size of the cranium
n- Craniostenosis:
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Dr. Mohammed Alruby
= Sutures of the cranial vault may be fuse prior to the complete growth of brain depending on the
sutures involved
= cranium is deformed in bizarre shapes turricephaly, scapho-cephly without necessarily causing
brain damage, if however, many are fused the brain growth is confined as an inadequate space
and pressure may build to such a point as to cause the brain to flow through the foramen magnum
and brain growth in not enough to cause expansion.
= the weakest area in the anterior cranial base during five years of life is the ethmoid, so the
increased intra-cranial pressure may deflect the ethmoid complex downward. This lowering the
perpendicular lamina of the ethmoid, which influence the vertical position of the palate which in
turn influence the vertical rotation of the mandible.
= thus the primary disturbance in the cranial base may secondarily influence the position of
maxilla and mandible and thereby the facial proportion and dental occlusion.
o- Platybasia:
= Occur as in case of mongolism, the angle between the anterior cranial base and posterior cranial
base is obtuse angle in such degree to appear as straight line.
= This occur due to lack of development of occipital bone to grow downward and thus keeping the
glenoid fossa high so the mandible is not rotated
= there is apparent open mouth that may be due to relatively large tongue in reduced oral cavity
NB; Platybasia may occur in case of hypothyroidism as there is a lack of development of sphenoid
complex and this influence the midface
When the sphenoid fails to grow upward, the posterior end of palate remains low relative to the
condyle and tends to induce mandibular rotation downward and backward resulting in open bite
p- Microglossia and a glossia:
Rare condition characterized by small or rudimentary tongue, a glossia is very rare condition
in which the tongue is completely absent
Effect: difficulty in speech and eating, collapse of dental arch due to high action of buccinator
q- Macroglossia: Abnormal large tongue
Effect; 1- spacing and flaring of the teeth
2-tongue thrust
3-abnormal tongue posture over the occlusal surface
4-difficulty in eating, respiration, swallowing and speech
r- Macrochelia:
Enlarged lower lip, flaccid and everted.
It is often hypotonic, so that there is lack of pressure against mandibular teeth that result in
protrusion
s- Hypertelorism:
= lateral position of eye due to widening of the bridge of the nose
= incomplete development of maxillary process
= incomplete development of mandibular rami
4- Environmental
a- Prenatal influences:
Nutritional deficiencies:
= the mother suffering from lack of calcium, phosphorus, vitamin B C and D are able to have
malformed children
= half of pregnant women who have congenitally malformed offspring exhibit the signs of anemia
= large varieties of congenital malformation have been found in newborn infant of mother with
sever vitamin A deficiency
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Dr. Mohammed Alruby
= Riboflavin deficiency may cause malformation, administration of Riboflavin to pregnant rat was
fond to prevent some malformation
= acute folic acid deficiency may cause cleft palate, retarded growth and deformities of bones
Rubella:
Acute viral infection usually occurs in epidemic form, maternal rubella of pregnant mother is
considered as a possible cause of wide spread congenital malformation such as, blindness,
deafness, and cardiovascular abnormalities.
The most common dental effect is: enamel hypoplasia high caries index delayed eruption of
teeth
Radiation:
When pregnant mother exposed to radiation especially during the 1st
six weeks of first trimester,
the fetus may be damaged even with small dose, the malformations of radiation are:
Cleft palate mongolism microcepalus hydrocephalus deformed limb
Abnormal intrauterine position:
That interfere with symmetric development of face and jaws, a symmetry of the head may
caused by the pressure of the shoulder or extremities against the head
Chapple and Dawidson; determined the position of comfort of the fetus, they found that many
infants with signs of pressure on mouth and jaws. This pressure is caused by one or both legs had
been extended across the body bringing the foot against the side of the head forcing it against the
opposite shoulder, thus causing facial a symmetry and deviation of the mandible
b- Postnatal influences:
1- Birth injuries with high forceps delivery is common and may cause ankylosis of TMJ which
effect the condylar growth center and thus interfere with normal mandibular growth, this
condition may be unilateral or bilateral
Unilateral ankylosis: interfere with the normal growth of the mandible at the affected side while
the other side grow normally, this result in shifting of the mandible toward the affected side that
lead to malocclusion
Bilateral ankylosis: interfere with normal growth of the mandible as a whole resulting in
mandibular Micrognathia, the mandible cannot grow normally to accommodate all the permanent
teeth that lead to crowding
NB: injury of the facial nerve may occur at birth by birth instrument lead to transient or permanent
facial paralysis
2- Deformation of upper jaw during delivery due to the obstetricians frequently insert the fore-
finger and middle one into baby’s mouth to ease passage through the birth canal, and
because the plasticity of maxillary and pre-maxillary region this lead to permanent damage
3- Extensive scar tissue result from major surgery operation
4- Strong elevating force on the mandible as a result of wearing a plastic neck cast for long
period
5- Strong force during delivery produce fracture of the condyle
5-Endicrine imbalance:
= no tissue in the body is escape from some sort of hormonal influences either in the course of its
development and growth or in functional activities
= from this point of view it is very important to study the effect of disturbances in hormone
metabolism on occlusion
a- Pituitary gland:
Small body in the base of brain and rest in hypophyseal fossa of sphenoid bone and considered as
a master gland in the body
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Dr. Mohammed Alruby
Hypo-pituitarism: pituitary dwarfism:
The disturbance occurs before puberty (hypo-secretion): that lead to;
= delayed eruption and shedding time of teeth as the growth of the body as general
= root of the teeth is shorter than normal
= dental arch is smaller than normal and cannot accommodate all teeth so that malocclusion is
developed
= retarded osseous development of mandible than maxilla
= delayed apical closure
= hypothyroidism and diabetes insipidus
Hypo-pituitarism in adult: Simmond’s disease:
Occur after puberty due to infarction of pituitary gland and characterized by:
== decrease sexual function
== loss of weight
== atrophic change in skin
== no specific dental features
Hyper-pituitarism before puberty: Gigantism that characterized by:
= root of teeth longer than normal
= upper part of body is shorter than normal
= spacing of teeth
= ossification of cartilaginous center is delayed and the fontanelle may persist to the time of
adolescence
Hyper-pituitarism after puberty: Acromegaly:
= lips are thick and negroid
= tongue enlarged and show indentation
= teeth in mandible are tipped buccal or labial due to enlarged tongue --------- spacing teeth
= mandible is large size due to accelerated condylar growth, there is appositional and remodeling
changes in all area of mandible
b- Thyroid gland:
Highly vascular bilateral lobed u shaped gland located on the trachea, it stimulates basal
metabolic rate and control general metabolism by increase oxygen uptake by the tissues
Hypothyroidism: congenital type: Cretinism
Failure of thyroid gland to produce sufficient hormone to meet the requirement of the body
= shortening of the base of skull
= mandible is under-developed; maxilla is over-developed (relative)
= retardation in normal rate of deposition of calcium in bones and in the development of tooth
buds in the fetus
= defect facial height
= tongue enlarged and protruded which may result in malocclusion
= delayed shedding of primary teeth
= delayed eruption of permanent teeth
Hypothyroidism: childhood type: Juvenile Myxedema; after 6 years and before puberty
= enlarged tongue by edema fluid that protruded continuously and this lead to malocclusion
= delayed carpal and epiphyseal calcification
= delayed eruption rate of teeth and deciduous teeth are retained beyond the normal shedding time
= irregularities of teeth arrangement and open bite may be present as a result of tongue
enlargement
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Dr. Mohammed Alruby
= osteoporosis and periodontal disease
=abnormal dental calcification and root resorption
= in adequate development of maxilla and depressed nasal bridge
Hypothyroidism: adult type: Myxedema:
