Skull and Cervical Spine: Anatomy and Imaging

Question 1

Name the main bones of the orbit.

Answer 1

Frontal 
Lacrimal 
Ethmoid 
Maxilla 
Zygomatic 
Sphenoid
➡Greater wing 
Palatine

Question 2

Identify the structures which pass through the superior orbital fissure.

Answer 2

• Lacrimal nerve
• Frontal nerve
• Trochlear nerve
• Superior ophthalmic vein
• Nasociliar nerve
• Oculomotor nerve
• Abducens nerve

Question 3

Identify the structures which pass through the inferior orbital fissure.

Answer 3

• Zygomatic branch of maxillary nerve
• Infraorbital nerve
• Inferior ophthalmic vein
• Sympathetic nerves

Question 4

What is the skull ?

Answer 4

Cranium, bony skeleton of the head, including the mandible

Question 5

What does the skull contain ?

Answer 5

Houses the brain, organs of special sense, upper part of respiratory and gastrointestinal system

Question 6

How much movement is possible at the skull ?

Answer 6

Restricted movement only in relation to the mandible at the temporomandibular joint (TMJ, to open and close the mouth) and the atlanto-occipital joint

Question 7

Identify the main functions of the skull.

Answer 7

• Protects the brain, brainstem, cranial nerves and vasculature
• Provides attachment for muscles
• Provides a framework for the head
• Gives us our identity as individuals

Question 8

What types of bones make up the skull ?

Answer 8

Flat and irregular bones

Pneumatised bones

Question 9

Define pneumatised bone, and give examples. What is their function ?

Answer 9

Bones with air spaces (air cells or sinuses) such as the frontal, temporal, sphenoid and ethmoid

Serve 2 functions in the skull; to reduce weight and add resonance to our voice

Question 10

What is the difference between development and irregular bones ?

Answer 10

• Flat, smooth bones form by intramembranous ossification

* Irregular bones form by endochondral ossification

Question 11

Identify the main divisions of the skull.

Answer 11

1) Neurocranium: Bony case of the brain including cranial meninges with a dome-like roof (calvaria/skullcap) and a floor (cranial base/basicranium)
2) Viscerocranium: Anterior part of cranium that consists of bones surrounding the oral cavity, nasal cavity and most of the orbit

Question 12

How many bones does the skull contain ?

Answer 12

22 bones in the adult excluding the ossicles of the ear (28 with ossicles)

Question 13

Identify the bones of the neurocranium. How many are there in total ?

Answer 13

8 in total

➡ Singular midline bones: 
Frontal 
Occipital 
Sphenoid 
Ethmoid

➡ Sets of bilateral paired bones:
Parietal x2
Temporal x2

Question 14

Identify the bones of the viscerocranium. How many are there in total ?

Answer 14

15 irregular bones

➡ Singular midline bones:
Ethmoid
Vomer
Mandible

➡ Sets of bilateral paired bones: 
Nasal x2
Lacrimal x2
Zygomatic x2
Palatine x2
Maxillae x2
Inferior Nasal Conchae x2

Question 15

What are the main features of the viscerocranium ?

Answer 15

Zygomatic arch, mandible and infratemporal fossa

Question 16

What are the main features of the neurocranium ?

Answer 16

External acoustic meatus (opening), styloid and mastoid processes and temporal fossa

Question 17

Identify the superior, inferior, posterior, anterior borders, and floor of the temporal fossa.

Answer 17

Superior and posterior borders: Superior and inferior temporal lines

Anterior border: Frontal process of zygomatic bone and zygomatic process of frontal bone

Inferior border: Infratemporal crest deep to zygomatic arch

Floor: Includes pterion

Question 18

What is the pterion ?

Answer 18

• H-shaped junction of sutures

* Frontal, parietal, temporal, and greater wing of sphenoid bone meet here

Question 19

What is the clinical significance of the pterion ?

Answer 19

Structurally weak (thin) area of the skull. Overlies anterior branch of the middle meningeal artery, so vulnerable, trauma can lead to extradural (epidural) hematoma

Question 20

Describe the location of the pterion (in surface anatomy).

Answer 20

4cm superior to midpoint of zygomatic arch and 3cm posterior to frontal process of zygomatic bone.

