A very precise and intimate description on radiographic considerations in dental implants, since the advent of the first radiographic modality in 1905, the dental health care professionals have been striving to achieve clarity & excellence in the development & usage of dental radiographic imaging modalities.
I hope this presentation will make this wonderful topic more understandable and easier to digest in the minds of young and experienced dental health care professionals.
by Dr Ishaan Adhaulia
3. Introduction
The term “implant” itself remains ambiguous.
According to the Academy of Osseointegration a
dental implant is defined as “an artificial material or
tissue that shows biocompatibility upon its surgical
implantation.” [this definition has been authorized
by American College of Prosthodontists & American
Academy Of Periodontology]
According to GPT 8 – Any object or material such
as an alloplastic or other tissue, which is partially or
completely inserted or grafted into the body for
therapeutic, diagnostic, prosthetic or experimental
purposes.
4. Introduction
Multiple factors influence the selection of radiographic
technique for a particular case including cost, availability,
radiation exposure, and case type.
The widespread use of dental implants in partially and
completely edentulous patients has brought about a need to
preoperatively depict and quantify the accurate bone height,
colour and location of vital anatomic structures by radiographic
examination
Diagnostic imaging must always be interpreted in conjunction
with a good clinical examination.
The decision is a balance between these factors and the
desire to minimize risk of complications to the patient.
5. Key parameters in implant planning with
radiographic aids
Bone Height (craniocaudal dimension)
Faciolingual/faciopalatal width
Mesiodistal dimension
Bone morphology
Presence & prominence of anatomic features:
Sublingual & Submandibular fossae // Incisive &
canine fossae
Neuarovascular canals & foramina, including:
Mandibular canal & the mental foramen // Incisive
canal & foramen // Mandibular lingual canals &
foramina // Greater Palatine canal & foramen
Cortical thickness & density
Extent and morphology of the alveolar recess of the
maxillary sinus base
6. Phases of imaging for dental implant surgery
Phase pre surgical implant imaging
Phase surgical and intra-operative implant imaging
Phase post-prosthetic imaging
7. Pre-Surgical Implant
Imaging
To assess the overall status of the remaining dentition
To identify & characterize the location and nature of the
edentulous regions, particularly to determine the quality,
quantity and angulations of bone
The pre-surgical radiographic evaluation should provide
information about the height and width of the bone, the
degree of corticalization, the density of mineralization
and the amount of cancellous bone in the areas
considered
To determine the relationship of critical structures to the
prospective implant site and to detect regional anatomic
abnormalities and pathologies.
8. Surgical and Intra-operative Implant
Imaging.
Evaluates the sites during and immediately
after the surgery
Assist in the optimal position and
orientation of dental implants
To evaluate the healing and integration
phase of implant surgery
Ensures the abutment position and
prosthesis fabrication are correct
9. Post-prosthetic implant imaging
It commences just after the prosthesis
placement and continues as long as the
implants remain in the jaws.
OBJECTIVES
Evaluate the long term maintenance of
implant rigid fixation and function
Evaluate crestal bone levels around each
implant
Evaluate the implant overall
10. Why do we need pre-prosthetic imaging
?
Identify normal v/s abnormal
Identify anatomic variants
Determine bone quality
Determine bone quantity
Identify ideal implant positioning
Use for surgical templates
11. Various Imaging Modalities
Analogue Intra-Oral Radiography
- Intra Oral Peri-Apical Radiography
Digital Intra-Oral Radiography
- RVG Sensor
Panoramic Imaging Modalities
Three Dimensional Imaging Modalities
The decision to image the patient is based on the
patient’s clinical needs and its availability while keeping
in mind that the dentists should follow the ALARA
principle which states that the diagnostic imaging
technique selected should include the lowest possible
radiation dose to the patient.
12. Intra-Oral Periapical
Radiography Indications
• Evaluation of small edentulous spaces
eg: in cases where there is single tooth
replacement
• Alignment and orientation of implants
during surgery
• Recall/Maintenance evaluations
Advantages
• Amount of bone loss & peri-implantitis
can be visualized
• Subtle variations in bone activity is
clearly seen
• Minimal magnification with high
resolution
• They are easy to obtain in the dental
clinics
13. Disadvantages
Two dimensional radiographic modality : vital information on
the width of the available bone is not obtained.
They are susceptible to unpredictable magnification of
anatomic structures, which does not allow reliable imaging
Distortion is particularly accentuated in edentulous areas,
where missing teeth and Resorption of the Alveolus
necessitates film placement at significant angulations
Poor identification of vital structures : studies have shown, in
the evaluation of the true location of the mental foramen,
less than 50% of IOPA’s depict the correct location of the
mental foramen. Other studies have shown because of
insufficient cortical bone around the Mandibular canal (MC),
only 28% of IOPA’s will identify the MC.
14. How to avoid these inherent
disadvantages.
Distortion : the central ray should perpendicular to the
bone, object & film to avoid much distortion.
Fore-shortening : the central ray should not be
perpendicular to the film but to the implant
Elongation : the central ray should not be perpendicular
to the object, but to the film.
15. Digital radiography
It is the form of radiography wherein the
conventional film is replaced by a radio-
visiography sensor that collects the data.
The resultant image can be modified in terms
interpreted by specialized software and an image
is formulated by a computer monitor
Digital radiography has two forms – “Direct” &
“Indirect”
The resultant image can be modified in terms of
gray scale, brightness, contrast, inversion and
color enhancement
Computerized software programs like
Dexisimplant are available that allows for
calibration of magnified images, ensuring
accurate measurements.