= edema of soft tissue of mouth, face, lips, and nose
= tongue enlarged and edematous and interfering with speech and occlusion
= osteoporosis of bone
NB: Myxedematous swelling: is a probably an extra-vascular cellular accumulation of water and
protein in the tissue
Hyperthyroidism: hyper-function of thyroid gland
= alveolar atrophy in advanced cases
= shedding of deciduous teeth is earlier than normal
= accelerated eruption of permanent teeth
= patient has facial expression of surprising or excitement; the patient is usually nervous and very
uncooperative
c- Parathyroid gland:
Four small glandular bodies embedded in the back of thyroid gland, regulate calcium and
phosphorus metabolism
Hyper-parathyroidism: Von Recklinghausen’s disease of bone:
= High osteoclastic activity and withdrawal of calcium from the bony skeleton due to bone
resorption, there is a sudden drifting of teeth that lead to spacing
= pathologic fracture may occur, lamina dura is absent
= Giant cell tumor or cystic lesion of the jaw are the first oral signs
= malocclusion occurs due to shifting and spacing of teeth
= in growing children, there may be marked interruption of teeth development
Hypo-parathyroidism: low calcium level below 10mg/100ml:
= increase neuromuscular excitability ----- Tetany due to low Ca level
= aplasia or hypoplasia of teeth when the effect occur before the teeth were entirely formed
= large pulp chamber and irregularities of occlusion
= delayed resorption of primary teeth roots
= delayed eruption of permanent teeth
d- The Adrenals:
Paired organs situated near the upper surface of each kidney, consists of outer layer(cortex) and
inner layer (Medulla)
= in adreno-congenital syndrome, the teeth show acceleration of development and eruption
= when adreno-congenital syndrome begins in uterus it is characterized by ISO sexual with
development of internal sex organ, but the external organs show pseudo hermaphrodite
= tumor of adrenal gland at the time of tooth development may produce pre-mature eruption of
permanent teeth
Adrenocortical hyper-function:
Decrease in protein body mass including the bony matrix to Ca deposited when the bone is formed
that interfering with bone and tooth formation:
Show: hermaphrodite
Early appear of sexual hair
Acceleration of tooth eruption and bone age
NB: Cushing’s syndrome:
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Dr. Mohammed Alruby
= characterized by adrenocortical hyper-function
= obesity in upper part of body (neck-face) ---- moon face
= muscle weakness
= there is premature epiphysis closure in children
= high rate of physical growth
= accelerated eruption of the teeth
= osteoporosis of bone in adult
e- Hypothalamus:
Make up the third ventricle of the brain, the hypothalamus provides neurogenic of pituitary gland
which control the target glands as; thyroid, adrenal, and gonads or it may affect the target gland
directly
f- The Thymus:
Generally, it atrophied at the age of 14 to 16 years but with over growth of the thymus
= the general body growth is accelerated
= hypertrophy of the thymus gland may result in delayed eruption of deciduous teeth and poor
tooth calcification
g- The Gonads:
= Excreted by the ovaries and tests, imbalance of osteogenic hormones may result in
gingivitis, gingival hyperplasia and periodontal disease
= burning sensation of tongue and decrease salivary secretion
= exert marked influence in somatic growth
= in hypo-function, the closure of the epiphysis is retarded
= in hyper-function, advanced puberty occurs with early closure of the epiphyseal growth center
and retardation of body height
h- Precocious puberty:
Occurs as a result of disturbance in hypothalamus, pituitary, adrenal, and Gonads
= growth accelerated at first but followed by advanced epiphyseal closure
= accelerated height and weight and advanced bone age
= teeth may accelerate in development and eruption
6- Disease:
= As exanthematous fever are known to upset the development time table of eruption, resorption
and tooth loss. Some specific disease may be potent marker of malocclusion, disease with paralytic
effect such as poliomyelitis are capable to produce malocclusion
= disease with muscle malfunction such as muscular dystrophy and cerebral palsy also have a
characteristic deformity on the dental arches
1- Bone disease:
a- fibrous dysplasia: characterized by fibro-osseous formation and arise as:
= expansion and deformity of the jaws
= disturbance of eruption pattern of teeth because loss of normal support for teeth
= mal-alignment, tipping or displacement of the teeth
b- cherubism:
= enlargement of the jaws
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Dr. Mohammed Alruby
= alveolar ridges are wide lead to narrow palate to V shaped and tongue is forced backward, and
this interfere with swallowing and breathing
= there is ma-alignment and malformation and irregularities of the teeth
c- Achondroplasia:
Disturbance in the endochondral bone formation which result the characteristic form of Dwarfism
= maxilla is retarded due to restriction of growth of the base of the skull with mandibular
prognathism
= dis-proportion in the size of the two jaws that lead to malocclusion
2- Temporomandibular articulation disturbance:
= ankylosis interfere with mastication, mouth hygiene and dental treatment
= ankylosis early in life interfere with jaws growth and normal teeth alignment
= in unilateral involvement of the condyle there is marked facial a symmetry in early unilateral
arrest of condylar growth, there may be complete lingual occlusion of the mandibular teeth on the
unaffected side
= in bilateral arrest there is a symmetrical of deformity with marked retruded mandible
3- Arthritis:
Sarnat 1994; distinguish four types of arthritis:
== infectious arthritis: the synovial membrane may become infected; suppuration may cause
destruction of the articular surface and the mandibular movement may be reduced and secondary
cuse condylar ankylosis
== rheumatoid arthritis: chronic and progressive inflammation involve the synovial membrane
and then extend to the capsule and the articular surface of the condyle, then ankylosis occur
== degenerative arthritis: characterized by progressive erosion of the disc and articular surface
bringing the bone of the fossa and the condyle into contact, the muscular spasm may be developed
== traumatic arthritis: the ligament and synovial membrane may be damaged by a severe blow
and this will impose limitation of the mandibular movement accompanied with pain
4- Allergy:
= children subjected to nasal allergy, bronchial asthma and allergic rhinitis often have nasal
obstruction and mouth breathing which is common etiologic factor in development of malocclusion
= respiratory allergy can affect the craniofacial skeleton as following:
- Underdevelopment of maxilla in 3 planes
- Mandible and tongue often occupies low posture and free the oral air way which result in
extrusion of buccal teeth and bite opening
- High and narrow palate
- Protrusion of maxillary incisors
- Buccal cross bite
5- Anemia:
Considered as a general debilitating disease which effect the metabolic activities of the body
and markedly effect the general growth and development of the body and markedly effect the
general growth and development of body due to low oxygen carrying capacity of the blood
= chronic long standing anemia during childhood may result in dentofacial underdevelopment
especially of persist during active growth periods
= Sickle cell and Cooley’s anemia causes marked bony changes in the form of osteoporosis
6- Chronic glomerular nephritis:
It is an autoimmune disease characterized by
- Hypokalemia: muscle weakness and fatigue
- Hypocalcemia; osteoporosis
- Secondary periodontal disease
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Dr. Mohammed Alruby
= muscle weakness and osteoporosis may cause atrophic changes and underdevelopment of
jaw bones
= pathologic fracture
7- Amyloidosis: serious conditions caused by a build-up of an abnormal protein called
amyloid in organs and tissues (defect in protein metabolism)
= in tongue lead to enlarged tongue --- and its sequelae
8- Hurler syndrome:
Excessive intracellular accumulation of chondroitin sulfate and hepartine sulfate(carbohydrate
metabolism)
- Thick lips
- Large tongue
- Short mandible
- Greater distances from ramus to ramus lead to spacing of the teeth
- Delayed time of eruption
9- Rheumatic chorea:
It is sudden, purposeless, jerky movement of muscles in any part of the body
When it is affect the tongue cause it to move involuntary exerting much force upon dentition and
later tongue become hypotonic
7- Nutritional deficiency:
Nutritional deficiency and craniofacial growth:
Guilford 1874 reported that the nutritional deficiency is strong predisposing factor in the
dentofacial deformity, growth retardation is observed in children with chronic malnutrition,
correction of dietary deficiency causes an acceleration of the skeletal malnutrition.