Question 21

What are the main components of the calvaria ?

Answer 21

4 flat bones (2x parietal, single frontal and occipital) fused by the coronal, sagittal and lambdoid sutures

Question 22

What is the function of arachnoid granulations ?

Answer 22

Arachnoid granulations return CSF to the venous circulation.

Question 23

Define Wormian bone.

Answer 23

Sutural, accessory
or Wormian bones, are msall islands of bone which may be seen within a cranial suture (most commonly observed in the lambdoid sutures)

Question 24

Define suture. How much movement is allowed here ?

Answer 24

• Structurally, type of fibrous joint

* Functionally, limited or no movement (synarthrosis)

Question 25

Define fontanelle. What is their function ?

Answer 25

“One of the membrane-covered spaces remaining at the junction of the sutures in the incompletely ossified skull of the fetus or infant, that fuse in the post-natal life”. Two of them, anterior and posterior fontanelle

Along with sutures, allow moulding of cranial shape during birth + post-natal growth of brain.

Question 26

How soon do fontanelles close ?

Answer 26

• Posterior fontanelle closes 2 months post-birth

• Corners of frontal and
parietal bones fuse by 18 months (anterior fontanelle)

Question 27

Which of the fontanelles is palpable ?

Answer 27

Anterior NOT

Posterior palpable

Question 28

Identify the divisions of the trigeminal nerve, and the foramina they pass through.

Answer 28

Supraorbital nerve (branch of V1) (through supra-orbital notch)

Zygomatic branch of maxillary nerve (through infra-orbital foramen)

Inferior alveolar nerve (branch of V3) (through mental foramen)

Question 29

Identify the craniometric points. What is their clinical significance ?

Answer 29

Asterion: Star shaped; located at junction of three sutures: parietomastoid, occipitomastoid, and lambdoid

Inion: Most prominent point of external occipital protuberance

Pterion: Junction of greater wing of sphenoid, squamous temporal, frontal, and parietal bones; overlies course of anterior division of middle meningeal artery

Nasion: Point on cranium where frontonasal and internasal sutures meet

Lambda: Point on calvaria at junction of lambdoid and sagittal sutures

Bregma: Point on calvaria at junction of coronal and sagittal sutures

Glabella: Smooth prominence; most marked in males; on frontal bones superior to root of nose; most anterior projecting part of forehead

Vertex: Superior point of neurocranium, in middle with cranium oriented in anatomical (orbitomeatal or Frankfort) plane

Important anatomical landmarks in radiology and surgery

Question 30

Identify the main paranasal sinuses.

Answer 30

• Frontal
• Ethmoidal
• Sphenoid
• Maxillary

Question 31

Where is the pterygoid plate located ?

Answer 31

Either of the two processes of the sphenoid bone, descending from the points of junction of the great wings and the body of the bone, and each consisting of a lateral and a medial plate.

Question 32

Identify the main foramina of the skull.

Answer 32

Foramen Lacerum 
Foramen Ovale
Foramen Spinosum
Hypoglossal Canal
Foramen Magnum
Jugular Foramen
Carotid Canal

Question 33

Identify the main borders of the infratemporal fossa.

Answer 33

• Laterally: Ramus of the mandible
• Medially: Lateral pterygoid plate of sphenoid bone
• Anteriorly: Posterior aspect of maxilla
• Posteriorly: Tympanic plate, mastoid and styloid processes
• Superiorly: Infratemporal crest of sphenoid bone
• Inferiorly: Angle of the mandible

Question 34

Identify the borders of the pterygopalatine fossa.

Answer 34

Inferior to the apex of the orbit and medial to the infratemporal fossa

• Posteriorly: pterygoid process of the sphenoid
• Anteriorly: rounded posterior aspect of the maxilla
• Medially: fragile perpendicular plate of the palatine bone forms its medial wall.
• Roof (incomplete): formed by the medial continuation of the infratemporal surface of the greater wing of the sphenoid.
• Floor: formed by the pyramidal process of the palatine bone.

Its superior larger end opens anterosuperiorly into the inferior orbital fissure. Its inferior end narrows, continuing as the greater and lesser palatine canals.

Question 35

Identify the main canals and foramina connected to the pterygopalatine fossa. What is the role of these ?

