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
Changes in periodontal ligament during orthodontic tooth movement /certified ...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
NSAIDS /certified fixed orthodontic courses by Indian dental academy 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
The Steiner analysis was one of the first modern cephalometric analyses. It emphasized the interrelationships between measurements and offered guidelines for treatment planning based on predicted changes from growth and orthodontic therapy. The analysis includes skeletal, dental, and soft tissue measurements. Key skeletal measurements include SNA, SNB, and ANB angles. Key dental measurements include UI-NA and LI-NB angles and distances. The Holdaway ratio evaluates lower incisor prominence. The S-line assesses lower facial balance.
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
COS definition, development and treatment in orthodontics. Deep overbite and reverse curve. Different ways to level the COS. intrusion, extrusion or both.
Muscle function in orthodontics /certified fixed orthodontic courses by Indi...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
Periodontal changes in ortho treatment/certified fixed orthodontic courses by...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
Changes in periodontal ligament during orthodontic tooth movement /certified ...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
NSAIDS /certified fixed orthodontic courses by Indian dental academy 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
The Steiner analysis was one of the first modern cephalometric analyses. It emphasized the interrelationships between measurements and offered guidelines for treatment planning based on predicted changes from growth and orthodontic therapy. The analysis includes skeletal, dental, and soft tissue measurements. Key skeletal measurements include SNA, SNB, and ANB angles. Key dental measurements include UI-NA and LI-NB angles and distances. The Holdaway ratio evaluates lower incisor prominence. The S-line assesses lower facial balance.
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
COS definition, development and treatment in orthodontics. Deep overbite and reverse curve. Different ways to level the COS. intrusion, extrusion or both.
Muscle function in orthodontics /certified fixed orthodontic courses by Indi...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
Periodontal changes in ortho treatment/certified fixed orthodontic courses by...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
The document discusses dental implants and temporary anchorage devices (TADs) used in orthodontics. It covers the history and timeline of implant dentistry, defining osseointegration. Common TAD types are miniscrews and miniplates, usually made of titanium. Placement involves a minor surgical procedure, and success depends on factors like bone density, design, and immediate/delayed loading. TADs provide orthodontists an alternative to traditional anchorage methods for tooth movement.
This document discusses various orthodontic appliances used for intrusion, including the three-piece intrusion arch, Rickets utility arch, K-SIR appliance, and Connecticut Intrusion Arch. It describes how each appliance works and its advantages. The three-piece intrusion arch uses an intrusive cantilever to simultaneously intrude and retract anterior teeth. The Rickets utility arch engages two molars and four incisors to intrude lower incisors. The K-SIR appliance modifies loop mechanics to simultaneously intrude and retract teeth. The Connecticut Intrusion Arch incorporates characteristics of the utility arch and conventional intrusion arch to achieve absolute intrusion of anterior teeth.
1) The document discusses different types of scissor bites (malocclusions where the maxillary teeth are positioned buccal to the mandibular teeth), including definitions, classifications, causes, and treatment options.
2) Scissor bites can be caused by factors like microglossia, abnormal tooth germ position, and skeletal Class II issues. Treatment depends on a patient's age and severity of the scissor bite, ranging from removable appliances to orthodontic devices to orthognathic surgery.
3) The document presents several case studies as examples. One case discusses using a bonded constriction quad-helix appliance to reduce the maxillary arch width in a growing patient with a bilateral scissor
This document discusses how various drugs can impact orthodontic tooth movement. It begins by introducing orthodontic tooth movement and the key signaling molecules and cellular events involved. It then examines how different classes of drugs act on these processes, including analgesics, NSAIDs, corticosteroids, bisphosphonates, and others. The document emphasizes that drugs can slow down or accelerate tooth movement depending on their effects on bone and periodontal tissue remodeling during orthodontic treatment.
The document discusses several theories of craniofacial growth including remodeling theory, genetic theory, sutural theory, nasal septum theory, and the functional matrix hypothesis. It provides details on the key concepts and inconsistencies of each theory. The remodeling theory proposed that growth occurs through bone deposition and resorption at surfaces. The sutural theory emphasized the role of sutures and cartilage in driving growth. The nasal septum theory proposed the nasal septum cartilage pushes the midface forward during growth. The functional matrix hypothesis views the skull as comprising functional units that drive skeletal growth.
Orthodontic tooth movements and biomechanics.Sk Aziz Ikbal
The document discusses biomechanics principles related to orthodontic tooth movement. It covers topics such as:
- Forces applied to teeth can cause movement through bone remodeling.
- Biomechanics refers to mechanics applied to biological systems. Knowledge of forces is needed to control orthodontic treatment.
- Teeth can move through light forces during normal function but heavier sustained forces over 1 second are needed for orthodontic tooth movement.
- Forces have magnitude and direction, while scalars only have magnitude. Resultant forces and moments from multiple applied forces are calculated.
- Different force systems and moment-to-force ratios produce different types of tooth movement such as tipping, translation, rotation, and torque.
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
Twin studies seminar1 /certified fixed orthodontic courses by Indian dent...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
Dr. Percival Raymond Begg developed the Begg technique for orthodontic treatment over many years, beginning in the 1920s. He studied under Dr. Angle and was an early user of the Edgewise appliance. Through his own practice, Begg realized some limitations of Angle's methods and made modifications like removing teeth or stripping tooth width to improve outcomes. This evolved into the Begg technique using light wires and brackets to minimize forces and reduce relapse. The technique gained popularity after visits by American orthodontists to Begg's practice and demonstrations of its effectiveness.
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
The document provides an overview of the activator appliance and its modifications. Some key points:
- The activator was developed in the early 1900s as a way to induce functional growth modifications. It works by applying muscle forces to the jaws through light contact between the appliance and teeth.
- There are different types of activators (H-activator and V-activator) depending on the amount of vertical opening and anterior positioning in the construction bite.
- The appliance is indicated for Class II and III malocclusions, open bites, and other functional issues in growing individuals. Contraindications include non-growing patients and severe vertical growth patterns.
- The activator is thought to work
This document provides an overview of how various drugs can affect orthodontic tooth movement. It discusses how analgesics like NSAIDs can inhibit tooth movement by reducing inflammation. It also addresses the effects of corticosteroids, bisphosphonates, and drugs used to treat osteoporosis and rheumatoid arthritis. The document aims to inform orthodontists about how commonly prescribed medications may interact with orthodontic treatment.
This slide gives you ideas about functional matrix theory revisited by Melvin moss in a series of four articles which he tells the limitations of his first study and how he corrected it . this slide includes Functional matrix theory
Constrains of FMH,Functional matrix theory revisited
Articles,Reference
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
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
This document provides an overview of the Twin Block appliance. Some key points:
- The Twin Block appliance was developed by William J. Clark in 1977 and consists of maxillary and mandibular bite blocks designed to be worn 24 hours a day.
- The inclined planes on the upper and lower bite blocks are angled at 70 degrees to encourage forward mandibular growth.
- Treatment involves an active phase to correct sagittal discrepancies followed by a support phase to maintain corrections until the occlusion is established.
- Functional appliances like Twin Block are thought to stimulate mandibular growth through remodeling of the glenoid fossa and pterygoid response to the new functional demands placed on the mastic
The document summarizes the biology of tooth movement during orthodontic treatment. It discusses how application of force leads to bone remodeling through pressure and tension on the periodontal ligament. Optimal force causes bone resorption on the pressure side and deposition on the tension side through cellular processes. Tooth movement occurs in initial, lag, and post-lag phases as the hyalinized tissue is removed and bone remodeling allows for further movement.
This document provides an overview of orthodontics and orthodontic tooth movement. It defines orthodontics as the specialty concerned with treatment and management of malocclusion. Orthodontic tooth movement results from forces delivered by fixed or removable appliances and occurs through the periodontal ligament in response to these mechanical forces. Proper application of biomechanical principles can improve treatment efficiency. Different types of tooth movement like tipping, translation, and rotation are discussed along with optimal force levels and durations. Factors like wire properties, bracket size and material are also covered.
The document discusses dental implants and temporary anchorage devices (TADs) used in orthodontics. It covers the history and timeline of implant dentistry, defining osseointegration. Common TAD types are miniscrews and miniplates, usually made of titanium. Placement involves a minor surgical procedure, and success depends on factors like bone density, design, and immediate/delayed loading. TADs provide orthodontists an alternative to traditional anchorage methods for tooth movement.
This document discusses various orthodontic appliances used for intrusion, including the three-piece intrusion arch, Rickets utility arch, K-SIR appliance, and Connecticut Intrusion Arch. It describes how each appliance works and its advantages. The three-piece intrusion arch uses an intrusive cantilever to simultaneously intrude and retract anterior teeth. The Rickets utility arch engages two molars and four incisors to intrude lower incisors. The K-SIR appliance modifies loop mechanics to simultaneously intrude and retract teeth. The Connecticut Intrusion Arch incorporates characteristics of the utility arch and conventional intrusion arch to achieve absolute intrusion of anterior teeth.
