46

Normal Radiographic Anatomy

Embed Size (px)

DESCRIPTION

 

Citation preview

Page 1: Normal Radiographic Anatomy
Page 2: Normal Radiographic Anatomy

Tooth anatomy

Supporting structures

Anatomical landmarks

Page 3: Normal Radiographic Anatomy

Teeth are composed primarily of dentin, with an enamel cap over the coronal portion and a thin layer of cementum over the root surface.

Radiographic Appearance of Enamel

ENAMEL appears more radio-opaque than other tissues.

It is 90% mineral causes greator attenuation of X-ray photons.

Page 4: Normal Radiographic Anatomy

75% mineral content less radiopaque than enamel. Radiopacity similar to bone.

ENAMELODENTINAL JUNCTION appears as a distinct interface separating these two structures.

Page 5: Normal Radiographic Anatomy

50%mineral content and it appears as a very thin layer on the root surface.

It is usually not so apparent radiographically.

CERVICAL BURNOUT Radiographs sometimes show diffuse radiolucent

areas with ill defined borders present on the mesial or distal aspects of the teeth in the cervical region.

These regions appear between the edge of the enamel cap and the crest of the alveolar ridge.

Page 6: Normal Radiographic Anatomy

Normal configuration of the affected teeth, results in decreased X-ray absorption in the areas in question.

Perception of these areas is due to contrast with the adjacent ,relatively radiopaque enamel and alveolar –bone.

It should not be confused with root caries which has similar appearance.

Page 7: Normal Radiographic Anatomy

It is composed of soft tissues so it appears radiolucent.

Pulp chambers and root canals extend from the interiors of the chamber till the root apices.

It is seen radiographically also as apical foramen.

In some cases, it may exit on the side of the canal.

Lateral canals may end at the apex as a discernible foramen or may exit at the side of the root.

Page 8: Normal Radiographic Anatomy

ENAMEL

PULP

DENTIN

Page 9: Normal Radiographic Anatomy

The pulp canals of a developing tooth root diverge and walls of the root taper to a knife edge.

A radiolucent area is seen surrounding it in the trabecular bone. It is surrounded by the hyperostotic bone.

IT IS THE DENTAL PAPILLA WITH ITS BONY CRYPT.

Its radiographic evaluation helps in determining the stage of maturation of the developing tooth.

Page 10: Normal Radiographic Anatomy

Periodontal ligament space

Lamina dura

Alveolar crest

Trabecular bone

Page 11: Normal Radiographic Anatomy

It is composed of collagen so appears as a radiolucent space between the root and lamina dura.

It is thinner in the middle of the root and slightly wider near the alveolar crest and the apex ,suggesting that the fulcrum of the physiologic movements is in the region where PDL is thinnest.

Page 12: Normal Radiographic Anatomy

It is a thin radiopaque layer of dense bone surrounding the tooth socket.

Its radiographic appearance is due to attenuation of the X-ray beam as it passes tangentially through the thickness of the bone.

It is thicker than the surrounding trabecular bone and thickness increases with increase in amount of occlusal stress.

Page 13: Normal Radiographic Anatomy

It is the radiopaque gingival margin of the alveolar process which surrounds the teeth.

It is considered normal if it is 1.5mm or less from the CEJ.

It shows apical recession with the age or periodontal disease.

Page 14: Normal Radiographic Anatomy

Also called as the trabecular bone or the spongiosa.

Lies between the cortical plates in both the jaws.

It is composed of thin radiopaque plates and rods surrounding many small radiolucent pockets of marrow.

In posterior maxilla, it is similar to anterior maxilla but marrow spaces are larger.

Page 15: Normal Radiographic Anatomy

ANATOMIC LANDMARKS OF MAXILLA

Intermaxillary suture Anterior nasal spine Nasal fossa and Nasal septum Incisive foramen Superior foramina of nasopalatine canal Lateral fossa Nose Nasolacrimal canal Maxillary sinus Zygoma & zygomatic process of maxilla Nasolabial fold Pterygoid plates

Page 16: Normal Radiographic Anatomy

Also called as median suture.

In IOPA, it appears as a thin radiolucent line in the midline between the two portions of premaxilla.

It extends from the alveolar crest between the central incisors superiorly through the anterior nasal spine and continues posteriorly between the maxillary palatine process to the posterior aspect of the hard palate.

Page 17: Normal Radiographic Anatomy

Mostly seen on IOPA of maxillary central incisors. Located in midline1.5-2cm above the alveolar crest. It is radiopaque and usually V-shaped.

Page 18: Normal Radiographic Anatomy

The nasal cavity shows the hazy shadow of the inferior nasal conchae extending from the right and left lateral walls

Floor of Nasal Fossa

Nasal Septum

Page 19: Normal Radiographic Anatomy

Also called as NASOPALATINE or ANTERIOR PALATINE FORAMEN.

It is the oral terminatus of the nasopalatine canal. It transmits the nasopalatine vessels and nerves. Lies in the midline of palate behind the central

incisors at the junction of the median palatine and incisive sutures.

Radiographic image variability is due to: 1.Different angles of the X-ray beam.2.Variability in its anatomic size.

IT IS FREQUENTLY THE POTENTIAL SITE OF CYST FORMATION.

Page 20: Normal Radiographic Anatomy

The nasopalatine canal originates at two foramina in floor of the nasal cavity.

Radiographically, it can be recognized as two radiolucent areas above the apices of the central incisors in floor of the nasal cavity near its anterior border and both the sides of the septum.

Lateral wall of nasopalatine canalSuperior

foramina

Page 21: Normal Radiographic Anatomy

Also called as INCISIVE FOSSA. Appears as depression in the maxilla near the

apex of the lateral incisor . Appears diffusely radiolucent in the IOPA.

Page 22: Normal Radiographic Anatomy

The nasal and maxillary bones form the nasolacrimal canal.

It runs from the medial aspect of the antero inferior border of the orbit inferiorly, to drain under the inferior conchae into the nasal cavity.

Page 23: Normal Radiographic Anatomy

The soft tissue of the nose is frequently seen in the projections of the maxillary central and lateral incisors ,superimposed over the roots of these teeth.

Image appears uniformly opaque with a sharp border.

Page 24: Normal Radiographic Anatomy

An oblique line demarcating a region that

appears to be covered by a slight radio opacity

frequently traverses periapical radiographs of

the premolar region.

Page 25: Normal Radiographic Anatomy

MAXILLARY SINUS is an air containing cavity lined by mucous membrane.

Appears as the three sided pyramid .Base -formed by mesial wall adjacent to

nasal cavity.Apex –extending laterally into the

zygomatic process of maxilla.

Page 26: Normal Radiographic Anatomy

On the IOPA, maxillary sinus appears as a thin ,delicate radiopaque line.

It extends from the distal aspect of the canine to the posterior wall of the maxilla above the tuberosity.

Around the age of puberty, its floor coincides with the floor of the nasal cavity.

Page 27: Normal Radiographic Anatomy

In response to the loss of function (associated with loss of posterior teeth) the sinus may expand further into the alveolar bone , occasionally extending to the alveolar ridge.

Thin radiolucent lines of the uniform width are found within the image of the maxillary sinus.

These are shadows of the neuro -vascular canals that accommodate the posterior superior vessels and nerves.

Page 28: Normal Radiographic Anatomy

The zygomatic process of the maxilla is an extension of the lateral maxillary surface that arises in the region of the apices of the first and the second molars and serves as the articulation for the zygomatic bone.

Appears as a U-shaped radiopaque line with rounded ends projected in the apical region of the first and second molars.

Page 29: Normal Radiographic Anatomy

The medial and lateral pterygoid plates lie immediately posterior to the tuberosity of maxilla.

They cast a single radiopaque shadow without any

evidence of trabeculation.

Extending inferiorly from the medial pterygoid plate, the hamular process may be seen.

Page 30: Normal Radiographic Anatomy

Symphysis Genial tubercles Lingual foramen Mental ridge Mental fossa Mental foramen Mandibular canal Nutrient canals Mylohyoid ridge Submandibular gland fossa External oblique ridge Inferior border of mandible Coronoid process

Page 31: Normal Radiographic Anatomy

The region of mandibular symphysis in infants demonstrate a radiolucent line through the midline of the jaw between the images of the forming deciduous central incisors.

The suture usually fuses by the end of 1st year of life and is no longer radiographically apparent.

Page 32: Normal Radiographic Anatomy

These are tiny bumps of bone that serve as attachment for the genioglossus and geniohyoid muscles.

Present on lingual side.

On IOPA, appears as ring shaped radiopacity below the apices of mandibular incisors.

Page 33: Normal Radiographic Anatomy

It is a hole or tiny opening located on the internal surface of mandible and surrounded by the genial tubercles.

Radiographically, appears as a radiolucent dot inferior to the apices of the mandibular incisors.

Page 34: Normal Radiographic Anatomy

It is a linear prominence of cortical bone located on the external surface extending from the premolar region to the midline and slopes upward.

Radiographically, appears as a radiopaque band that extends from the premolar region to the incisor region.

Page 35: Normal Radiographic Anatomy

Located above the mental ridge.

On peri apical radiograph, appears as a radiolucent area above the mental ridge.

Page 36: Normal Radiographic Anatomy

Located on the external surface of the mandible as an opening in the region of the mandibular premolars.

Mental nerves and blood vessels exit through it.

Radiogarphically, it appears as a small ovoid radiolucent area located below the apices of the premolars.

Page 37: Normal Radiographic Anatomy

Tube like passage extending from the mandibular foramen to the mental foramen and contains inf.alv. Nerves and blood vessels.

Appears as a radiolucent band outlined by two radiopaque lines of cortical plate.

Page 38: Normal Radiographic Anatomy

Nutrient canals are tube like passage-ways through bone that contains nerves and blood vessels that supply the teeth.

Radiographically seen as vertical radiolucent lines.

More prominent in anterior mandible where bone is thin.

Page 39: Normal Radiographic Anatomy

Linear prominence of bone located on the internal surface of mandible.

Extends from the molar region downward and forward towards the lower border of mandibular symphysis.

On IOPA, appears as radiopaque band extending downward from molars.

Page 40: Normal Radiographic Anatomy

Linear prominence of bone located on external surface of mandible extending downwards and is a continuation of anterior border of ramus.

It appears as a radiopaque band extending downwards and forwards from ant. border of mandible & ends in 3rd molar region.

Page 41: Normal Radiographic Anatomy

Depressed area of bone located on the internal surface of mandible.

Submandibular salivary gland lies in this fossa.

It appears as a radiolucent area in the molar region below the mylohyoid ridge.

Page 42: Normal Radiographic Anatomy

Linear prominence of bone located on internal surface of mandible extending downwards and forwards from ramus.

It appears as a radiopaque band extending downwards from ramus.

Page 43: Normal Radiographic Anatomy

Occasionally, seen as a dense broad radiopaque band of bone.

Page 44: Normal Radiographic Anatomy

It is a marked prominence of bone on the ant. ramus of the mandible.

Not seen on a mandibular IOPA but appears on a maxillary molars IOPA.

It is seen as a triangular radiopacity superimposed over or inferior to maxillary tuberosity.

Page 45: Normal Radiographic Anatomy

Vary in their radiographic appearance. Depend primarily on their thickness, density and

atomic number. A variety of restorative materials may be

recognized on intra oral radiographs. 

Page 46: Normal Radiographic Anatomy

Thank You