Dietary requirements in growing children varies with age, size and body weight.
Nutrition require the following factors:
- Food intake
- God slandered digestion
- Proper absorption
- Good metabolism for the food
- Treatment of infectious disease the cause diarrhea and so forth
Proper nutrition is an important factor during orthodontic treatment hence proper teeth movement
depend on proper response of bone which undergo a process of resorption and reorganization in
response to teeth movement
Nutrition and malocclusion:
The effect of diet in malocclusion is probably exerted through the impaired development of
teeth and bones. Malnutrition can also affect the occlusion through dental caries, periodontal
disease, loss of teeth, retarded development of the jaws and impaired masticatory function
Nutritional factors in relation to the dentition and occlusion:
- Acidic diet favor dental caries and alkaline diet reduce dental caries
- Normal calcium phosphorus metabolism is very important in formation of sound teeth
- Various disease due to vitamin deficiencies as Rickets show well defined correlation with
dentofacial abnormalities
- Higher Ca requirements are required during pregnancy and lactation to provide normal
growth of bone and teeth.
- In Rickets, Osteomalacia, and hyperparathyroidism, the amount of Ca excretion is greater
than the intake which will result in depletion of Ca supply in bones and withdrawal of Ca
from bone that result in osteoporosis and bone deformities
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Dr. Mohammed Alruby
Nutrition and teeth: Diet can affect teeth in two distinct ways:
Local way:
- Acidic diet intake increases the tendency of dental caries and thus loss of teeth may cause
malocclusion
- Intake of soft diet which not need considerable masticatory effort, may has damaging effect
on dentofacial structure as:
= atrophy and muscle weakness
= lack of proper gingival message which required some hard food rich in cellulose and so that,
atrophy of gingiva and periodontal disease
= weak muscle lead to underdevelopment of jaws
Systemic way:
- The balanced diet is very important during tooth development, in order to allow normal
differentiation and calcification of the teeth as:
= Vit. D increase calcification of teeth
Vit D deficiency:
1- Rickets
2- Delayed closure of fontanelle and cranial sutures
3- Early loss of deciduous teeth
4- Maxilla is narrow and the palate is high
5- Retarded eruption of teeth
6- Irregularities of teeth and malocclusion
The lack of vit D (Rickets) may cause rachitis degeneration as the calcification stage of the
proliferating cartilage does not occur and the functional remodeling of the condyle does not occur
and the functional remodeling of the condyle does not continue and this arrest their growth
Vit A deficiency:
1- Disturbance in differentiation and appositional growth of the developing teeth
2- Disturbance in calcification of teeth
3- Retardation in eruption
4- Disturbance in periodontal tissue
5- Hypertrophy of occipital and temporal bone that lead to reduction in size of posterior
cranial base
6- Retardation of general dental growth
= Vit A and D are very important for development of sound periodontal tissue
= Vit B group are of special value in promotion of growth, include group of water soluble vitamins
Vit B1: thiamin: important to optimize the growth and its deficiency may cause muscle weakness
and edema of oral soft tissue
Vit B3: growth promoting factor and prevent weight loss
Vit C: ascorbic acid; important for formation of collagen organic matrix of teeth, bones, tendons,
and wall of blood vessels
Deficiency; looseness of teeth and gingival recession due to low rate of turnover of collagen fibers
NB: Fluoride: is very important in prevention of dental caries
Administration during the period of teeth formation increase tooth resistance to caries, Because
the fluoride ions will incorporate into enamel in the form of fluro-aptite crystals During enamel
formation
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Dr. Mohammed Alruby
On the other hand, hyperflurosis may interfere with normal formation of enamel causing enamel
hypoplasia or pitted enamel
8-Abnormal pressure habits
== the dentist must realize that the term rest is a comparative appraisal pressure are still being
exerted on the teeth and bony support. Normally these pressures together with the functional forces
have stabilizing, balancing effect on dentition
== the effect of pressure on the growth of the human skull were noted by Darwin 1868
== the pressure habits which interfere with normal growth and function include finger sucking,
lip and tongue biting on abnormally firm substances which produce abnormal pressure in the
dentofacial region
== the relation between incidence of pressure and malocclusion is statistically significant
NB: habits can be classified into
1- Useful: habits of normal function as correct tongue position, proper respiration, proper
deglutition, and normal use of lips in speaking
2- Harmful: include all that exert stress against the teeth and dental arches
Thumb sucking:
It is repeated forceful sucking of the thumb with associated strong buccal and lip
contractions, the clinical aspect of this problem are divided into three distinct phases of
development:
Phase I: normal and subclinical significant thumb sucking:
This phase extended from three months to three years as most infants display a certain amount of
thumb sucking during this period, particularly at the time of weaning. Ordinary, the sucking is
naturally resolved toward the end of this phase and the use of rubber pacifier is much less harmful
than vigorous thumb sucking. Some children chew on finger during teething but this activity ceases
when the teeth erupt.
Phase II: clinical significant thumb sucking:
This phase extended roughly from three to four years and sucking plasticized during this time will
result in temporary damaged to the child. A definite and firm program of corrected occlusion is
indicated at this time.
Phase III: active thumb sucking:
The child continuing this habit after four years of age that lead to development of malocclusion.
This type of malocclusion dependent upon the position of the thumb during sucking and associated
muscle contraction of the cheeks.
Effects:
1- Protrusion of the maxillary anterior teeth.
2- Spacing of upper anterior teeth.
3- High palatal vault.
4- Retraction of mandibular anterior teeth.
5- Crowding of mandibular anterior teeth.
6- Excessive over-jet.
7- Class II division 1 malocclusion and sometimes class III when the mandible is pulled
forward.
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Dr. Mohammed Alruby
8- High negative pressure within the mouth, with narrowing of maxillary arch that upset the
force system in and around the maxillary complex. So it often impossible to the nasal floor
to drop vertically to the normal position during growth.
N B: the severity of the effects produced by thumb sucking will depend on its force, duration, and
frequency.
Tongue thrust and abnormal swallowing habits
The subject of tongue thrusting and abnormal swallowing habits is extremely
controversial, and the correlation between these habits and dental malocclusion is to
establish. Firstly, we need to give an idea abnormal swallowing as follow:
Normal infant swallowing:
= the tongue lies between the gum pads.
= the mandible stabilized by the contraction of facial muscles.
= the buccinators muscles are strongly acting.
= this type is present in the neonate and gradually disappears with the eruption of the buccal
teeth in primary dentition.
= the cessation of the infant swallow and appearance of mature swallow is not on and off
phenomena but there is a transitional period or transitional swallowing.
Normal mature swallowing:
= teeth present in centric occlusion.
= muscles of facial expression are in rest.
= contraction of the elevator muscles to bring the teeth into occlusion.
= very little lip and cheek activity
1- Simple tongue thrust swallowing:
= Contraction of the lips, mentalis, mandibular elevators muscles.
= The teeth are in occlusion (teeth together swallowing) but the tongue is thrust to give
an anterior seal for the open bite.
= The open bite is well circumscribed and has definite beginning and ending, this open
bite is due to thumb sucking.
= The incidence of simple tongue thrust swallow is diminishing with increasing the age.
2- Complex tongue thrust swallowing:
= there is a contraction of the lips, mentalis, facial muscles and lack of contraction of the
mandibular elevators.
= the patient is suffering from naso-respiratory distress, the open bite of this type is more
diffused than simple and difficult to define.
= when examined the dental casts there is poor occlusal fit and instability of inter-
cuspation because the inter-cuspal position is not repeatedly reinforce during swallowing.
This type does not diminish by age.
= it is possible to have a complex tongue thrust but no open bite if the tongue is positioned
even a top of all teeth during swallow.
= the patient attention must have brought to the problem and the difficult prognosis
explained carefully at the start of treatment, the patient should know at the start of
treatment that much responsibility for successful therapy lies with himself or herself.
3- Retained infantile swallowing:
= persistence of infant type of swallow after present of permanent teeth, this patient demonstrates
very strong contraction of lips and facial muscles.
= tongue thrust strongly between the teeth anterior and posterior.
= patient has inexpressive face, and facial muscles used for stabilizing the mandible during
swallow.
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Dr. Mohammed Alruby
= patient has high difficulties in mastication, the patient occludes only on one molar in each
quadrant.
= patient restrict to the soft diet.
= this type occurs due to defect on the transitional phase of swallowing from infant to adult
swallow.
= the prognosis for correction of this type of swallow is poor. Fortunately, the true retained
infantile swallow is rare.
N: B: the following clinical observation regarding improper swallowing habits is made by
Atkinson:
== Hold your hand on the chin of the patient while the patient in the act swallowing, if the jaw is
opened during the act of swallowing, the supra-hyoid muscle will pull the body of the mandible
downward, bending it just anterior to the angle of the jaw.
== The abnormal swallowing habit should be detected and corrected early to facilitate normal
development of the palate and dentition. In its early detection, it should correct immediately with
mechanical appliance to limit the tongue into its proper position.
Abnormal tongue posture
= the continuous effect of abnormal tongue posture may produce more open bite than more obvious
tongue thrust.
= there are two forms of protracted tongue posture: endogenous and acquired
= during the arrival of the teeth, the tongue normally changes its posture and come to rest inside
the encircling dentition, some children have an inherent abnormal tongue posture persist lying
between the incisors.
The great majority of the endogenous protracted posture problem are not esthetics and there is
stability of the incisor relationship even a mild open bite is seen.
= the acquired protracted tongue posture is a simpler matter, since it usually results from chronic
pharyngitis, tonsillitis or other naso-respiratory disturbance, sometimes the nasopharyngeal
condition no larger exist but the tongue remain in a forward position.
N: B: an adaptive tongue posture is sometimes seen when the maxilla is narrower than the
mandible, since the tongue must aid in the encircling seal to complete the swallow. It may adapt a
posture a top on the lower teeth, when rapid palatal expansion is completed and posterior inter-
cuspation is correct, a normal posture usually return, posterior open bite are more often postural
problems than lateral tongue thrust.
Mouth breathing
Definition: habitual respiration through the mouth instead of the nose.
Recognition: to institute treatment of the actual cause, it is very important to determine the type
and degree of mouth breathing. The habit can be habitual or obstructive.
In mouth breathing, the patient is not aware of the habit which is present at night during sleep;
mouth breathing may be total or partial, continuous or intermittent.
Linder Aronson and Bushey discuss three hypotheses for mouth breathing:
1- Adenoid enlargement leads to mouth breathing, resulting in a particular type of facial form
and dentition.
2- Enlarged adenoids may lead to mouth breathing and do not influence the facial form and
type of dentition.
3- Enlarged adenoids in certain type of faces and dentition may lead to mouth breathing.
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Dr. Mohammed Alruby
Linder Aronson’s studies are the most detailed research in humans, his reports on the relationship
between reduced respiratory function and facial type and dentition. He studied children who had
undergone adenectomies to clear the nasal passage, the finding after 5 years from mouth breathing
to nasal breathing are:
== Normalization of upper incisors inclination.
== Improvement of lower during first year.
==Return to normal bi-molar arch width.
== Normal depth of the nasopharynex.
==Improvement in the mandibular plane and lower face height.
==Improvement in the head posture, which was altered prior to surgery.
Patient with long term mouth breathing is characterized by:
1- Open mouth posture.
2- Short upper lip.
3- Tendency to open bite.
4- Nostrils are small and poorly developed.
5- Nose appears to be flattened.
6- Narrow and high palatal vault.
7- Posterior cross bite.
These morphologic adaptations are believed to be result from alteration in activity of specific
facial muscles related to mouth breathing.
It was observed that children with open mouth posture displayed a significantly slower pattern of
maxillary growth compared with children who displayed anterior lip seal posture.
N:B: maxillary arch width was determined by placing a millimeter boly- gauge against the
maxillary lingual cusp at the cemento-enamel junction of upper 1st
molar and the other 1st
molar
on the other side.
Mouth breathing in allergic children:
Study was made in 45 Caucasian in both sexes age ranging from 6 to 12 years. Thirty is
chronologically allergic mouth breathing and fifteen non-allergic mouth breathing and the study
indicated that:
1- Anterior facial height is significantly larger in mouth breathing.