1) The document discusses different types of scissor bites (malocclusions where the maxillary teeth are positioned buccal to the mandibular teeth), including definitions, classifications, causes, and treatment options.
2) Scissor bites can be caused by factors like microglossia, abnormal tooth germ position, and skeletal Class II issues. Treatment depends on a patient's age and severity of the scissor bite, ranging from removable appliances to orthodontic devices to orthognathic surgery.
3) The document presents several case studies as examples. One case discusses using a bonded constriction quad-helix appliance to reduce the maxillary arch width in a growing patient with a bilateral scissor
This document discusses how various drugs can impact orthodontic tooth movement. It begins by introducing orthodontic tooth movement and the key signaling molecules and cellular events involved. It then examines how different classes of drugs act on these processes, including analgesics, NSAIDs, corticosteroids, bisphosphonates, and others. The document emphasizes that drugs can slow down or accelerate tooth movement depending on their effects on bone and periodontal tissue remodeling during orthodontic treatment.
The document discusses several theories of craniofacial growth including remodeling theory, genetic theory, sutural theory, nasal septum theory, and the functional matrix hypothesis. It provides details on the key concepts and inconsistencies of each theory. The remodeling theory proposed that growth occurs through bone deposition and resorption at surfaces. The sutural theory emphasized the role of sutures and cartilage in driving growth. The nasal septum theory proposed the nasal septum cartilage pushes the midface forward during growth. The functional matrix hypothesis views the skull as comprising functional units that drive skeletal growth.
Orthodontic tooth movements and biomechanics.Sk Aziz Ikbal
The document discusses biomechanics principles related to orthodontic tooth movement. It covers topics such as:
- Forces applied to teeth can cause movement through bone remodeling.
- Biomechanics refers to mechanics applied to biological systems. Knowledge of forces is needed to control orthodontic treatment.
- Teeth can move through light forces during normal function but heavier sustained forces over 1 second are needed for orthodontic tooth movement.
- Forces have magnitude and direction, while scalars only have magnitude. Resultant forces and moments from multiple applied forces are calculated.
- Different force systems and moment-to-force ratios produce different types of tooth movement such as tipping, translation, rotation, and torque.
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
Twin studies seminar1 /certified fixed orthodontic courses by Indian dent...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
Dr. Percival Raymond Begg developed the Begg technique for orthodontic treatment over many years, beginning in the 1920s. He studied under Dr. Angle and was an early user of the Edgewise appliance. Through his own practice, Begg realized some limitations of Angle's methods and made modifications like removing teeth or stripping tooth width to improve outcomes. This evolved into the Begg technique using light wires and brackets to minimize forces and reduce relapse. The technique gained popularity after visits by American orthodontists to Begg's practice and demonstrations of its effectiveness.
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
The document provides an overview of the activator appliance and its modifications. Some key points:
- The activator was developed in the early 1900s as a way to induce functional growth modifications. It works by applying muscle forces to the jaws through light contact between the appliance and teeth.
- There are different types of activators (H-activator and V-activator) depending on the amount of vertical opening and anterior positioning in the construction bite.
- The appliance is indicated for Class II and III malocclusions, open bites, and other functional issues in growing individuals. Contraindications include non-growing patients and severe vertical growth patterns.
- The activator is thought to work
This document provides an overview of how various drugs can affect orthodontic tooth movement. It discusses how analgesics like NSAIDs can inhibit tooth movement by reducing inflammation. It also addresses the effects of corticosteroids, bisphosphonates, and drugs used to treat osteoporosis and rheumatoid arthritis. The document aims to inform orthodontists about how commonly prescribed medications may interact with orthodontic treatment.
This slide gives you ideas about functional matrix theory revisited by Melvin moss in a series of four articles which he tells the limitations of his first study and how he corrected it . this slide includes Functional matrix theory
Constrains of FMH,Functional matrix theory revisited
Articles,Reference
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
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
This document provides an overview of the Twin Block appliance. Some key points:
- The Twin Block appliance was developed by William J. Clark in 1977 and consists of maxillary and mandibular bite blocks designed to be worn 24 hours a day.
- The inclined planes on the upper and lower bite blocks are angled at 70 degrees to encourage forward mandibular growth.
- Treatment involves an active phase to correct sagittal discrepancies followed by a support phase to maintain corrections until the occlusion is established.
- Functional appliances like Twin Block are thought to stimulate mandibular growth through remodeling of the glenoid fossa and pterygoid response to the new functional demands placed on the mastic
The document summarizes the biology of tooth movement during orthodontic treatment. It discusses how application of force leads to bone remodeling through pressure and tension on the periodontal ligament. Optimal force causes bone resorption on the pressure side and deposition on the tension side through cellular processes. Tooth movement occurs in initial, lag, and post-lag phases as the hyalinized tissue is removed and bone remodeling allows for further movement.
This document provides an overview of orthodontics and orthodontic tooth movement. It defines orthodontics as the specialty concerned with treatment and management of malocclusion. Orthodontic tooth movement results from forces delivered by fixed or removable appliances and occurs through the periodontal ligament in response to these mechanical forces. Proper application of biomechanical principles can improve treatment efficiency. Different types of tooth movement like tipping, translation, and rotation are discussed along with optimal force levels and durations. Factors like wire properties, bracket size and material are also covered.
This document provides an overview of the biology of orthodontic tooth movement. It discusses physiologic tooth movement including eruption, migration, and movement during mastication. It then covers the theories of tooth eruption and details migration/drift of teeth. The document outlines the periodontium including its cellular elements and fibers. It explains orthodontic tooth movement through pressure-tension theory and the effects of light versus heavy forces. It also discusses the potential deleterious effects of orthodontic forces and factors that can enhance or impede tooth movement.
This document discusses the biology of tooth movement during orthodontic treatment. It begins with an introduction to how orthodontic forces are transferred through teeth to the periodontium, triggering biological responses that allow tooth movement. It then covers the history of theories of tooth movement dating back to the 18th century. The bulk of the document details the cascade of biological events that occur in the periodontal ligament and alveolar bone in response to orthodontic forces, including changes in blood flow, release of signaling molecules, cellular responses, production of prostaglandins and other mediators, and bone remodeling through resorption and formation. It also addresses how mechanical forces are detected by bone cells and discusses theories of strain release potentials
Biomechanics of tooth movement /certified fixed orthodontic courses by Indian...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
Tissue reaction in orthodontics /certified fixed orthodontic courses by Indi...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
Orthodontic tooth movement is made possible by bone remodeling in response to applied forces. When optimal forces are used, tooth movement occurs in three phases: initial rapid movement, followed by a lag phase where hyalinization occurs, then a post-lag phase of continued movement through bone resorption and deposition on the pressure and tension sides respectively. Several theories explain the biological mechanisms underlying tooth movement, involving changes in blood flow, piezoelectric effects, and modeling and remodeling of alveolar bone by osteoclasts and osteoblasts.
This document discusses the biology of tooth movement during orthodontic treatment. It covers topics such as the periodontal ligament, types of forces, phases of tooth movement, and theories of tooth movement. The key points are:
1) Tooth movement occurs through remodeling of the alveolar bone mediated by the periodontal ligament. Light continuous forces produce optimal movement with minimal tissue damage.
2) Tooth movement involves an initial phase of displacement, followed by a lag phase where hyalinized tissue forms, and then a post-lag phase where movement resumes as the hyalinized tissue is removed.
3) Several theories have been proposed to explain the mechanism of tooth movement, including the pressure-tension
1. Orthodontic tooth movement is initiated by a clinician applying force to a tooth, moving it beyond its normal physiological range.
2. Several factors affect the amount and nature of tooth movement, including the magnitude, direction, and type of force applied, as well as biological factors like bone density, age, and systemic health.
3. Physiological tooth movement includes slight tipping as teeth function, eruption, and slow migration over time to compensate for wear.
The document discusses the biology of tooth movement during orthodontic treatment. It covers the periodontium, periodontal ligament, mechanisms of orthodontic tooth movement, and tissue reaction to tooth movement, including physiologic tooth movement and orthodontic tooth movement. Orthodontic tooth movement causes dentoalveolar tissue reactions on the pressure and tension sides, and can result in hyalinization if heavy forces are applied.
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
Bone changes during ortho. tooth movement dr.anusha /certified fixed orthodon...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
Cybernetics /certified fixed orthodontic courses by Indian dental academy 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
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
Legacy of begg's /certified fixed orthodontic courses by Indian dental academy 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
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
00919248678078
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
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
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
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
Root resorption /certified fixed orthodontic courses by Indian dental academy 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
Physiology of tooth movement ii /certified fixed orthodontic courses by India...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
Biology of tooth movement 1.12.2004 /certified fixed orthodontic courses by...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
Copy of biology and biomechanics /certified fixed orthodontic courses by Indi...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
Tissue reaction to dentofacial orthopedic appliances /certified fixed orthodo...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
The document provides information on the supporting tissues involved in orthodontic tooth movement, including the gingiva, periodontal ligament, cementum, and alveolar bone. It describes the normal structure and function of these tissues. When orthodontic forces are applied, the document explains that there is initial narrowing of the periodontal membrane and formation of hyalinized zones where blood flow is reduced. This is followed by removal of destroyed tissue and repopulation of the area by cells to allow bone resorption and tooth movement.