16. Indications
Excellent for implant follow up
Intraoral radiography of limited area
Bone Density evaluation (CADIA
software)
Useful in endodontic treatment
17. Advantages
Digital radiography has got less radiation
It provides the operator with a superior
resolution of imaging with slightly better
perception of low contrast details.
Instantaneous speed of image formation is
highly useful during surgical placement of
implants and the prosthetic verification of
component placement.
18. Disadvantages
Size and thickness of the film
Misuse of image manipulation
Manipulation and developing time is
sometimes long
Position of the connecting cord
sometimes makes the film placement
difficult in some sites, such as those
adjacent to Tori or in case of a
tapered arch form in the region of
canines.
19. Panoramic Radiography (OPG)
Panoramic radiography is a curved plane
tomographic radiographic technique used to
depict the body of the mandible, maxilla and the
maxillary sinuses in a single image.
In contrast to intra-oral radiography, the position
of the radiation source and the film are not static
but they rotate around the patient's head. Thus,
overlap of anatomic structures is partly avoided
The image receptor is either the radiographic
film, a digital storage phosphor plate or a digital
charge-coupled device receptor
20. Indications
Indicated when multiple implant
placements are planned
Initial assessment of vertical
height of bone
Evaluation of gross anatomy of
the teeth, the periodontium,
TMJ, Maxillary Sinuses, Jaws
and any related pathologic
findings
21. Advantages
It visualizes the location of critical anatomic
structures with a broader coverage than intra-oral
radiographs
They display anatomic structures clearly such as
the nasal cavity, maxillary sinus, inferior alveolar
canal and mental foramen.
Radiation risk ranges from a dose of 2.7 to 38 µSv
Convenience, ease and speed in performance
inside the clinic
22. Disadvantages
The resolution is lesser when compared to
intra-oral radiographs
Two dimensional radiographic modality.
Does not depict buccal-lingual dimension of
maxillofacial structures.
A 10-20% image magnification occurs, which
is non uniform, this magnification is
undesirable for both implant selection and
implant site assessments.
Geometric distortion and overlapping of
images of teeth can occur
Overlapping of anterior region by vertebral
column
23. Cone Beam Computed
Tomography
CBCT is a technology used to take three
dimensional (3-D) images of teeth,
maxillary sinus, nerve pathways and bone
in the maxillofacial region with a single
scan
The CBCT system rotates around the
patient in approximately 5~60 seconds,
with an exposure time of < 5 seconds,
capturing data using cone-shaped x-ray
beam.
Because of higher radiation, higher cost,
huge footprint and difficulty in accessibility
associated with Computed Tomography
(CT), CBCT was invented in 1967 by Sir
Godfrey N. Hounsefield.
24. Cone Beam Computed Tomography
CBCT images are a result of data collected by
numerous detectors and ionizing chambers in the
CBCT unit.
The data collected by the detectors correspond to
a composite of the absorption characteristics of the
tissues and structures imaged.
This information is transformed into images (raw
data) that are reformatted into a voxel (digital)
volume for evaluation and analysis.
Thus the smaller the voxel size, the greater the
resolution and quality of the image, however, the
greater the resultant radiation dose.
A voxel size of 0.2 to 0.3 mm is considered ideal
because it allows for an equitable trade-off
between image quality and absorbed radiation
dose
25. Medical CT v/s CBCT
Instead of a fan of X-rays in a conventional medical
CT, a CBCT uses a cone of X-ray beams
CBCT
Medical CT
26. Medical CT v/s CBCT – a better
understanding
In a medical CT slices are acquired then
reconstructed to create volume
In CBCT the volume is acquired then slices are
reconstructed from the volume
27. Indications for Implantology
To assess the quantity and quality of
bone in edentulous ridges and
implant cases
Implant site evaluation, accurate
measurements, accurate planning of
implant in relation to vital structures,
surgical guide for computerized
prosthesis.
Evaluation of roots of upper posterior
teeth in respect to the maxillary sinus
& sinus lift procedure.
28. Contraindications for CBCT
Patients with Claustrophobia
Parkinson’s Disease
Tremors
Disabling conditions that might cause to
patient to be un-cooperative
29. Advantages
Rapid Scanning Time
Beam limitation (cone shaped beam)
Image Accuracy
No superimposing of images
Almost 0% magnification
Minimal Distortion
Lower cost
More feasible compared to the CT
30. Disadvantages
Scatter (Streak Atrifacts)
Motion artifacts due to increased
scanning time
Poor contrast resolution, thus
soft tissue cannot be reviewed.
Medical CT CBCT
Quantum noise
31. Radiographic Indications for Implant
placement
Full Edentulism (Reduced stability and retention of dentures)
Partial Edentulism (periodontal inflammatory conditions to be
treated first)
Single Tooth Replacement (use of auto/allografts at the time of
tooth extraction or after either soft or hard tissue healing)
Extreme Jaw Bone Resorption in Mandible (6mm bone height and
5mm vestibulo-oral bone width is necessary for implant placement)
Extreme Jaw Bone Resorption in Maxilla (7mm bone height and
4mm vestibulo-oral bone width is necessary to support implants)
32. Radiographic contraindications for
Implant placement
Recent Myocardial Infarction (patients can go into cardiac
depression during or after t/t)
Systemic Diseases (e.g. Osteoporosis, renal osteodystrophy,
osteomalacia and Paget's disease)
Congenital Defects (e.g. Hypodontia, Oligodontia and
Anodontia)
Irradiation (osteoradionecrosis can occur)
Infection (caries and peri-apical infections to be treated first)
Cysts, tumors and fibro-osseous lesions of Jaw Bone
33. Refrences
Radiographic planning and assessment of
endosseous implants – R. Jacobs & D. van
Steenberghe
Mischs Contemporary Implant Dentistry
NCBI articles / Web