2- Angular measurements of Sella- Nasion to palatal, occlusal and mandibular plane were
greater in mouth breather.
3- Gonial angle is larger than normal.
4- Over-jet is greater than normal.
5- Maxillary inter-molar width narrower than normal and also associated with posterior cross
bite, all these features support that nasal airway obstruction is associated with defect in the
facial growth.
N:B: arch width is measured from mesio-buccal cusp tip from one side to the other side.
Tongue sucking
This habit can occur habitually or due to macro-glossia and its activity is similar to the thumb
sucking and usually disappear about the 2nd
year of life. Tongue sucking may cause posterior or
anterior open bite.
Bottle feeding
The mass of the tissue taken into the mouth by the child nursing at the breast exerts spreading
action on the jaws and aids in their normal growth. In addition, the tongue movement inside the
mouth during breast feeding is ideal and so help in development of normal swallowing behavior.
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Dr. Mohammed Alruby
In the bottle of baby this spreading action may be absent, the milk from the bottle is follow by
action of sucking that produce a negative pressure in the mouth which contract the cheeks and
compress the jaws, and requires no further movement of the tongue so abnormal swallowing may
develop.
Lip sucking and lip biting
Lip sucking may appear by itself or may be seen with thumb sucking, the lower lip is the most
frequently involved and also the upper lip may be involved.
This habits leads to:
1- labioversion of maxillary anterior teeth.
2- linguoversion of mandibular teeth.
3- Increased over-jet and over-bite.
4- Lip hypertrophy.
The deformity reaches its maximum when the discrepancy between the maxillary and mandibular
incisors becomes equal to the thickness of lower lip.
Nail biting
One of the most common habits in children and adults, it is a sign of internal tension.
Absent under 3 years of age, there is a rapid increase at 6 years of age followed by sharp rise at
puberty and followed by rapid decline after age of 16 in boys.
After the age of 15 year, the nail biting is replaced by pencil biting, lip biting, nose picking, and
hair twirling, or smoking in boys.
Clinical nail biters show:
1- Crowding and rotation.
2- Attrition of incisal edge of incisors teeth especially the lower incisors.
3- Tendency to class III malocclusion.
Pillowing habit
Postural defect during sleep are considered as an etiologic factor in the development of
malocclusion. The effect depends upon the frequency, duration and the amount of pressure
exerted by the abnormal postures; also depend upon the resistance of the bone to
deformation.
Flattening of the skull and facial asymmetry may occasionally develop during the 1st
years of
life where the infant in supine position with the head turned to the right or left for longer time.
The pillow of the child must be at the level of his shoulder and not too high or low, and the
mother must change the position of her child at frequent intervals.
Traumatic occlusion
Force exerted upon the teeth are usually tolerated by supporting tissues when of normal limit,
while excessive force created by such habits like bruxism may be more than the physiologic limit
of the periodontal fibers and so there is a destruction of periodontal and alveolar support of the
teeth may occurs
9-Postures
Poor postural condition can cause malocclusion.
1- Chin propping habit:
A chin propping habit (extrinsic pressure, unintentional) will cause a deep anterior closed bite,
and may also cause the mandible to be retracted. Note that there is little of lower anterior teeth is
visible when the jaws are in closed position.
2- Face leaning:
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Dr. Mohammed Alruby
Lateral pressure from face leaning (extrinsic pressure unintentional) may cause lingual movement
of maxillary teeth on that side. The mandible being less affected because it does not have a rigid
attachment and slide away from the pressure.
3- Head posture:
Faulty head postures can cause abnormal changes in the form of jaw bones. Curvature of the neck
and cervical spine causes forward and upward positioning of the head which is commonly
associated with class II malocclusion.
Robin suggested that child must held in an upright posture to prevent pressure on the face.
4- Mandibular postures:
Low mandibular postures associated with mouth breathing initiate abnormal neuromuscular
reflexes. That may be responsible for production of class II malocclusion and open bite.
5-lip posture
The lip may be incompetent when the face in repose position this may be responsible for production
of bi-maxillary protrusion or class II division 1 malocclusion
6-Tongue postures:
= The normal tongue posture is important for the development of normal occlusion. The tongue
posture over the occlusal surface of the teeth is responsible for open bite
= lateral tongue thrust may produce open bite
= in case of Bell’s palsy the tongue and lips are usually affected and its normal position is changed
so the occlusion is changed if the condition is prolonged
10-Accident and trauma:
= accidents are more significant factor in malocclusion, as the child is learn to crawl and walk,
the face and dental arches are receiving trauma
= traumatic displacement of deciduous incisors may affect the normal eruption of permanent
successors
= non-vital deciduous teeth have abnormal resorption pattern and as a result of initial accident
they deflect the permanent successors
= blow or trauma is responsible for ankylosis of teeth and the resultant malocclusion
= ankylosis of TMJ early in life interfere with growth and normal tooth alignment
= dental trauma can lead to malocclusion in three ways:
1- damage to permanent tooth buds from an injury to primary teeth
2- drift of permanent teeth after premature loss of primary teeth
3- direct injury to permanent teeth
11-Muscle Action
The facial muscles can affect jaw growth in two ways:
1- the formation of bone at the point of muscles attachment depend on the activity of muscles
2- the musculature is an important part of total soft tissue matrix whose growth normally
carries the jaws downward and forward
muscle weakness:
= found to be associated with underdevelopment of the mandible, strong muscle action is
associated with strong well developed jaws but not necessarily always with good dental alignment
= deep over bite may be caused by strong elevator muscles do not permit full eruption of buccal
teeth, open bite may be associated in many cases with weak mandibular musculature
Hyper active mentalis muscle:
- cause flattening of mandibular anterior teeth segment and mandibular arch collapse
- it is also cause protrusion of maxillary incisors due to lower lip trap during swallowing
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Dr. Mohammed Alruby
hypo-tonicity of upper lip:
causes protrusion of maxillary teeth, it is commonly seen in class II division 1 malocclusion, on
the other hand the hyper-tonic upper lip may causes retroclination of maxillary incisors which
often seen in class II division 2 malocclusion
progressive muscular dystrophy:
progressive weakness of the muscles, that allow the mandible to drop downward away from the
rest of facial skeleton that result is:
- high anterior facial height
- distortion of facial proportion and mandibular form
- excessive eruption of posterior teeth
- anterior open bite
facial paralysis can also produce the same effects
NB:
Hypertrophied muscle: the tissues are hard, tense, rigid musculature that act upon the dental
arches as restraining band prevent molding effect
Hypotonic muscle: reduction in the normal tonicity of the muscle, the muscle is bulky
Hypertrophy: actual increase in the amount of muscle substances, this condition is due to
hyperactivity of the muscle
Atrophy: degeneration of the muscle tissues due to lack of use: disuse.
Muscle elasticity: the muscle returns to its exact original shape after being stretched
Muscle contractility: ability of muscle to shorten its length under innervation impulse
Although the elasticity of muscle influence contractility
Isometric contraction: the muscle restraining the external force without any actual shortening, the
strength is greater than the isotonic
Isotonic contraction: there is actual shortening of muscle and has low strength
Macroglossia: is a relative term since the absolute size is difficult to evaluate because it is relative
to the size of the oral cavity, thus the Macroglossia of mongolism is normal in decreased oral
cavity, but in case of acromegaly is a true enlargement of tongue.
== in case of a glossia or Microglossia there is collapse of the dental arches lingually due to lack
of medial support between
== the number of cells in a given muscle is non-proliferative after birth, their size however is
under environmental influences as nutrition and function
== the lack of growth of muscles through paralysis is expressed by diminutive coronoid or gonial
process and steep of the lower border of the mandible and open bite
== hypertrophy of muscles as masseter or temporalis will lead to enlarged coronoid and gonial
process that followed by deep bite
12-Radiation:
Treatment with radiation in the mouth of infant tends to destroy the teeth and tooth germ of
the treated side
Eruption is normal but the affected teeth show shortened or absent root formation
The crown of permanent teeth in the affected side are usually smaller.
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Dr. Mohammed Alruby
N: B:
Muscles activity during swallowing:
1- the mandible is depressed probably by the action of the lateral pterygoid muscle, so this
enlarge the space within the oral cavity and make possible negative pressure
2- there is a contraction of the muscles of lips to prevent air from rushing into the mouth and
destroyed the vacuum, these muscles are:
a- orbicularis oris
b- triangularis
c- canini
d- mentalis
which are narrowing the oral opening
3- the central fibers of buccinator muscle and the tissue of the cheeks are down between the
occlusal surface of molars and premolars and canine by intra-oral vacuum, this: produce
lingual pressure on the buccal segment of the arch
4- the tongue is withdrawn from contact with:
a- lingual surface of maxillary and mandibular incisors
b- mucous membrane of the hard palate
the central section is depressed by the action of genioglossus
the side is rolled upward by styloglossus muscle
5- the root of the tongue is elevated against the soft palate by contraction of suprahyoid
muscle, styloglossus, platoglossus
6- muscles of soft palate are relaxed top come down and meet the raised root of the tongue
and thus shut of the pharynx and permit the vacuum to be performed
*** the thumb sucking lead to high negative pressure within the mouth with narrowing of the
maxillary arch that upset the force the force system in and around the maxillary complex, so it
often impossible to the nasal floor to drop vertically to the normal position during growth
*** Tonsils:
- Palatine tonsil
- Lingual tonsil
- Pharyngeal tonsil
= tongue thrust can occurs due to enlarged tonsils (inflamed)
Anterior pillar: attached to the base of tongue
Posterior pillar: attached to wall of the pharynx
= forward position of the mandible to relative the pressure from the enlarged tonsils ----- give
ability to class III
= tongue thrust during swallowing to make less painful position and this give a sequelae of the
tongue thrust disorder
*** Hypertrophy: actual increase in the amount of muscle substances this condition is due to
hyperactivity of muscle
*** normal swallowing:
Teeth in centric relation
Tip of the tongue is placed at posterior part of rugae area of palate
Tongue pressure is exerted backward and upward
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Dr. Mohammed Alruby
Muscles of expression are at rest
Muscles of mastication are used to bring the teeth in firm occlusion
*** pressure posture habit:
Most common of these habit is the placing hands beneath the cheek or resting the cheek on the
forearm or bunched pillow during sleep
This usually practiced on one side only, will produce unilateral or localized malocclusion
Mechanism:
The weight of head is transferred to the tissue of the maxillary region
The structure of the mandible usually is unaffected because this bone is movable part and escapes
pressure by sliding away from it,
*** Tongue position:
Tip of tongue is rest in the lingual fossa or at the cervices of mandibular incisors
Dorsum of tongue touch the palate lightly
The lateral side is related to the lingual cusps of the molar and premolars
*** lip position:
At rest the lips are usually touch lightly to give an oral seal when the mandible is in its postural
position
There is an inter-labial gap about 2 – 4 mm during rest position
*** nasal septum attached posteriorly to the posterior cranial base and cranial base angle
measured 130 degrees, so any change in this angle affect the direction of the nasal septum growth
so it affect the direction of growth of the maxillary complex
*** Premature loss of deciduous teeth:
Occurs as a result of:
1- General factors: which cause early root resorption
a- Hereditary
b- Endocrine disturbances: hyper-pituitarism, hyperthyroidism
c- Disease: hyperphophatasia
2- Local factors: In which premature loss is limited to single tooth or group of teeth
a- Caries
b- Periodontal disease
c- Trauma
d- Infection
Premature loss due to hereditary or endocrinal factors is usually followed by general advance in
the rate of maturation and so, followed by premature eruption of permanent teeth
While premature loss due to local factors is usually followed by disturbance in occlusion, its
severity can be predicted
*** abnormal swallowing:
Muscles of mastication are not used to bring teeth into occlusion
Tongue is thrust forward and contact with the teeth
Facial expression muscles are contract especially the mentalis muscle
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Dr. Mohammed Alruby
*** in case of conventional nipple feeding
- It is only contact with the mucous membrane of lips
- Due to poor design, the mouth is held open more widely and greater demand is made by the
buccinator muscle
- The peristaltic movement of the tongue and mandible is reduced, suckling become sucking
With enlarged hole at the end of nipple, it must be noted that the abnormal swallowing habit may
be prevented by the use of very short nipple with one small hole to give high similarity to the breast
feeding
B- Intrinsic or local factors
1- Anomalies in number of teeth:
Supernumerary teeth:
= occurs most commonly in maxilla near the midline, palatal to maxillary incisors
= these teeth are usually conical in shape and occur most often singly but can occurs in pairs
= may be fused to the right and left central incisors
= it may be erupting in any area in the mouth and may be well formed that is difficult to
determine which one is supernumerary
= the permanent teeth may not erupt or deflect as a result of supernumerary teeth
= supernumerary teeth may erupt toward the floor of the nose instead of toward the palate
= supernumerary teeth lead to crowding that lead to positional and occlusal anomalies, speech
interferences, caries of adjacent teeth and supernumerary teeth itself, malocclusion and dental
arch a symmetry
= types: mesiodens: (conical tooth) between maxillary central incisors
Peridens: buccal to the arch
Distomolars: distal to 3rd
molar
Paramolar: buccal or lingual to the molars
Missing teeth:
= congenital missing teeth are more frequent than supernumerary teeth
= where the supernumerary teeth are usually found in the maxilla the missing teeth are frequent
in both jaws
The order of absence frequency is:
Maxillary and mandibular third molars
Maxillary lateral incisors
Maxillary second premolars
Mandibular second premolars
= congenital missing is more frequent in permanent than deciduous, where maxillary lateral
incisors are congenitally missing; the permanent canine may often erupt mesial to deciduous
canine into the space of missing teeth
NB: anodontia: total absence of teeth
Oligodontia: congenital absence of number of teeth
Hypodontia: absence of only few teeth
As a general rule: if only few teeth are missing the absent teeth is almost the most distal one of
any given type as: in molars: third molar -------- in premolars:2nd
-------- in incisors: lateral -- ---
- canine is rarely
2- Anomalies of tooth size:
The size of the teeth is largely determined by hereditary, there is a great variation in teeth size
even with the same individual
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Dr. Mohammed Alruby
a- Macrodontia: tooth size is large than normal that may cause crowding and poor esthetic
b- Microdontia: abnormally small size teeth, which may be localized or generalized, the
crown is short and there is spacing and loss of interproximal contact
= the anomalies in tooth size is frequent in the mandibular premolar area and maxillary
latera incisors (peg shaped lateral)
c- Taurodontisme: rare enlargement of the crown of the teeth, occurs in deciduous or
permanent dentition and characterized by short root than normal (not indicated for
orthodontic treatment because of insufficient root formation)
3- Anomalies of tooth shape:
a- Hutchison’s incisors: Johnathan Hutchison was the 1st
described the syphilitic hypoplasia
of maxillary central incisors, the shape of the tooth is screw driver with greater gingival
mesiodistal dimension, with notching at the incisal edge
b- Mulberry molar: the crown appears constricted occlusally and the molar show enamel
hypoplasia
c- Enamel hypoplasia: reduction of thickness of enamel, result of deficiency in formation of
organic matrix
d- Peg shaped lateral: result from disturbance during morpho-differentiation, the crown is
narrow incisally resembling the cone
e- Fusion: two tooth germs are fused to form larger tooth with two roots or single grooved
root, it is more common in incisors
f- Dilacerations: angulation or bending of the root of the root or crown as a result of trauma
during root formation
g- Mottled enamel: localized defect in enamel calcification due to hyperflurosis, presents as
chalky white, brown or black dots on the surface of enamel
h- Dens in dent: means tooth within tooth and caused by invagination of enamel organ into
the dental papilla, thus produce small tooth with the future pulp
= commonly occurs in maxillary lateral incisors in 2% of population
= pulp undergo necrosis and pulpal lesion is frequent
i- Germination: single tooth germ splitted to form two completely or partially separated
crowns but usually with single root
4- Abnormal labial Frenum:
= At birth the Frenum is attached to the alveolar ridge with fibers actually running into the
labial inter dental papilla
= As the teeth erupt and as the alveolar bone deposited the Frenum migrate superiorly to the
alveolar ridge, the fiber may persist between the maxillary central incisors and may the V shaped
inter-maxillary suture, attaching to the outer layer of the periosteum and connective tissue of the
suture
= This attachment may well interfere with the normal closure of the spacing that result into
median diastema
NB: spacing between the maxillary central incisors and the presence of the fibrous tissue
attachment such as the labial Frenum provide an excellent “chicken and egg’’ routine for
controversy. Which is came first.
Causes of median diastema:
1- Physiologic spacing of central incisors until 10 years of age or until canine is erupt (ugly
Duckling stage).
2- Familial pattern.
3- Abnormal small size of teeth in large jaws.
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Dr. Mohammed Alruby
4- Lateral incisors missing or peg shaped.
5- Median cyst.
6- Short upper lip with maxillary protrusion.
7- Presence of dense square shaped bone between maxillary central incisors.
8- Tongue or figure habits
9- Mesiodens.
10-Malposed lateral incisor
5- Premature loss of deciduous teeth:
The deciduous teeth serve as space saver for the permanent teeth and also assist in maintaining
the opposing teeth at the proper occlusal level as well as for mastication.
= the anatomic and functional forces maintain a dynamic balance of the occlusion. The loss of
teeth can upset this balance and the dentist must restore the occlusal harmony to prevent the
damage of dentition.
= the severity of malocclusion resulting from loss of deciduous teeth cannot predicted.
1- Premature loss of maxillary deciduous incisors: usually not followed by impaction of
permanent incisors such interference may be attributed to presence of supernumerary
teeth or other causes.
Premature loss may follow by shifting and dental arch deviation, the space maintainer
may be required to prevent lisping as well as for esthetic purpose.
2- Premature loss of deciduous mandibular incisors: followed by crowding of permanent
incisors with corresponding crowding in maxillary incisors, deep overbite may have
developed.
3- Deciduous canines: premature loss of upper canine followed by interfere with the eruption
of permanent canine, canine may be impacted or blocked lingually or labially due to late
eruption time of canine permit the incisors to adjust themselves and close the space by
shifting.
4- 1st
deciduous molars: is rarely followed by impaction of the 1st
premolars because of the
comparatively early eruption of 1st
premolars and also smaller in size than deciduous
predecessor, furthermore the 2nd
deciduous molars not shift mesialy because the long axis
is vertical in direction
== if premature loss occurs before eruption of 1st
permanent molar, strong force will be
exerted on 2nd
deciduous molar during eruption of 1st
permanent causing it to shift mesialy
and close some of space.
== if premature loss occurs during active eruption of lateral incisors, strong distal force
will exert on the primary canine causing it to shift distally and close the space.
5- 2nd
deciduous molars: marked forward shifting of permanent 1st
molars, eruption of 2nd
premolars out of alignment
= if the 2nd
deciduous molar is extracted before eruption of 1st
permanent molar the 1st
molar will erupt mesialy closing much of space required for 2nd
premolar and impacting
frequently occurs
= if the 2nd
molars extracted after eruption of 1st
molar the 1st
permanent molar may show
slight or severe mesial tilting depend on many factors; occlusion, muscle behavior, arch
length deficiency
Effect of loss of posterior primary teeth:
1- Collapse of lower anterior teeth and the center line may be shifted to the side of
extraction.
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Dr. Mohammed Alruby
2- As a result of premature loss of both upper and lower 2nd
molars pseudo mesio
occlusion may occur as the child will protrude the mandible to bring the lower
anterior part in contact with the upper
3- Crowding of mandibular incisors and deep bite
4- Forward shifting and mesial tilting of mandibular 1st
molar with impaction or palatal
eruption of 2nd
premolars.
6-prolonged retention of teeth:
Causes:
1- Incomplete or unequal resorption of roots
2- Absence of permanent teeth
3- Ankylosis of deciduous teeth
4- Abnormal path of eruption of permanent teeth
5- Endocrine disturbance as hypothyroidism
6- Nutritional disturbance
Effects:
1- Deflection of permanent teeth bucally or lingually
2- Impaction of permanent teeth
3- Prolonged retention of deciduous incisor or canine usually results in the deflection of the
permanent successor with disturbance of occlusion
4- If the prolonged retention of the deciduous molars is in the mandible only without maxilla,
the tendency to mandibular protrusion may be initiated
7- Delayed eruption of permanent teeth:
The retarded eruption of the permanent teeth can cause disturbance in the arrangement of teeth
because of shifting of erupted teeth producing lack of space for on coming teeth, the unerupted
tooth may be blocked labially, lingually or bucally or even impacted
Causes:
1- Presence of supernumerary teeth
2- Trauma of tooth germ
3- Infection of tooth germ
4- Displacement of tooth germ by tooth or neoplasm
5- Ankylosis of the tooth with the jaw bone
6- Systemic disease such as endocrine disturbance
7- During premature loss of deciduous tooth, there is a chance for mucosal barrier, if
eruptive force is not vigorous the mucosa can effectively stop the erupting tooth for
considerable period of time. It is a good preventive measure in dentistry to excise the
mucosa when the an erupted tooth appear ready.
N:B: delayed eruption of central incisors upper:
Leads to:
1- lateral incisor may move medially, encroaching the space which should be available for
central incisors.
2- Reduction in the dento-alveolar development in vertical direction, with the result as the
central incisor erupt remain in higher level than other teeth.
8- Abnormal eruptive path:
It is considered as secondary manifestation of primary disturbance
Causes:
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Dr. Mohammed Alruby
1- Severe crowding and totally in- adequate space to accommodate all of the teeth, so the
deflection of the erupting tooth is response to that
2- Presence of supernumerary tooth, retained deciduous tooth or root fragment or bony
barrier often influence the direction of eruption.
3- Trauma to the deciduous teeth may due to the development of successor in an abnormal
direction
4- Mechanical interference by orthodontic treatment also can cause change in eruptive path.
As early Class II therapy against the maxillary arch to move the maxillary dentition
posteriorly can cause the second molars teeth to erupt into cross bite or can impact the
developing third molar more deeply.
5- Coronal cyst can also cause abnormal eruptive paths.
6- Some abnormal eruptive paths are of unknown origin (idiopathic)
7- Ectopic eruption, that is generally considered a manifestation of arch length deficiency
Effect:
1- Crowding and malposition
2- Impaction
N:B: ectopic eruption of maxillary canine:
Primary ectopism: due to disturbance in the long axis due to rotation of the tooth germ.
Secondary ectopism:
= due to lack of space in the arch and the canine is erupting in labial vestibules and may
be in high position on the labial alveolar process
= over retention of deciduous canines.
9-Ankylosis:
Probably due to injury of some sort resulting in joining the lamina dura and cementum, it
may occur in the buccal and lingual aspect and thus unrecognizable in the radiograph
Clinically the ankylosed tooth appears submerged due to eruption of the other teeth
Early recognition and extraction of ankylosed tooth is important to avoid malocclusion
The permanent teeth may also ankylose as a result of:
1- Endocrine disturbance
2- Cleido-cranial dysostosis
3- Accident and trauma
4- Some ankylosis may occur with no apparent cause
5- Ankylosed deciduous should be extracted as soon as diagnosed to permit erupting of
successor.
10-Dental caries: may lead to:
1- Premature loss of deciduous or permanent tooth
2- Subsequent drifting of the contiguous tooth
3- Abnormal axial inclination
4- Over eruption
The caries tooth should be repaired not only to prevent infection and loss of teeth but to
maintain the integrity of the dental arches
11-Impaction:
Impacted tooth is that prevented from intra-oral emergences due to:
1- Lack of space
2- Over retention of deciduous tooth
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Dr. Mohammed Alruby
3- Presence of local interference
4- Abnormal eruptive path
5- Ankylosis
Effects:
1- Resorption of adjacent tooth root
2- May cause cyst
3- Disturbance in occlusion when occurs in the front of 2nd
molar
12-Improper dental restoration:
Which is not contoured to the anatomical landmarks of the teeth, may lead to:
1- Poor inter proximal contact and shifting of the teeth
2- Over eruption of the teeth due to under filling
3- Traumatic occlusion due to premature contact
4- Food impaction and secondary caries
5- Periodontal disease
13-Loss of permanent teeth:
Hershfield pointed out that: every individual tooth is an essential keystone not only for one arch
but also for both arches, the removal of single tooth causes the active forces which tends to
disarrange of dental arches.
According to Hershefeld, the loss of single tooth may have the following sequela:
1- Break the continuity of dental arch, which lead to shifting of teeth mesiodistal or
buccolingual and this leads to: food impaction, Traumatic occlusion, Root exposure,
Periodontal pocket, interdental spacing.
2- Elongation of the teeth: has the following effects:
a- Traumatic occlusion.
b- Food impaction
c- Root exposure
d- Shifting
e- Difficulties in restoration
3- Tooth shifting: tooth shifting after extraction is not predictable, the following are types of
shifting of adjacent teeth can occur after extraction in mouths with normal occlusion:
1- Loss of central incisors produce mesial shifting of lateral incisors and this lead to
spacing between lateral incisors and canine and mesial shifting of the canine.
2- Loss of lateral incisors produce distal shifting of the central incisors and mesial
shifting of the canine.
3- Loss of canine produce distal shift of the incisors and rotation of the premolars.
4- Loss of 1st
premolars usually results in:
== distal shifting of the canine.
== space between central and lateral incisors may present and mesial shifting of the
teeth posterior to the 1st
premolar and this followed by rotation.
5- Loss of 2nd
premolars lead to distal shifting of 1st
premolars and present of space
between the canine and 1st
premolars, and followed by mesial shifting of the molars,
the 1st
molars may show lingual inclination and loss of occlusal contact.
6- Loss of 1st
molar produce:
= distal shifting of the premolars
= in maxilla, the premolars shift together and collapse of arches
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Dr. Mohammed Alruby
= in mandible, the premolars shift single which create space between them and also
distal to canine, collapse of anterior segment with deep bite.
= mesial shifting of the second and third molars
= at the same time, there is flattening or narrowing of the maxillary dental arch
7- Loss of second molars, produce mesial inclination and shifting of the third molar
8- Loss of 3rd
molar does not produce distal shifting of the second molar
N: B: distal drift appears to has two sources:
1- Active contraction from the transeptal fibers in the gingiva
2- The pressure from the lips and checks
Occlusal changes following extraction of 1st
molars can be summarized as follow:
1- Without control of direction of shifting of the remaining teeth in the mouth is a factor to
produce malocclusion
2- In case of Class I angle may change into Class II division 1 or 2 subdivision depend on
the relation of the lips
a- Slip under maxillary teeth ------ div 1
b- Not slip under maxillary teeth -----div 2
3- In case of Class II div 1:
In maxilla: not result in self-correction because of small amount of distal shifting of
premolars, and mesial shifting of adjacent second molars
In mandible: = increase the relative protrusion of maxillary incisors
= attending lingual collapse of mandibular incisors.
4- In case of Class III:
In upper arch: increase the malocclusion
In lower arch: not benefit because the tendency of lower premolars to shift singly and
create interdental spacing
5- If 1st
molar lost before 2nd
molar erupt, there is a tendency for the 2nd
molar to fall into the
alveolus and erupt distally causing disturbed occlusal relationship.
14-Periodontal disease:
= malocclusion that show significant relationship to periodontal infection include vertical incisor
overbite.
= malocclusion can be causative factor in periodontal disease
= malocclusion can cause gingival trauma and it permit food particles to become impacted
With my best wishes;;;;;