Abstract ID: IRIA -1251.  Knowledge of CVJ anomalies is important as it contains vital structures including cervicomedullary junction  To illustrate.

Slides:

Advertisements

Similar presentations

Atul Gupta Neuroradiology

Advertisements

The cervical spine. Normal anatomy, variants and pathology.

NUCCA X-Ray Analysis.

Anatomy of the Cervical Spine

Bones and Joints of the Neck

7 The Skeleton: Part B.

Skeletal System:Axial Skeleton

Dr Mohamed El Safwany, MD.

Chapter 11 Cranium Part 1. Cranial Bones Skull = __________ and ________ bones Cranium (8 bones) – Area that surrounds and protects the brain. –____________.

Vertebral Column/Thoracic Cage

Cervical Vertebrae Seven vertebrae (C1-C7) are the smallest, lightest vertebrae C3-C7 are distinguished with an oval body, short spinous processes, and.

Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings Skeletal System- Axial- Vertebrae.

Frontal bone Nasal bone Glabella Lacrimal bone Supraorbital notch

Bones Of The Axial Skeleton

Portland Community College

Axial Skeleton Martini Chapter 7

Case 1 What is the view ?. Case 2 1Right common carotid artery2Right internal carotid artery3Right external carotid artery4Superior thyroid artery5Lingual.

The Vertebral Column.

Lecture # 15: The Skeletal System-1

Radiographic Anatomy RAD 242

Common cervical fractures

Extraoral Radiographic Anatomy

Skull and Skeleton Make Up Quizzam

Axial Skeleton: Vertebral Column

Pediatric CCJ Companion Nadja Kadom, Gilbert Vezina, Raymond Sze.

CRANIAL BONES (8) 2. Parietal bones (paired) 3. Occipital bone

CERVICAL VERTEBRAE Prof. Saeed Abuel Makarem & Dr. Sanaa Al- Shaarawy.

Chapter 5 Skeletal System Axial Skeleton Vertebral Column.

بنام مهربانترين.

Skeletal System:Axial Skeleton

Lab Activity 8 Axial Skeleton Martini Chapter 7. Axial Skeleton Skull Spine Thoracic Cage Hyoid bone.

The Vertebral Column. Extends from skull (supports the skull) to the pelvis (distributes weight to lower limbs) Five sections: cervical, thoracic, lumbar,

Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings Human Anatomy & Physiology, Sixth Edition Elaine N. Marieb PowerPoint ® Lecture.

Normal Radiographic Spinal Anatomy

Exercise 7 Axial Skeleton Portland Community College BI 231.

CERVICAL VERTEBRAE 1 Prof. Saeed Abuel Makarem & Dr. Sanaa Al- Shaarawy.

Vertebral Column. Objectives Know the organization of the vertebrae and normal curvatures in the vertebral column. Identify the characteristic features.

Radiographic Lines (Baker)

Identify on a-p head x-ray: 1.frontal sinus 2.ethmoid air cells 3.maxillary sinus 4.nasal septum 5.crista galli 6.inferior nasal concha 7.coronoid process.

Steven lee M.S. Pathology FTCC.

© 2013 Pearson Education, Inc. Vertebral Column: Curvatures Increase resilience and flexibility of spine –Cervical and lumbar curvatures Concave posteriorly.

2-1 Osteology. External Occipital Protuberance Nuchal Lines.

JOINTS OF HEAD & NECK Dr. Mujahid Khan. Atlanto-Occipital Joints  Are synovial joints  Formed between the occipital condyles above and the superior.

Human Anatomy & Physiology Ninth Edition PowerPoint ® Lecture Slides prepared by Barbara Heard, Atlantic Cape Community College C H A P T E R © 2013 Pearson.

 Foramen – Hole  Supra – above  External – outside  Internal – inside  Orbital- Eye  Mental – chin  Suture – line or flat bone  Fossa- Depression.

Skull and Skeleton Make Up Quizzam

CERVICAL VERTEBRAE TYPICAL AXIS ATLAS Prof. Saeed Abuel Makarem.

SUBOCCIPITAL TRIANGLE. Bony Articulations Occipital bone: Occipital condyles. Atlas: Posterior tubercle. Posterior arch. Anterior arch. Transverse process.

CERVICAL SPINE DEPARTMENT OF ANATOMY. DR.SANAA AL-SHAARAWY.

VERTEBRAL COLUMN DR N SATYANARAYANA. Vertebral column Made up of 33 vertebrae, forms the major part of axial skeleton Extends from skull to the pelvis.

The Skeleton P A R T C. Cervical Vertebrae Seven vertebrae (C 1 -C 7 ) are the smallest, lightest vertebrae Oval body and large, triangular vertebral.