Answer 35

There are seven openings (also known as foramina) that connect the pterygopalatine fossa with the orbit, nasal and oral cavities, middle cranial fossa and infratemporal fossa. The openings transmit blood vessels and nerves between these regions:

-Pterygomaxillary Fissure, to infratemporal fossa
-Foramen Rotundum, to middle cranial fossa
-Pharyngeal canal, to nasopharynx
-Pterygopalatine canal (=Greater Palatine Canal), to roof of oral cavity
Inferior Orbital Fissure, to orbit
-Vidian Canal (=
Pterygoid Canal), “from the middle cranial fossa and through the medial pterygoid plate (“ends just anterior to foramen lacerum”)
-Sphenopalatine Foramen, to nasal cavity

Question 36

Identify the contents of the pterygopalatine fossa.

Answer 36

1) Terminal (pterygopalatine or third) part of the maxillary artery, and the initial parts of its branches, and accompanying veins (tributaries of the pterygoid venous plexus).
2) Maxillary nerve (CN V2), with which the pterygopalatine ganglion is associated (latter also in the fossa). Maxillary nerve branches in the fossa including infraorbital and zygomatic nerves.

3 Nerve of pterygoid canal (Vidi)

• Parasympathetic and sensory (taste) fibres of the facial nerve
• Sympathetic fibres from internal carotd plexus

Question 37

Identify the main parts of the cranial base, as well as the boundaries between each.

Answer 37

The internal surface of the cranial base (L. basis cranii interna) has three large depressions that lie at different levels: the anterior, middle, and posterior cranial fossae, which form the bowl-shaped floor of the cranial cavity, the space enclosed within the neurocranium occupied by the brain.

The middle cranial fossa is postero-inferior to the anterior cranial fossa, separated from it by the sharp sphenoidal crests (formed mostly by the sharp posterior borders of the lesser wings of the sphenoid bones, which overhang the lateral parts of the fossae anteriorly) laterally and the limbus of the sphenoid centrally.

The boundary between the middle and the posterior cranial fossae is the superior border (crest) of the petrous part of the temporal bone laterally, and a flat plate of bone, the dorsum sellae of the sphenoid, medially

Question 38

Which bones are present in the anterior cranial fossa ? Which part of the brain resides here ?

Answer 38

• Frontal, ethmoid and sphenoid bones

* Occupied by frontal lobes

Question 39

Which of the three cranial fossas is the shallowest ?

Answer 39

Anterior cranial fossa

Question 40

Identify important structures passing through the anterior cranial fossa. Explain the clinical significance of this.

Answer 40

Olfactory bulbs (CN I) receive nerve fibres from the nasal cavity via the foramina of the cribriform plate (olfaction)

Cribriform plate fractures can present with CSF rhinorrhoea

Question 41

Which bones are present in the middle cranial fossa ? Which part of the brain resides here ?

Answer 41

• Sphenoid and temporal bones

* Occupied by temporal lobes

Question 42

Identify important structures passing through the middle cranial fossa.

Answer 42

• The pituitary gland lies in the hypophyseal (pituitary) fossa (deepest part of sella turcica)
• The pituitary gland is surrounded by 4 clinoid processes and 2 superior projections (dorsum sellae posteriorly and tuberculum sellae anteriorly)

Question 43

Which bones are present in the posterior cranial fossa ? Which part of the brain resides here ?

Answer 43

• Sphenoid, occipital and temporal bones

* Occupied by the cerebellum and brainstem (medulla oblongata and meninges in the foramen magnum)

Question 44

What are the main functions of the mandible ?

Answer 44

• Site for muscle attachments (muscles of mastication)
• Foramina for passage of neurovascular structures
• Mandibular teeth within alveolar processes

Question 45

Describe the main structural features of the TMJ.

Answer 45

• Between glenoid (mandibular) fossa of temporal bone and condylar process of mandible
• Modified hinge (atypical) synovial joint
• Articular surfaces of bone covered with fibrocartilage (not hyaline cartilage)
• Fibrocartilaginous articular disc separating the joint into superior and inferior articular cavities
• Intrinsically ‘unstable’ joint

Question 46

The TMJ most often dislocated in what direction ?

Answer 46

Anterior dislocation most common

Question 47

Describe ligamentous support of the TMJ.

Answer 47

• 2 extrinsic and 1 intrinsic (lateral)
• Connect mandible to cranium

1) Sphenomandibular ligament
• Primary passive support of the mandible

2) Stylomandibular ligament

3) Lateral ligament
• Strengthens TMJ laterally
• With postglenoid tubercle
prevent posterior dislocation

Question 48

What are the main possible movements of the mandible ?

Answer 48

1) Gliding movements between temporal bone and articular disc (superior cavity)
2) Hinge and rotational movements between head of mandible and articular disc (inferior cavity)
3) Lateral movements (grinding/chewing)

Question 49

What movement makes the TMJ most unstable ? Why ?

Answer 49

The TMJ is most unstable during depression as the condylar processes move anteriorly and lie underneath the articular eminences with the mandibular head being vulnerable to anterior dislocation into the infratemporal fossa

Question 50

Identify the muscles of mastication.

Answer 50

Medial pterygoid (assists lateral pterygoid in protrusion + elevation)
Lateral pterygoid (protrusion)
Masseter (Elevation)
Temporalis (Elevation)

Question 51

Identify the contents of the following:

Cribriform foramina in cribriform plate
Optic canals
Superior orbital fissure
Foramen rotundum
Foramen ovale
Foramen spinosum
Foramen lacerum
Foramen magnum
Jugular foramen
Hypoglossal canal

Answer 51

• Cribriform foramina in cribriform plate: Axons of olfactory cells in olfactory epithelium that form olfactory nerves
• Optic canals: Optic nerves (CN II) and ophthalmic arteries
• Superior orbital fissure: Ophthalmic veins; ophthalmic nerve (CN V1); CN III, IV, and VI; and sympathetic fibers
• Foramen rotundum: Maxillary nerve (CN V2)
• Foramen ovale: Mandibular nerve (CN V3) and accessory meningeal artery
• Foramen spinosum: Middle meningeal artery and vein and meningeal branch of CN V3
• Foramen lacerum: Deep petrosal nerve and some meningeal arterial branches and small veins
• Foramen magnum: Medulla and meninges, vertebral arteries, CN XI, dural veins, anterior and posterior spinal arteries
• Jugular foramen: CN IX, X, and XI; superior bulb of internal jugular vein; inferior petrosal and sigmoid sinuses; and meningeal branches of ascending pharyngeal and occipital arteries
• Hypoglossal canal: Hypoglossal nerve (CN XII)

Question 52

Describe the main features of a typical cervical vertebrae.

Answer 52

(All but C1, C2, and C7)

• Vertebral body: Small and wider from side to side than anteroposteriorly; superior surface concave with uncus of body (uncinate process); inferior surface convex
• Vertebral foramen: Large and triangular
• Transverse processes: Foramina transversarii and anterior and posterior tubercles; vertebral arteries and accompanying venous and sympathetic plexuses pass through foramina transversarii of all cervical vertebrae except C7, which transmits only small accessory vertebral veins
• Articular processes: Superior facets directed superoposteriorly; inferior facets directed infero-anteriorly; obliquely placed facets are most nearly horizontal in this region
• Spinous processes: Short (C3–C5) and bifid (C3–C6); process of C6 long, that of C7 is longer (thus C7 is called “vertebra prominens”)

Question 53

Describe the main features of C1 which distinguish it from typical cervical vertebrae.

Answer 53

ATLAS

• Has neither a body nor a spinous process
• Paired lateral masses that serve the place of a body by bearing the weight of the cranium. These are connected by an anterior and posterior arch. Each lateral mass contains a superior articular facet (for articulation with occipital condyles), and an inferior articular facet (for articulation with C2)
• The transverse processes of the atlas arise from the lateral masses, causing them to be more laterally placed than those of the inferior vertebrae. This feature makes the atlas the widest of the cervical vertebrae, thus providing increased leverage for attached muscles
• The anterior arch contains a facet for articulation with the dens of the axis
• The posterior arch has a groove for the vertebral artery and C1 spinal nerve

Question 54

Describe the main features of C2 which distinguish it from typical Cervical vertebrae.

Answer 54

AXIS

• Large, flat bearing surfaces AKA superior articular facets, which articulate with the inferior articular facets of the atlas to form the two lateral atlanto-axial joints.
• Dens of the axis (odontoid process), projects superiorly from its body
• Large bifid spinous process that can be felt deep in the nuchal groove, the superficial vertical groove at the back of the neck

Question 55

Identify the main joints in the vertebral column.

Answer 55

Zygapophysial (facet) joints: plane synovial joints between the superior and inferior articular processes of adjacent vertebrae

Vertebral bodies indirectly articulate with each other via the intervertebral discs (symphyses, AKA secondary cartilaginous joint)

Question 56

Describe the structure of the IV discs.

Answer 56

Each IV disc consists of an anulus fibrosus, an outer fibrous part, composed of concentric lamellae of fibrocartilage, and a gelatinous central mass, the nucleus pulposus.

“The intervertebral disk end plate comprises a thin layer of hyaline cartilage”

Question 57

Describe the structure of facet joints.

Answer 57

Each joint is surrounded by a thin joint capsule.

“Hyaline cartilage covers the articular surfaces.”

Question 58

What types of movements occur at each of the following:

• C0-C1
• C1-C2
• C3-C7

Answer 58

• C0-C1: flexion and extension + Lateral flexion
• C1-C2: flexion and extension + rotation
• C3-C7: rotation + lateral flexion

Question 59

Identify the main ligaments of the vertebral column, and the function of each.

Answer 59

Anterior longitudinal ligament: connects the anterolateral aspects of the vertebral bodies and IV discs (prevents hyperextension)
Posterior longitudinal ligament: attached mainly to the IV discs and less so to the posterior aspects of the vertebral bodies from C2 to the sacrum (prevents hyperflexion)

Ligamentum nuchae: A sagittal ligamentous band at the back of the neck, formed of thickened supraspinous ligaments; it extends from the external occipital protuberance to the posterior border of the foramen magnum cranially, and to the seventh cervical spinous process caudally.

Ligamentum flavum: extends between lamina of adjacent vertebrae.

Cruciform ligament of the atlas: consists of the transverse ligament of the atlas plus the longitudinal band

Apical ligament: Spans between the second cervical vertebra and the skull. It lies as a fibrous cord in the triangular interval between the alar ligaments.

Ala ligament: extend from the sides of the dens of the axis to the lateral margins of the foramen magnum. Attach the cranium to the C1 vertebra and act as check ligaments in preventing excessive rotation at the joints.

Membrane Tectoria: strong superior continuation of the posterior longitudinal ligament that broadens and passes posteriorly over the median atlanto-axial joint and its ligaments. It runs superiorly from the body of C2 through the foramen magnum to attach to the central part of the floor of the cranial cavity, formed by the internal surface of the occipital bone.

Interspinous and supraspinous ligaments: join the spinous processes of adjacent vertebrae. The interspinous ligaments attach between processes, and the supraspinous ligaments attach to the tips.

Question 60

Identify the main muscles and fascia of the vertebral column.

Answer 60

Erector spinae
Pre-vertebra muscles
Paravertebral fascia
Pre-vertebral fascia (allows gliding, extends to T3, and covers floor of the posterior triangle, cervical and brachial plexus, and third part of Subclavian artery)

Question 61

Where do the vertebral artery and vein enter the vertebral column ?

Answer 61

• Enter Foramen Transversarium
– C7 – vein
– C6 – artery (diameter of Foramen Transversarium of C6 > C7)

Question 62

What is the signifiance of the infratemporal fossa ?

Answer 62

Various muscles and neurovascular structures are found in this space that communicates with the temporal fossa through the interval between (deep to) the zygomatic arch and (superficial to) the cranial bones

Question 63

Define Functional spinal unit.

Answer 63

“smallest physiological motion unit of the spine to exhibit biomechanical characteristics similar to those of the entire spine”

Question 64

How may you determine adequacy of a cervical X ray ?

Answer 64

Ensure you can see occiput to T1 – i.e. all seven Cervical vertebra

Question 65

Describe the alignment of the cervical vertebral column. How does this occur ? What is the function of this ?

Answer 65

Lordotic curve (43o
arc)

Function: Shock absorption

• Result of:
– Static factors
Bone shape
Disc shape
– Dynamic factors
Muscle
Ligament