Alveolar bone and its relavance in prosthodontics / dental coursesIndian dental academy
This document discusses alveolar bone, its relevance in prosthodontics, and its development, composition, structure, and role in supporting teeth. Alveolar bone forms the sockets in the jawbones that hold the roots of teeth in place. It is composed of cortical plates, cribriform plates surrounding each tooth socket, and sometimes intervening spongy bone. The bone undergoes remodeling throughout life in response to tooth movement and forces from occlusion. Loss of teeth leads to residual ridge resorption that reduces the available bone for dental implants or dentures.
The document discusses alveolar bone and its relevance in prosthodontics. It defines alveolar bone and related terms, and describes the functions, composition, cells, classification, anatomy, development, histological structure, and influence of systemic diseases, vitamins, hormones, and drugs on alveolar bone. Alveolar bone supports teeth, distributes forces, provides attachment for muscles, acts as a reservoir for minerals, and works to maintain pH balance. Its microscopic structure consists of concentric lamellae that form Haversian systems. Conditions like hyperparathyroidism and diabetes can negatively impact alveolar bone through increased resorption.
The alveolar process is the portion of the maxilla or mandible that supports and protects the tooth sockets (alveoli). It is formed during tooth eruption to provide bony attachment for the periodontal ligament. The alveolar process has two parts - the alveolar bone proper surrounding each tooth root, and the supporting alveolar bone of the rest of the process. The structure and remodelling of the alveolar bone is dependent on the presence of teeth. Bone is continually broken down by osteoclasts and rebuilt by osteoblasts to maintain levels. Loss of alveolar bone from periodontal disease is difficult to regenerate fully.
Bone is a living connective tissue that makes up the skeleton. The alveolar process is the tooth-supporting portion of the jaws that forms the sockets housing the teeth. It develops from the dental follicle and surrounding bone as the teeth erupt. The alveolar process consists of inner and outer cortical plates surrounding a core of cancellous bone. It is continually remodeled through the balanced actions of bone-forming osteoblasts and bone-resorbing osteoclasts to maintain healthy teeth and absorb forces from chewing. Fenestrations and dehiscences are defects where the alveolar bone no longer fully surrounds the tooth roots.
The periodontium connects teeth to the jaws and includes the periodontal ligament, lamina propria, cementum, and alveolar bone. Cementum covers tooth roots and provides attachment for collagen fibers binding the tooth. The periodontal ligament contains collagen fibers connecting cementum to bone, along with blood vessels and cells that form and resorb bone and cementum. Alveolar bone has outer cortical and inner cancellous bone. Bone is composed of mineralized hydroxyapatite and collagen matrix, along with osteoblasts, osteoclasts, and osteocytes that form and resorb bone. The document discusses bone cell types and functions, bone development, remodeling, and disorders relevant to orthodontics such
The document summarizes key aspects of alveolar bone anatomy and physiology:
1. The alveolar process forms tooth sockets and provides osseous attachment to the periodontal ligament. It is made up of cortical plates and cancellous bone containing osteons and lamellae.
2. Alveolar bone remodeling is regulated by hormones like PTH and involves balanced bone resorption by osteoclasts and formation by osteoblasts.
3. The alveolar bone proper surrounds tooth roots and gives attachment to periodontal fibers, while supporting bone surrounds it. Disorders like fenestrations and dehiscences can result in root surface denudation.
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
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The alveolar bone is composed of the ridges of the jaw that support the teeth. The roots of the teeth are contained in deep depressions, the alveolar sockets in the bone. The alveolar bone develops around each tooth follicle during odontogenesis. It is composed primarily of hydroxyapatite and collagen. It contains an outer cortical plate, inner socket wall, cancellous trabeculae, interdental septum and alveolar crest. Osteoblasts and osteoclasts are the main cells involved in bone formation and resorption.
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The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
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The document discusses changes that occur in the periodontal ligament during orthodontic tooth movement. It describes the periodontal ligament, its cells, fibers and function. It discusses theories of tooth movement, including the bioelectric theory involving piezoelectric signals from bone deformation, and the pressure-tension theory involving changes in blood flow. It explains how application of sustained orthodontic forces leads to cellular reactions and remodeling of the alveolar bone and periodontal ligament through these proposed mechanisms.
The document discusses changes that occur in the periodontal ligament during orthodontic tooth movement. It describes the periodontal ligament, its cells, fibers and function. It discusses two major theories for how orthodontic forces are transformed into tissue responses - the bioelectric theory involving piezoelectric signals from bone bending, and the pressure-tension theory involving changes in blood flow. It also outlines the response of periodontal ligament tissues on the pressure and tension sides during tooth movement.
This document provides an overview of alveolar bone. It discusses the development, anatomy, histology, radiographic features, and pathologies of alveolar bone. Alveolar bone forms the bony housing for teeth and provides attachment for the periodontal ligament. It develops during fetal growth via intramembranous ossification. Anatomically, it consists of cortical plates and inner cancellous bone with trabeculae. Histologically, it is composed of osteoblasts, osteocytes, and osteoclasts. Common pathologies involving alveolar bone loss include periodontal disease, trauma from occlusion, and systemic factors like osteoporosis.
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
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Indian Dental Academy
Leader in continuing dental education
www.indiandentalacademy.com
skype:indiandentalacademy
+919248678078
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
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
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This document discusses dental occlusion concepts and philosophies for complete dentures. It introduces key terms like physiologic occlusion and defines different occlusion schemes like balanced articulation and monoplane articulation. The document discusses advantages and disadvantages of using anatomic versus non-anatomic teeth for complete dentures. It also outlines requirements for maintaining denture stability, such as balanced occlusal contacts and control of horizontal forces. The goal of occlusion for complete dentures is to re-establish the homeostasis of the masticatory system disrupted by edentulism.
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This document discusses dental casting investment materials. It describes the three main types of investments - gypsum bonded, phosphate bonded, and ethyl silicate bonded investments. For gypsum bonded investments specifically, it details their classification, composition including the roles of gypsum, silica, and modifiers, setting time, normal and hygroscopic setting expansion, and thermal expansion. It provides information on how the properties of gypsum bonded investments are affected by their composition. The document serves as a comprehensive overview of dental casting investment materials.
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The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
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The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
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The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
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The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
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Copy of biology of tooth movement jay /certified fixed orthodontic courses by Indian dental academy
1. BIOLOGY OF
TOOTH MOVEMENT
INDIAN DENTAL ACADEMY
Leader in continuing dental education
www.indiandentalacademy.com
www.indiandentalacademy.com
2. INTRODUCTION
TOOTH SUPPORTING TISSUES
BONE MODELING AND REMODELING
TOOTH MOVEMENT
ORTHODONTIC TOOTH MOVEMENT
PHASES OF TOOTH MOVEMENT
BIOLOGICAL CONTROL MECHANISMS
-THEORIES OF TOOTH MOVEMENT
GENETIC CONTROL MECHANISMS
BIOCHEMICAL REACTIONS
ORTHODONTIC FORCES
-MAGNITUDE AND DURATION OF FORCES
TYPES OF TOOTH MOVEMENTS & TISSUE REACTIONS
FACTORS INFLUENCING TOOTH MOVEMENT
IATROGENIC REPONSE OF SUPPORTING TISSUES
POST TREATMENT STABILITY
CONCLUSION
www.indiandentalacademy.com
3. INTRODUCTION
The essence of orthodontic treatment is the movement of
teeth through bone to obtain a more perfect dental
occlusion.
Orthodontic tooth movement has been defined by Proffit as
the result of a biological response to an interference in the
physiological equilibrium in the dentofacial complex by an
externally applied force.
Accurate and precise control of tooth movement can be
optimized with the proper use of mechanics and
knowledge of the subsequent tissue response.
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4. TOOTH SUPPORTING TISSUES
Orthodontic Treatment involves the use and control of forces acting on
the teeth and associated structures. During tooth movement changes in
the periodontium occur, depending on the magnitude, direction and
duration of the force applied, as well as the age of the orthodontically
treated patient.
The Periodontium (pert=around, odontos=tooth) comprises the
following tissues:
-the gingiva, the periodontal ligament (PDL),
-the root cementum, and
-the alveolar bone.
www.indiandentalacademy.com
5. Gingiva:
The gingiva is further differentiated into the Free and Attached
Gingiva. In clinically healthy gingiva the free gingiva is in close contact
with the enamel surface, and its margin is located 0.5 to 2mm coronal to
the cementoenamel junction after completed tooth eruption. The
attached gingiva is firmly attached to the underlying alveolar bone and
cementum by connective tissue fibres and is therefore comparatively
immobile.
The predominant tissue component of the gingival is the
Connective Tissue, which consists of Collagen Fibres (66%), Fibroblasts
(5%) and Vessels, Nerves & Matrix (35%)
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6. Periodontal Ligament:
The Periodontal Ligament (PDL), approximately 0.25mm wide, is the soft, richly
vascular and cellular connective tissue that surrounds the roots of the teeth and joins the
root cementum with the lamina dura or alveolar bone proper. The presence of a PDL makes
it possible to distribute and resorb the forces elicited into the alveolar process through the
alveolar bone proper.
The true periodontal fibres, the Principal Fibres, develop in conjunction with the
eruption of the tooth. When the tooth has reached contact in occlusion and is functioning
properly, the principal fibres associate into the following well-oriented groups: Alveolar
Crest Fibres(ACF),Horizontal Fibres(HF), Oblique Fibres(OF) and Apical Fibres(APF). The
fibrils of PDL are embedded in a ground substance which contains connective tissue
polysaccharides (Glycosylaminoglycans), salts and water.
www.indiandentalacademy.com
7. R00t Cementum:
The root cementum is a specialized mineralized tissue covering the
root surface. The cementum does not contain any blood vessels, has no
innervations, does not undergo physiologic resorption or remodelling, but is
characterized by continuing deposition throughout life. The cementum
attaches the PDL fibres to the root and contributes to the process of repair
after damage to the root surface (e.g., during orthodontic treatment).
During root formation a primary cementum is formed. After tooth eruption
and in response to functional demands, a secondary cementum is formed,
which in contrast to the primary cementum contains cells.
www.indiandentalacademy.com
(AEFC-acellular extrinsic fibre cementum) (CB-collagen bundles)
8. Alveolar Bone:
Alveolar bone surrounds the tooth to a level
approximately 1mm apical to the CEJ. This part of the
alveolar bone that covers the alveolus is referred to as
lamina dura, a cortical bone. The alveolar bone is
constantly renewed in response to functional demands with
the help of bone-forming Osteoblasts and Osteoclasts. The
Osteoblasts produce Osteoid, consisting of collagen fibres
and a matrix that contain mainly proteoglycans and
glycoproteins. The bone is covered with the Periosteum,
which functions as an osteogenic zone throughout life.
The alveolar bone further consists of two components, the
alveolar bone proper and the alveolar process.
www.indiandentalacademy.com
9. BONE TISSUE
Bone is a specialized mineralized connective tissue made up of an
organic matrix of collagen fibrils embedded in an amorphous substance
with mineral crystals precipitated within the matrix.
The main functions of bone are two fold:
Function of Support &
Reservoir Function
www.indiandentalacademy.com
10. Classification:
>>Based on Structure.
1)Compact Bone or Cortical Bone: the dense outer shell of the skeleton.
2)Cancellous Bone or Trabecular Bone - comprises of a system of plates,
rods, arches and struts traversing the medullary cavity encased within the
shell of compact bone.
>>Based on the arrangement of collagenous matrix.
1)Immature Bone: This is further subdivided into:
Woven Bone: Relatively weak, disorganized and poorly mineralized. The
first bone formed in response to orthodontic loading usually is the woven
type.
Bundle Bone: is a functional adaptation of lamellar structure to allow
attachment of Sharpey's fibers.
2)Mature Bone : This is further subdivided into:
Lamellar Bone: is a strong, highly organized, well-mineralized tissue.
Adult human bone is almost entirely of this remodeled variety. The full
strength of lamellar bone that supports an orthodontically moved tooth is not
achieved until approximately 1 year after completion of active treatment.
Composite Bone: is an osseous tissue formed by the deposition of lamellar
bone within a woven bone lattice. It is an important intermediary type of
bone in the physiologic response to orthodontic loading.
www.indiandentalacademy.com
11. BONE MODELING AND REMODELING
Wolff’s Law as stated in 1892:
“Every change in the form and function of bone or of their function alone is followed by
certain definite changes in their internal architecture, and equally definite alteration in
their external conformation, in accordance with mathematical laws.”
Both trabecular and cortical bone grow, adapt, and turn over by means of two
fundamentally distinct mechanisms: Modeling and Remodeling.
Because bone is a relatively rigid material, incapable of internal expansion or
contraction, changes in osseous structure are via cell-mediated resorption and
formation.
In Bone modeling, independent sites of resorption and formation change the form
(i.e., shape or size or both) of a bone. In other words it is a process of uncoupled
resorption and formation. In bone remodeling a specific, coupled sequence of
resorption and formation occurs to replace previously existing bone. From an
orthodontic perspective the biomechanical response to tooth movement involves an
integrated array of bone modeling and remodeling events.
Bone modeling is the dominant process of facial growth and adaptations to applied
loads such as head gear, RPE, and functional appliances. Modeling changes can be seen
on cephalometric tracings, but remodeling events are apparent only at the microscopic
www.indiandentalacademy.com
level.
12. Constant remodeling mobilizes and redeposits calcium by means of ‘coupled’
resorption and formation: bone is resorbed and redeposited at the same site.
Osteoblasts, Osteoclasts, and possibly their precursors are thought to
communicate by chemical messages known as Coupling Factors. Transforming
Growth Factor beta (TGF-beta) is thought to be a possible coupling factor.
The remodeling process has evolved a vascularized multicellular unit for
removing and replacing cortical bone which is called a cutting/filling cone.
Remodeling of cortical bone will result in the formation of secondary osteons.
These vascularized multicellular units of osteoclasts and osteoblasts are essential
for metabolic, biomechanical, and postoperative remodeling. The entire coupled
sequence to form a new secondary osteon requires about 6 months in man.
Schematic cross section through a bone showing
the physiological relationship of bone modeling
and remodeling.
-Modeling(M) changes the size or shape of a
bone by forming or resorbing bone along
periosteal and endosteal surfaces.
-Remodeling(R) is the internal bone turnover to
form new secondary osteons.
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13. Diagrammatic representation of coupling of osteoclastic bone resorption followed by osteoblastic
bone formation. The initial event involves the synthesis and release of matrix metalloproteinases
(MMPs) by osteoblasts which are responsible for degrading the osteoid, thus exposing the
mineralized ,matrix which may be chemotactic to osteoclast. The osteoblast also directly
stimulates osteoclast activity. During the resorption process growth factors are released from the
matrix which then activate osteoprogenitor cells. The osteoprogenitor cells mature into
osteoblasts and ultimately replace the resorbed bone. [The mechanism by which osteoclasts are
directed to form bone only in the resorption lacunae may be due to the presence of molecules
www.indiandentalacademy.com
such as TGF-β and BMPs which are left behind during osteoclastic activity.]
14. TOOTH MOVEMENT
PATHOLOGIC TOOTH MOVEMENT
Carranza defined it as ‘displacement that results when the
balance among the factors that maintain physiological tooth position is
disturbed by periodontal disease’.
It occurs most frequently in the anterior region, but posterior teeth may
also be affected.
PHYSIOLOGIC TOOTH MOVEMENT
‘The term physiologic tooth movement designates, primarily, the
slight tipping of the functioning tooth in its socket and, secondarily, the
changes in the tooth position that occur in young persons during and after
tooth eruption.’ Contrary to the relatively short eruption period, the teeth
and their supporting tissues have a life-long ability to adapt to functional
demands and hence drift through the alveolar process, a phenomenon
called physiologic tooth migration. This physiologic drift is essential to
maintain stomatognathic form and function.
www.indiandentalacademy.com
15. ORTHODONTIC TOOTH MOVEMENT
No great difference exists between the tissue reactions observed in
physiologic and those observed in orthodontic tooth movement.
However, since the teeth are moved more rapidly during treatment, the
tissue changes elicited during orthodontic forces are consequently more
marked and extensive.
Hyalinization: Hyalinization is a form of tissue degeneration
characterized by formation of a clear, eosinophilic homogenous
substance. A hyalinized zone is a local cell free area of overcompressed
periodontal tissue. The conventional pathologic process of
hyalinization is an irreversible one; however, hyalinization of the
periodontal ligament is a reversible process. Hyalinization is caused
partly by mechanical factors and is almost unavoidable in the initial
period of tooth movement in clinical orthodontics.
www.indiandentalacademy.com
16. The changes observed during formation of hyalinized zones can be summarized as
follows:
- There is a gradual compression of the periodontal fibres leading to shrinkage and
disappearance of cell nuclei and, subsequently, an exchange of degraded capillaries
and fibrils as well.
- Osteoclasts are formed in marrow spaces and adjacent areas of the inner bone
surface after a period of 20 to 30 hours.
- There is a gradual increase in the number of young connective tissue cells around
the osteoclasts and in areas where the pressure is relieved by undermining bone
resorption. This change in appearance before and after hyalinization is especially
marked in the adult periodontal ligament. The general increase in cell number will
facilitate bone resorption during the secondary stage of tooth movement.
A semihyalinized zone may occur due to lower local pressure with more viable
tissue and a smaller risk of adjacent root resorption, or it may be a preliminary stage to
full hyalinization.
Photomicrograph showing focal hyalinization of the
PDL at the pressure side of a second premolar.
T-tooth, B-Bone, H-Hyalinization, OC-Osteoclast, Rundermining Resorption
www.indiandentalacademy.com
17. Tissue Response in Periodontium:
The most dramatic remodelling changes incident to
orthodontic tooth movement occur in the PDL. Application of a
continuous force on the crown of the tooth leads to tooth movement
within the alveolus that is marked initially by narrowing of the
periodontal membrane, particularly in the marginal area.
If the duration of movement is divided into an initial and a secondary
period, direct bone resorption is found notably in the secondary period,
when the hyalinized tissue has disappeared after undermining bone
resorption.
During the crucial stage of initial application of force, the tissue reveals
a glass like appearance in light microscopy, termed hyalinization. It
represents a sterile necrotic area, generally limited to 1 or 2mm in
diameter. The process displays three main stages: Degeneration,
Elimination of destroyed tissue, and Establishment of a new tooth
attachment.
www.indiandentalacademy.com
18. In the secondary period of tooth movement the PDL is considerably widened.
The osteoclasts will attack the bone surface over a much wider area and, provided
the force is kept within certain limits, further bone resorption will be predominantly
of the direct type. The fibrous attachment apparatus is somewhat reorganized by
the production of new periodontal fibrils. These are attached to the root surface and
parts of the alveolar bone wall where direct resorption is not occurring by the
deposition of new tissue, in which the fibrils become embedded.
The main feature is the deposition of new bone on the alveolar surface from
which the tooth is moving away. Cell proliferation is usually seen after 30 to 40
hours in young human beings. Shortly after cell proliferation has started, osteoid
tissue is deposited on the tension side. The original periodontal fibres become
embedded in the new layers of osteoid, which mineralizes in the deeper parts. New
bone is deposited until the width of the membrane has returned to normal limits,
and simultaneously fibrous system is remodelled. Concomitantly with bone
apposition on the periodontal surface on the tension side, an accompanying
resorption process occurs on the spongiosa surface of the alveolar bone. This tends
to maintain the dimension of the supporting bone tissue.
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19. PHASES OF TOOTH MOVEMENT
Classification of Three Phases of tooth movement by Burstone, Reitan, and Storey:
FIRST PHASE
(An initial period of Tooth
Movement following application
of Force)
SECOND PHASE
(Slight movement or
no movement)
THIRD PHASE
(Tooth movement resumes
at Slow or Rapid Rate)
Burstone, C.J. (1962)
Initial Phase
Lag Phase
Post-Lag Phase
Reitan, K.
(1975)
Initial Period,
First, or PreHyalinization Stage
Initial Period,
Plateau, or
Hyalinization Stage
Secondary or PostHyalinization
Period
Storey, E.
(1973)
First Phase
Second Phase
Third Phase
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20. Storey inferred from his animal studies and graphed analyses that,
“In general, each curve has three phases: the first, where rapid movement takes
place through the periodontal ligament space; the second, where movement occurs
relatively slowly, or not at all, with the heaviest forces; and finally a stage where teeth
begin to move rapidly……”
The Initial Phase: There is mechanical displacement of the tooth within the
periodontal membrane space. This movement may be a crown tipping or a bodily
movement, and is frequently a combination. The initial movement maybe regarded as
including mechanical displacement following deformation of supporting bone. Tissue
compression and bone deformation in this phase, which ordinarily lasts six to eight days,
can result in rapid movement.
The Lag Phase: According to Reitan, this is the plateau or hyalinization stage in which
little or no tooth movement occurs. It is characterized by cell free zones on the pressure
side of the root and undermining resorption on the periodontal side of the alveolar wall.
This stage usually lasts from one to three weeks.
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21. The Post-Lag Phase: There occurs a mechanical displacement of the tooth
associated with cellular activity of resorption and deposition. This may be any type
of tooth movement and may be rapid or slow. It occurs spontaneously at the
conclusion of the hyalinization period or lag phase without additional force input.
Interrupted Lag Phase: Reitan initially observed that little or no movement
occurs during the hyalinization period or lag phase. But movement can occur
following reactivation of spring force before undermining resorption has
eliminated the hyalinized areas resulting from the previous activation. This might
be termed an interrupted lag phase.
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22. BIOLOGICAL CONTROL MECHANISMS IN TOOTH MOVEMENT
(What makes the tissue respond and what are the control elements involved in tooth movement ??)
Two mechanisms have been proposed:
The pressure-tension theory relates tooth movement to biochemical-responses by the
cells and extracellular components of the PDL, and alveolar bone.
The bio-electric theory deals with tooth movement as a bioelectric phenomenon that
may occur as a result of mechanical distortion of collagenous matrices, mineralized or
nonmineralized, in the alveolar bone, the PDL, and the teeth.
-Pressure Tension theory: This classic hypotheses on the mechanism of tooth
movement, based on the work of Oppenheim(1911), Sandstedt(1905), and
Schwarz(1932), postulate the movement of the tooth within the periodontal space,
generating a "pressure" side and a "tension" side. Schwarz hypothesized that the PDL
space is a continuous hydrostatic system, and forces applied to this environment by
means of mastication or orthodontic appliances create a hydrostatic pressure that
would be, in accordance with Pascal's law, transmitted equally to all regions of the
PDL. On the "pressure" side, cell replication is said to decrease as a result of vascular
constriction, causing bone resorption. On the "tension" side, cell replication is said to
increase because of the stimulation afforded by the stretching of the fibre bundles of
the periodontal ligament (PDL), thus causing bone deposition. In terms of fibre
content, the PDL on the "pressure" side is said to display disorganization and
diminution of fibre production, while on the "tension" side, fibre production is said to
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be stimulated.
23. -The Bio-electric Theory: (Farrar 1876)
It has been shown that distortion of cells and extracellular matrix is associated with
alteration in tissue and cellular electric potentials. Bones generally have a remarkable
ability to remodel their structure in such a way that the stress is optimally resisted. It has
been hypothesized that mechanical deformation of the crystalline structure of the
hydroxyapetite and the crystalline structure of collagen induce migration of electrons that
generate local electric fields. This phenomenon is called piezoelectricity.
*Such signals die away quickly even though the force is maintained.
* But when the force is released and the crystal lattice returns to the original shape, a
reverse flow of electrons occurs. Rhythmic activity would cause a rhythmic flow of
electrons in both directions.
Cells are sensitive to this piezoelctric effect. It has been assumed that bending of
bone may create negative fields occurring in the concave aspect of the bone surface
leading to deposition. Areas of convexity are associated with positive charges and evoke
bone resorption. Further, ions in the fluids surrounding the living bone interact with
these electrical fields. These currents of small voltages are called streaming potentials.
Recent in vivo experiments conducted by Roberts et al (1981-JDR) have revealed that a
negative electrical field is created in the areas where the PDL is widened.
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24. -Fluid Dynamic Theory: (Bien 1966)
This theory is also called the Blood Flow Theory as proposed by Bien.
According to this theory tooth movement occurs as a result of alterations in fluid
dynamics in the PDL. The periodontal space contains a fluid system made up of
interstitial fluid, cellular elements, blood vessels and viscous ground substance in
addition to periodontal fibres. It is a confined space and passage of fluid in and out
of this space is limited. The contents of the PDL thus create a unique hydrodynamic
condition resembling a hydraulic mechanism and a shock absorber. When the force
is removed, the fluid is replenished by diffusion from capillary walls and
recirculation of interstitial fluid. But when a force of greater magnitude and duration
is applied such as during orthodontic tooth movement, the interstitial fluid in the
periodontal space gets squeezed out and moves towards the apex and cervical
margins and results in decreased tooth movement. This is called the “squeeze film
effect” as proposed by Bien.
When an orthodontic force is applied, it results in compression of the PDL.
Blood vessels of the PDL gets trapped between the principal fibres and this results in
their stenosis. Bien suggested that there is an alteration in the chemical environment
at the site of vascular stenosis due to a decreased oxygen level in the compressed
areas as compared to the tension side. The formation of these aneurysms and
vascular stenosis causes blood gases to escape into the interstitial fluid thereby
creating a favourable local environment for resorption.
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25. GENETIC CONTROL MECHANISMS
Several Genes, linked to mechanical activation of bone, produce
enzymes such as glutamate/aspartate transporter (GLAST), inducible
nitric oxide synthetase (iNOS) and prostaglandin G/H synthetase (PGHS2). Inducible gene products compose an intricate series of edocrine,
paracrine, and autocrine mechanisms for controlling bone modeling.
-Parathyroid Hormone (PTH) and PTH-related protein (PTHrP) enhance
expression of insulin-like growth factor I (IGF-I).
-In situ hybridization under conditions of physiologic tooth movement in
rats demonstrated site-specific expression of mRNAs for osteonectin(Osn),
osteocalcin (Ocn), and osteopontin (Opn) (JHC-1994). In response to
orthodontic force, Opn mRNA is elevated within the tissue by 12hrs and can
be demonstrated at 48hrs by in situ hybridization in >50% of osteoclasts
and >87% of osteocytes in the interdental septum of maxillary molars
(JBMR-1999).
-Msx1 is a regulator of bone formation during development and postnatal
growth. It is involved in the control of neural crest cell migration but also
appears to be important for bone modeling activity.
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26. -Osteoclast differentiation and activation is controlled by a group of genes
related to tumour necrosis factor (TNF) and its receptor (TNFR). Genes
involved are osteoprotegerin (OPG), receptor activator of nuclear factor
(RANK), and RANK ligand (RANKL).
[Colony stimulating factor 1 (CSF1) and RANK induce differentiation of
haematopoietic precursor cells, which results in osteoclast precursors with
RANK receptors. Local bone related cells secrete RANKL, which binds with
RANK on the preosteoclast cell surface to induce the development of a
functional osteoclast. As a feedback control, the same regulatory cells
produce OPG, which blocks the RANK receptor and thus downregulates
osteoclasts.]
-In addition to the well established ‘RANK-RANKL-OPG axis’, another gene
(TREM-2) has been implicated in control of bone modeling.
-Another gene, the P2X7 receptor, has been reported to play an important
role for initiating and sustaining all types of anabolic bone modeling.
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27. BIOCHEMICAL REACTIONS TO
ORTHODONTIC TOOTHMOVEMENT
ORTHODONTIC FORCE
BIO-PHYSICAL REACTIONS
Bone deformation
Compression of PDL
Tissue Injury
PRODUCTION OF FIRST MESSENGERS
Inflammation
due to tissue
injury
Hormones (e.g.. PTH)
Prostaglandins
Neurotransmitters
PRODUCTION OF SECOND MESSENGERS
C amp, C gmp, Ca++
Increase in cells of Resorption (osteoclasts)
Increase in cells of Deposition (osteoblasts)
Bone Remodelling
ORTHODONTIC TOOTH MOVEMENT
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Activation of
Collagenase
28. ORTHODONTIC FORCES
Orthodontic forces comprises those that are brought to bear on the
PDL and alveolar process, whereas orthopaedic forces are more powerful
and act on the basal parts of the jaws. The decisive variables regarding
these forces at the cellular level are application, magnitude, duration, and
direction of force.
Types of Forces:
Two different types of force exist: Continuous (fixed appliances) and
Intermittent (removable appliances)
-Continuous Forces: Modern fixed appliance systems are based on light
continuous forces from the arch wire. However, a continuous force may be
interrupted after a limited period (interrupted continuous force). e.g. the
movement that occurs when a tooth is ligated to a labial arch, the tooth
being held in position after the force is no longer acting ; torquing
movement performed by an edgewise archwire. Although the typical
continuous force acts for longer periods, the interrupted force is of
comparatively short duration (3 to 4 weeks on average).
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29. [In clinical orthodontics an interrupted tooth movement may have certain
advantages. Because of the increase in the number of cells, osteiod tissue is
deposited in open marrow spaces on the pressure side and in other areas not
undergoing direct resorption. On the tension side a gradual calcification and
reorganization of newly formed tissue occurs during the rest period. Hence the
tissues are given ample time for reorganization and the cell proliferation is
favourable for further tissue changes when the appliance is again activated.]
Intermittent Forces: Such a force act during a short period and is induced
primarily by removable appliances, especially functional appliances. This also
applies to springs resting on the tooth surface that produces impulses and stimuli of
short duration as the appliance moves during speech and swallowing. The
intermittent action may then to a varying extent result in less compression on the
pressure side and shorter hyalinization periods, unlike elicited by continuous
forces. Experiments have shown that movement effected by an intermittent force
depends on the length of time of application and on the magnitude of force. The
disadvantage of intermittent tooth movement is the mode of displacement, which
always occurs in the form of tipping.
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30. MAGNITUDE AND DURATION OF FORCES
It is generally considered that a light force over a certain distance
moves a tooth more rapidly and with less injury to the supporting tissues
than a heavy one. A light or heavy force depends on the mode of
application and the mechanical arrangement of the recipient tooth units.
Experimental studies have shown that heavy, continuous loads results in a
vertical reduction of the height of the approximal alveolar bone.
The purpose of applying a light force is to increase cellular activity
without causing undue tissue compression and to prepare the tissues for
further changes. Generally, the magnitude of force determines the
duration of hyalinization. This is shorter within the light force level.
Another reason is that it results in less discomfort and pain to the patient.
The duration of force, equivalent to treatment time, is often
considered to be a more crucial factor than the magnitude of the force with
regard to adverse tissue reactions, especially in connection with long
treatment periods and in cases with high density of alveolar bone.
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31. Physiological response to a
sustained pressure against a Tooth
Time course of events after application
of orthodontic force:
Heavy vs. Light Force.
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32. TYPES OF TOOTH MOVEMENT and TISSUE REACTIONS
(in supporting tissues)
Initially only minor tooth movements occurs within the periodontal space.
The larger long-term tooth movements are the result of such minor movements,
depending on the pattern of socket remodelling.
>>Tipping
This simplest form of orthodontic tooth movement is produced when a
single force is applied against the crown of a tooth. When this is done, the tooth
rotates around its Centre of Resistance, a point located about halfway down the root.
>With light continuous forces, tipping results in a greater movement within a
shorter time than that obtained by any other method.
>Prolonged tipping may result in apical root resorption even if the force is light.
>The PDL is compressed near the root apex on one side and at the crest of the
alveolar bone on the opposite side. Thus maximum pressure in the PDL is created at
the alveolar crest and at the root apex.
>It results in the formation of a hyalinized zone slightly below the alveolar crest
(when the tooth has a short undeveloped root) or at a short distance from the
alveolar crest (when the root is fully developed).
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33. >In young patients, bone resorption resulting from a moderate tipping
movement is usually followed by compensatory bone formation. The
degree of such compensation depends primarily on the presence of boneforming osteoblasts in the periosteum.
>Tipping of adult teeth in a labial direction may result in bone destruction
of the alveolar crest, with little compensatory bone formation.
A = Secondary Hyalinized Zone
B = Compressed PDL
X = Fulcrum
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34. >>Torque
>During the initial movement of torque, the pressure area is located close
to the middle region of the root. This occurs because the PDL is normally
wider in the apical third than in the middle third.
>After resorption of bone areas corresponding to the middle third, the
apical surface of the root gradually begins to compress adjacent periodontal
fibres and a wider pressure area is established.
>Experimental studies by Reitan and Kvam(1971-AO) have shown that
50gms of force was sufficient to cause root movement without any
undermining resorption.
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35. >>Bodily Movement
Bodily tooth movement is obtained by establishing a couple of forces
acting along parallel lines and distributing the force over the whole alveolar
bone surface. This is a favourable method of displacement provided the
magnitude of force does not exceed a certain limit.
>It is characteristic of the initial bodily movement that the hyalinization
periods are shorter than in tipping movements.
>Hyalinization occurs largely as a result of mechanical factors. Shortly after
the movement is initiated there is compression on the pressure side with
formation of a hyalinized zone between the marginal and middle regions of the
root.
>The short duration of hyalinization results from an increased bone resorption
on both sides of the hyalinized tissue, especially in the apical region of the
pressure side.
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36. >The PDL on the pressure side is considerably widened by the resorption
process.
>There is gradually increased stretching of the fiber bundles on the tension
side, which tends to prevent the tooth from further tipping. New bone
layers are formed on the tension side along these fiber bundles.
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37. >>Rotation
Pure Rotation of a tooth requires a couple. No net force acts at the
CRes, so only rotation occurs. Clinically this movement is most commonly
needed for movement as viewed from the occlusal perspective.
>In rotation of a tooth around its long axis the force can be distributed over the
entire PDL rather than over a narrow vertical strip, whereas larger forces can
be applied than in other tooth movements.
>Histologically, the tissue transformation that occurs during the rotation is
largely influenced by the anatomic arrangement of the supporting structures.
>After rotation of the tooth, the stretch of the free gingival tissue may cause
displacement of collagen, elastic, and oxytalan fibres located even some distance
from the tooth being moved.
>Most teeth to be rotated create two pressure sides and two tension sides.
>Occasionally, hyalinization and undermining bone resorption takes place in
one pressure zone while direct bone resorption occurs in the other.
>After rotation for 3 to 4 weeks, the undermining resorption is usually
completed and direct bone resorption prevails on the pressure side.
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38. >On the tension side of the middle third, new bone spicules are formed
along stretched fibre bundles arranged more or less obliquely.
>Furthermore, the periodontal space is considerably widened by bone
resorption after rotation.
>The fiber bundles and the new bone layers of the middle and apical
thirds rearrange themselves after a fairly short retention period ( Reitan
K. AO-1959). However, the free gingival fibres remain stretched and
displaced for as long as 232 days and possibly longer. [Therefore
overrotation has been recommended.]
Arrangement of
gingival fibers and
new bone layers
formed on the
tension side, after
rotation.
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39. >>Extrusion (Bodily displacement of a tooth along its long axis in an
apical direction)
>Extrusive movements ideally does not produce any areas of compression
within the PDL, but only tension.
>Varying with the individual tissue reaction, the periodontal fibre bundles
elongate and new bone is deposited in areas of alveolar crest as a result of the
tension exerted by these stretched fibre bundles.
>In young individuals, extrusion of a tooth involves a more prolonged stretch
and displacement of the supraalveolar fibre bundles than of the principal fibres
of the middle and apical thirds. They will be rearranged after a fairly short
retention period.
>In adult patients the fibre bundles also are stretched during extrusion, but
they are less readily elongated and rearranged after treatment.
>The force exerted must not exceed 25 to 30cN because extrusion constitutes
the type of tooth movement that requires minimal force.
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40. >>Intrusion (Bodily displacement of a tooth along its long axis in an
occlusal direction)
>Light force is required because the force is concentrated in a small area at the
tooth apex. Primarily the anterior teeth are intruded.
>Stretch is exerted primarily on the principal fibres.
>An intruding movement may therefore cause formation of new bone spicules
in the marginal region. These new bone layers occasionally become slightly
curved as a result of the tension exerted by stretched fibre bundles.
>Rearrangement of the principal fibres occurs after a retention period of 2 to 3
months.
>Unlike extruded teeth, intruded teeth in young patients undergo only minor
positional changes after treatment.
>Relapse usually does not occur, partly because the free gingival fibre bundles
become slightly relaxed.
>In adults, however, relapse after intrusion may occur, particularly when the
retention period has been too short.
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41. Arrangement of fiber bundles during or after extrusion of U1.
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Relaxation of Free Gingival
fibers during intrusion.
42. TOOTH MOVEMENT by EXTRA-ORAL FORCES
Generally extra-oral forces can be divided into two categories.
>In the first group strong extra-oral forces can be applied for early control of
facial bone growth – Orthopaedic Forces. Not only tooth position but also
the direction of bone growth is influenced during treatment.
>The second type of extra-oral treatment consists of movement of individual
teeth. Hence it is impractical to apply forces that are too strong. A change
in the direction of force applied may alter and modify the reaction of the
tissues involved. The mechanics involved in an extra-oral force treatment
were duplicated in animal experiments (Rietan K. AO-1964). Since the
interseptal bone in the dog is predominantly spongy and therefore similar to
interseptal areas of human alveolar structures, it is suggested that these
experiments might illustrate fairly well what happens in tooth movement
performed with extra-oral forces.
………………
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43. [Strong forces of about 400gms were applied with elastics placed between
hooks on the upper canine and second incisor bands in the dog.
Direct bone resorption was observed on the distal side of the third incisor
whereas semihyalinization occurred on the pressure side of the tooth
moved. Semihyalinization implies that osteoclasts are formed subjacent to
the hyalinized fibres. The reason behind this would be that interseptal
bone contains a system of marrow spaces whereby osteoclasts are formed
in many areas. The additional thickness of the band material and the fact
that the tooth was moved remained in firm contact with the proximal
tooth also tend to prevent complete hyalinization. A variation is also
caused by the tissue characteristics of various experimental animals. Joho
in his studies of the monkey (AJO-1973) observed that extra-oral forces
acting continuously may cause appreciable root resorption between the
middle and apical thirds of the root, but no definite shortening of the
apical portion is evident. This lack of apical shortening is usually observed
in most cases of extra-oral tooth movement.]
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44. FACTORS INFLUENCING TOOTH MOVEMENT
ANALGESICS
>Acetominophen is the preferred ‘over-the-counter’ medication for
orthodontic patients because it acts on the CNS and does not
interfere with localized inflammatory processes. However,
numerous studies have demonstrated that >NSAIDs are superior to
acetominophen and aspirin for relief of orthodontic pain. NSAIDs
are effective orthodontic analgesics, but they may reduce the rate of
tooth movement, and they should not be administered for long
periods of time to orthodontic patients. Strain-induced catabolic
modelling(bone resorption) at bone/PDL interface limits the rate of
tooth movement. However, short-term treatment (≤3days),
particularly if the initial dose is administered before applying force,
is a very effective orthodontic analgesic, and it is unlikely to
significantly increase treatment.
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45. INFLAMMATORY AGENTS
Focus also has been on the effects of Prostaglandins, IL-1β, and
Leukotrines relative to orthodontic tooth movement.
>Inflammatory Cytokines have been administered to enhance
orthodontically induced bone modelling. Similar effects have been
demonstrated with >Prostaglandin E2 (PGE2) administration to primates,
and the results have been confirmed clinically ( AJO-1984). Most
prostaglandin studies have demonstrated an increased risk of root
resorption that is proportional to the increase in the rate of tooth
movement.
>Misoprostol, a prostaglandin E1 analog, has been used to enhance
orthodontic tooth movement in rats (AJODO-2002). At a dose of 10μg/day
for 14 days, oral misoprostol increased the amount of orthodontic tooth
movement in all the experimental groups compared with the appliance
control group. These results indicate that oral Misoprostol can be used to
enhance the rate of tooth movement with less risk of increased root
resorption than PGE2.
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46. >Prostaglandin E2, with or without simultaneous administration of
Calcium Gluconate (Ca), was tested over a 21-day period of experimental
tooth movement in rats (EJO-2003). An acceleration in tooth movement
was noted after PGE2 injection. The addition of Ca moderated the
increase in the rate of tooth movement due to PGE2, but most
importantly, the increase in root resorption, observed in the PGE2 only
group, was negated by simultaneously administering Ca. It was
concluded that Ca ions stabilize teeth against root resorption when the
rate of tooth movement is enhanced by PGE2.
>Recent studies observed that with both light continuous force and
interrupted force for a duration of 24hrs, there was a significant elevation
in both IL-1β and PGE2 levels (AJODO-Feb.2004)
>The effects of local administrations of PGE2 and
1,25-dihydroxycholecalciferol (1,25-DHCC) on orthodontic tooth
movement was compared in a recent study (AJODO-May2004), and 1,25DHCC was found to be more effective in modulating bone turnover during
orthodontic tooth movement.
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47. SURGICAL ENHANCEMENT
Orthodontists have long noted increased rates of tooth movement following
orthognathic surgical procedures; this effect is usually attributed to a post
operative acceleration of bone remodelling. >Maxillary Corticotomy is
now a routine procedure for surgically assisted rapid palatal expansion.
However, Alveolar Corticotomy to enhance the rate of toot movement has
developed more slowly, largely because of concern about periodontal
outcomes.
>Wilcko et al (IJPRD-2001) introduced a new surgical procedure that
involves buccal and lingual full-thickness flaps, selective partial
decortication of the alveolar cortex, concomitant bone
grafting/augmentation, and primary flap closure. Two cases of Class I
malocclusion with relatively narrow arches were reported. In both instead
of en bloc movement of bony segments, the rapid expansion of arches to
correct crowding was attributed to the postoperative Regional Acceleratory
Phenomenon (RAP), originally described by Frost.
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48. >In periodontally compromised patients, surgical
augmentation , immediately before intrusion and alignment of
incisors compromised by periodontitis, resulted in increased
osseous support.
>Recent studies have concluded that a surgical augmentation
immediately before orthodontics may offer advantages for arch
expansion in a healthy dentition, for alveolar cleft
management, or to increase osseous support for periodontially
compromised teeth (Dent.Update1999).
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49. DISTRACTION OSTEOGENESIS
>Distraction Osteogenesis is a method for generating new bone by
progressively distracting healing surfaces, following the complete
osteotomy of a bone. Essentially it is a bone modelling procedure that
produces perivascular woven bone, which then condenses and remodels to
mature lamellar bone.
The method is currently being developed for orthodontic applications such
as cuspid retraction,
molar intrusion,
segmental translation,
recovery of ankylosed teeth, and
interdental expansion.
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50. NITRIC OXIDE
Localized Nitric Oxide (NO) production is a known mediator of
osteoclastic induction in an inflammatory environment, that is, in the
presence of cytokines such as IL-1β, IL-6, and TNFα. Cuzzocrea et al,
provided evidence that inducible nitric oxide synthetase (iNOS), a
receptor that controls NO production, also mediates bone loss systemically
in estrogen-deficient mice (Endocrinology 2003). Estrogen exhibits antiinflammatory activity by preventing the induction of iNOS and other
inflammatory components. Recent studies have suggested that NO is an
important biochemical mediator in the response of periodontal tissue to
orthodontic force (AJODO-2002).
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51. SYSTEMIC DISEASES
>Rheumatoid Arthritis- It is a relatively common disease in prospective
orthodontic patients. The relatively high doses of corticosteroids used to
treat these patients can inhibit bone growth and the rate of tooth
movement.
>Cystic Fibrosis(CF)- It is often associated with low bone mineral density.
Therefore bone formation rate at tissue level is significantly lower.
>Osteomalacia-(excessive unmineralized osteoid) is a complicating factor
when there is concomitant VitD deficiency. In the absence of
Osteomalacaia, CF patients are viable candidates for orthodontic
treatment.
>Primary Hyperparathyroidism (PHP)-is a high turnover metabolic bone
disease. Surgical treatment of severe cases results in dramatic
improvement in bone metabolic parameters.
Other systemic diseases include:- Parathyroid Carcinoma,
Hyperparathyroidism Jaw tumour Syndrome (HPT-JT syndrome) ,
Kidney disorders, Diabetes, Osteopenia and Osteoporosis, Osteogenesis
Imperfecta etc.
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52. IATROGENIC RESPONSE OF SUPPORTING
TISSUES IN ORTHODONTICS
Various Clinical, Radiological and Histological investigations have been
conducted from time to time to assess the damage to root substance and
supporting tissues.
Damage to Periodontal Tissues
>Gingival Inflammation: The initial and most important factor causing
gingival inflammation is bacterial plaque at the gingival margin. Patients
with fixed appliances have increased retention sites for microbial samples
and therefore significantly higher total numbers of Strep. Mutans and
Lactobacilli.
A greater plaque index; tendency for bleeding; increased pocket depth and
greater interproximal loss of attachment have been observed more
frequently for molars with orthodontic bands.
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53. >Alveolar Bone Loss: Compressed gingiva in the extraction sites
(between teeth that have moved together) can produce a long-lasting
epithelial fold, or invagination. The surrounding connective tissue exhibits
loss of collagen. The mechanical forces employed can cause sublethal
damage and stimulate a hyperplastic tendency in the tissue components.
It has been shown that orthodontic treatment may in fact aggravate a preexisting plaque induced gingival lesion and cause loss of alveolar bone and
periodontal attachment.
Experimental studies in the beagle also have shown that it is possible for
orthodontic tipping forces to shift a supragingivally located plaque into a
subgingival position, resulting in the formation of infrabony pockets. ( JCP
1977)
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54. >Marginal Bone Recession: It is the displacement of the soft tissue
margin, apical to the CEJ, with subsequent exposure of the root surface.
This is associated with localized plaque induced inflammatory lesions and
sometimes in combination with orthodontic therapy.
Alterations occurring the gingival dimensions and marginal tissue position
in conjunction with orthodontic therapy are related to the direction of
tooth movement. Labial and Buccal movements results in reduced facial
gingival dimensions, whereas an increase is observed after lingual
movement.
[The presence of an alveolar bone dehiscence is considered to be a
prerequisite for the development of marginal recession. With respect to
orthodontic treatment, this implies that as long as tooth is moved
exclusively within the envelope of the alveolar process, the risk of harmful
side effects in the marginal tissue is minimal, irrespective of the
dimensions and quality of the soft tissue (JCP 1981,87).]
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55. >Pulpal reaction: Although Pulpal reactions to orthodontic treatment are
minimal there is a modest transient inflammatory response within the
pulp, at least at the beginning of the treatment. This may contribute to the
discomfort that patients often experience for a few days after appliances are
activated, but the mild pulpitis has no long term significance.
As demonstrated by Stenvik and Mjör (AJO-1970), vacuolization of the
odontoblast layer constitutes the most characteristic tissue alteration.
Devitalization may occur when the pulp structures have become degraded
due to the teeth being subjected to trauma or severe pressure before
treatment period.
Since the response of the PDL, not the Pulp, is the key element in
orthodontic tooth movement, moving endodontically treated teeth is
feasible.
Some evidence has indicated that endodontically treated teeth are more
prone to root resorption during orthodontics than are teeth with normal
vitality. But recent studies suggest that this is not so ( Spurrier et al. AJO1990).
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56. >Root resorption: The first comprehensive study on root resorption
after orthodontic treatment was conducted by Ketcham (IJO-1929). Since
then extensive research has elucidated the mechanism of external root
resorption.
Two types of root resorption may occur in connection with orthodontic
treatment:
Superficial Resorption, that undergo repair and resorption in the apical area,
which may lead to permanent root shortening.
As with osteoid, cementoid tends to decrease in thickness on the side of
compression. If the pressure is continuous for a long period, root resorption
may start even if the root was initially protected by uncalcified tissue. Root
resorption that occurs during orthodontic treatment is frequently preceded by
hyalinization of the PDL. During the remodelling process of the hyalinized zone
the necrotic hyalinized tissue and alveolar bone wall are removed by phagocytic
cells such as macrophages, foreign body giant cells, and osteoclasts. As a side
effect of the cellular activity during the removal of the necrotic PDL tissue, the
cementoid layer of the root and the bone are left with raw unprotected surfaces
in certain areas that can readily be attacked by resorptive cells. Root resorption
then occurs around this cell free tissue, starting at the border of the hyalinized
zone.
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57. Apical Resorption: Experiments have revealed tat anatomic environment
constitutes an important factor during tipping movement and intrusion. If the
root surface is well calcified and the predentin layer is thin, tipping movement
may lead to resorption of the outer side of the apical portion as well as along the
inside of the root canal. The apical side resorption is preceded by a short
hyalinization period. The anatomic environment and duration and direction of
movement constitute the determining factors in apical root resorption.
Factors affecting Root Resorption:
Individual tooth vulnerability, Endodontically treated teeth, Age, Orthodontic
appliances, Magnitude of Force, Duration of Force and
Direction of Tooth Movement: Intrusion and Torque are probably the most
detrimental to the tooth involved. Experiments in monkeys and dogs have
shown that alveolar bone dehiscences maybe induced by uncontrolled labial
movement of incisors through the cortical bone plate ( EJO- 1983). Tooth
movements in such a direction also initiate root resorption. Using rapid
palatal expansion techniques, premolars and molars are pressed in a buccal
direction against the thin cortical plate with risk of similar damage.
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58. POSTTREATMENT STABILITY
Not all orthodontically achieved changes remain stable, although
the question of relapse is related to the objective of treatment. Retention is
designed to maintain the occlusion during remodelling of the periodontal
tissues and further aging of the occlusion, i.e. the transitional changes in
growth, dentoalveolar development and muscular adaptation. Retention is
thus a continuation of orthodontic treatment.
If orthodontic tooth movement has not been followed by re-modelling of
the supporting tissues, the tooth tends to return to its former position.
Correct positioning of the entire tooth and good intercuspation are the main
contributors to eventual stability.
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59. An orthodontic movement that is opposed to the direction of functional tooth
migration is more liable to relapse than one in which the directions correspond.
Several factors are essential for the reestablishment of an adequate supporting
apparatus during and after tooth movements, and conversely for an eventual lack of
stability after treatment.
>The main remodelling of the PDL takes place near the alveolar bone. Unlike the
PDL, the supraalveolar fibres are not anchored in a bone wall that is readily
remodelled and therefore they have less chance of being reconstructed. Further
more the remodelling of the gingival connective tissue is not as rapid as that of the
PDL.
>The transseptal fibre system stabilizes teeth against separating forces and may
actually maintain the contacts of adjacent teeth in a state of compression. This
interproximal force is increased with occlusal loading and may help to explain
physiological migration and long term incisor crowding.
>Certain fibre groups offer particular resistance to alterations in tooth position.
Besides transseptal and dentoperiosteal fibres of the gingiva, the fibrils connecting
heavy maxillary frenulum attachments to the alveolar process need a very long
period of remodelling.
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60. >Experimental studies have found that the stretched fibre bundles on the tension
side tend to become functionally arranged according to the physiological movement
of the tooth (AO-1964). During retention, new bone fills in the space between the
bone spicules. This rearrangement and calcification of the new bone spicules result
in a fairly dense bone tissue, which for a certain period prevents relapse of the tooth
moved. Therefore, to avoid relapse, a tooth should be retained until total
rearrangement of the structures involved has occurred.
>The most persistent relapse tendency is caused by the structures related to the
marginal third of the root, whereas relatively little relapse tendency exists in the
area adjacent to the middle and apical thirds.
>Periodontal structures undergo significant remodelling and rearrangement in
cases where space closure of extraction sites has been achieved orthodontically.
These extraction sites will retain a tendency to reopen. The compressed gingival
tissue in the extraction sites may produce a long lasting epithelial fold or
invagination. The increased amount of glycosaminoglycans may be responsible for
possible relapse after orthodontic treatment, i.e. reopening of the extraction sites.
>Relapse tendency varies with the individual reaction pattern, a fact that calls for
immediate insertion of a retention device. The duration of the retention period
should vary according to the treatment that has been performed, from 1year to
permanent retention.
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61. CONCLUSION
Tooth movement is a highly conserved physiological mechanism
for continuous adaptation of the dentition. Orthodontic tooth
movement is a biomechanical exploitation of the physiologic
mechanisms for developing and maintaining optimal occlusal
function. The tooth continues to move until it achieves
equilibrium with natural and applied loads.
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