1 Chapter 7 The Skeletal System: The Axial Skeleton.

Squamous part Basilar part two Condylar parts.

Anthony M.Maina FCS(ECSA)(Ortho) Orthopaedic Surgeon, Head of Orthopaedic Surgery, AIC KIJABE HOSPITAL. (KOA Scientific Conference,Eldoret,2016) SUCCESSFUL.

Copyright © American Speech-Language-Hearing Association

ANATOMY AND PHYSIOLOGY

Authors: Done in collaboration with: Dr. Nadia Mcallister MD

SKELETON OF THE SPINE AND THE THORAX

CERVICAL SPINE DEPARTMENT OF ANATOMY. DR.SANAA AL-SHAARAWY.

Anterior Cranial Fossa

Patrick Sanchez, Duy Bui ASNR 2016 Annual Meeting

The mandible It’s the bone of lower jaw.

The Vertebral Column.

Vertebral Column Transmits weight of trunk to lower limbs

Figure 9.1a External anatomy of the right lateral aspect of the skull.

Figure 1 Frontal bone Frontal squama of frontal bone Glabella Coronal suture Frontonasal suture Parietal bone Greater wing of Supraorbital notch sphenoid.

Lateral oblique projection

Midsagittal MDCT image of the craniocervical junction demonstrates the Powers ratio, which is calculated by dividing the distance between the tip of the.

Presentation transcript:

Abstract ID: IRIA -1251

 Knowledge of CVJ anomalies is important as it contains vital structures including cervicomedullary junction  To illustrate the various methods of craniometry used in diagnosing CVJ anomalies Aims and objectives Materials and methods  Multimodality radiological assessment of CVJ anomalies along with radiological findings in commonly encountered congenital CVJ anomalies is illustrated

A- nasion B-posterior pole of hard palate C-anterior arch C1 D-odontoid process E-posterior arch C1 F- opisthion G- basion H- tuberculum sellae A B CD E F G H A B C D E A- tip of mastoid process B-occipital condyle C-odontoid process D-axis body E-lateral mass of atlas

CHAMBERLAIN’S LINE MCRAE’S LINE  Posterior margin of hard palate to opisthion( )  Normal- tip of dens less than 5mm below this line  Abnormal- in basilar invagination  Line from basion to opisthion ( )  Normal – tip of dens below this line  Abnormal-in basilar invagination

MCGREGOR’S LINE WACKENHEIM’S LINE  Posterior margin of hard palate to lowest part of occipital bone  Normal- tip of dens less than 7mm below this line  Abnormal- in basilar invagination  Line extrapolated along dorsal surface of clivus  Normal – dens should be tangential or anterior to this line  Abnormal-in basilar invagination

DIGASTRIC LINEBIMASTOID LINE  Line between incisurae mastoidae ( )  Normal- 10mm above atlanto- occipital joint  Line between tips of mastoid processes ( )  Normal – intersects atlanto- occipital joint

WELCHER BASAL ANGLE CLIVUS CANAL ANGLE  Angle at junction of nasion- tuberculum and tuberculum- basion lines  Normal degree  Abnormal->143 degree in platybasia  Angle at junction of Wackenheim’s line and posterior vertebral body line  Normal – degree  Abnormal-<150 degree in platybasia

ATLANTOOCCIPITAL JOINT AXIS ANGLE KLAUS INDEX  Angle formed at junction of lines along atlanto-occipital joints ( )  Normal degree  Obtuse in condyle hypoplasia  Distance between dens and tuberculum cruciate line ( )  Normal-40-41mm  Basilar invagination-<30mm

 Chamberlain’s line (palato- occipital line)  Palato–suboccipital line (McGregor line)  Foramen magnum line (McRae line)  Height of the posterior cranial fossa(Klaus Index)  Wackenhein’s clival canal line  Bull’s angle (Atlanto-palatal angle)  Atlanto-temporo- mandibularindex (Fischgold) Bimastoid line (Fischgold& Metzer) Bidigastric line (Fischgold& Metzer) Condylar angle (Schmidt & Fischer) Basal angle (Welcher) Boogard’s angle

Atlanto-occipital junction  Atlanto-occipital assimilation  Platybasia  Basilar invagination Occipital Basiocciput hypoplasia Occipital condyle hypoplasia Condylus tertius Atlas Posterior arch anomalies Anterior arch anomalies Axis Ossiculum terminale Os odontoideum Odontoid aplasia Associated conditions Chiari malformation Klippel Fiel syndrome Osteogenesis imperfecta Achondroplasia CONGENITAL CVJ ANOMALIES-CLASSIFICATION

 Failure of segmentation of C1 and skull base  Association – C2-C3 fusion, atlantoaxial subluxation CT coronal section showing complete atlanto- occipital assimilation on right side and incomplete atlanto-occipital assimilation on left side( ) CONGENITAL ANOMALIES-ATLANTO-OCCIPITAL ATLANTOOCCIPITAL ASSIMILATION CT sagittal section showing complete atlanto-occipital assimilation( ),short clivus( ),violation of Chamberlain’s line( )-basilar invagination and atlantoaxial dislocation( )

 Skull base flattening  Primary and secondary  Bow string deformity  Increased basal angle  Decreased clivus canal angle ( )  Association – basilar invagination 32 year old gentleman with decreased clivus canal angle( ), violation of Chamberlain’s line(, ) acute angulation, compression of cervicomedullary juncion ( ) PLATYBASIA

 Abnormally high vertebral column  Prolapse into skull base  Secondary- basilar impression  Chamberlain’s line  Mc Gregor’s line  Digastric line 24 year old gentleman with violation of Chamberlain’s line( ) and digastric line( ), atlantoaxial dislocation(atlantodens interval-3.8mm) BASILAR INVAGINATION

BASIOCCIPUT HYPOPLASIA CLIVUS CANAL ANGLE  Shortening of clivus  Violation of Chamberlain’s line  Decreased clivus canal angle  Flattened condyles  Widening of atlanto-occipital joint axis angle ( )  Causes basilar invagination CT sagittal section showing short clivus ( ), atlantooccipital assimilation ( ) and violation of Chamberlain’s line ( ) CT coronal section showing flattened occipital condyles( ) and widening of atlanto-occipital joint axis angle ( )

 Third condyle  Ossification remnant at distal end of clivus  Association – os odontoideum CT coronal section showing remnant ossification centre at distal end of clivus( ) CONGENITAL ANOMALIES – OCCIPTAL CONDYLUS TERTIUS

 Anterior and posterior arch anomalies  Total or partial aplasia  Isolated anterior arch anomalies –rare  Split atlas CT axial section showing posterior atlas arch rachischisis CT a xial section showing partial anterior arch rachischisis( ) and os odontoideum( ) Hypertrophic anterior arch( ); corticated margins Jefferson’s fracture Irregular margins ; normal anterior arch CONGENITAL ANOMALIES-ATLAS

OS ODONTOIDEUM OSSICULUM TERMINALE  Separate odontoid process  Failure of fusion of base with body of axis  Bergmann ossicle  Failure of fusion of apical segment with base of dens CONGENITAL ANOMALIES-AXIS T1W MRI sagittal section showing os odnotoideum( CT sagittal section showing os odnotoideum( ) with ossiculum terminale( )

KLIPPEL FIEL SYNDROME CHIARI MALFORMATION  Complex entity causing cervicovertebral fusion  Associations- occipito-atlantoid fusion  Low lying tonsils  Associations- basiocciput hypoplasia, atlanto-occipital assimilation, platybasia CONGENITAL SYNDROMES 16 year old lady with herniated tonsils( ) Acute clivocanal angle( ),short clivus( ) and cervical cord compression CT sagittal section showing violation of Chamberlain’s line ( ), atlantooccipital fusion( ), atlantodens interval of 3.9mm ( ),fused C5-C8( )

 Congenital  Acquired  Traumatic  Atlantodens interval 3mm - adults 5mm - children ATLANTOAXIAL DISLOCATION 20 year old man with type 2 dens fracture(irregular margins( ) and atlantoaxial dislocation( ) 47 year old lady with rheumatoid arthritis with basilar impression, sclerosis of atlantoaxial joint( ) and atlantoaxial dislocation( ) 18 year old lady with TB, retropharyngeal collection( ), lytic area in dens( ) and atlantoaxial dislocation( ) 38 year old lady with increased atlantodens interval( ) SPONTANEOUS INFECTIVE RHEUMATOID ARTHRITIS TRAUMA

 Understanding of the important land marks and accurate assessment of the lines and angles is crucial in the evaluation of craniovertebral junction anomalies CONCLUSION REFERENCES Wendy etal, Craniovertebral junction:Normal craniometry and congenital anomalies; Radiographics:1994:14: Goel A,Basilar invagination,Chiari malformation,syringomyelia:a review,Neurology India, 2009(3): Tassanawipas etal, magnetic resonance imaging study of the craniocervical junction, J Orth surg, 2005:13(3): Harris J, The cervicocranium:its radiographic assessment, Radiology 2001;218: