22 Cervical Spine Osteology PDF

Summary

These lecture notes from RCSI cover cervical spine, cord and nerves and skull osteology. The document includes learning outcomes, diagrams, and discussion points for Year 2, Semester 1.

Full Transcript

Cervical spine, cord and nerves and
skull osteology
Class Year 2, Semester 1

Lecturer DR. VIJAYALAKSHMI S B
Department of Anatomy
Email id: [email protected]

Date 11-11-2024
LEARNING OUTCOMES

Describe the structure of cervical vertebrae, especially atlas and axis

Describe the joints between the vertebrae

Describe the vertebral arteries and their course
Discuss the cervical spinal nerves

Describe the spinal meninges and associate the anatomy with the
procedure of a lumbar puncture

Describe the osteology of the skull in frontal, posterior, superior and
inferior views

Describe the cranial fossae
VERTEBRAL
COLUMN
 REGIONAL
VERTEBRAE
 Functions of the Vertebral Column
Protection
Spinal Cord and Nerve Roots
Many internal organs

Base for Attachment
Ligaments
Tendons
Muscles

Structural Support for the Head, Shoulders and Thorax
Connects upper and lower body
Balance and weight distribution

Flexibility and Mobility
Flexion (forward bending)
Extension (backward bending)
Lateral flexion (bending to the left and right sides)
Rotation (to the left and right)
Any combination of the above movements
 Curvatures of the
Vertebral Column
The primary or first-formed curve in
the vertebral column is called the
KYPHOSIS.

Later, secondary curves appear,
curved in the opposite direction.

Secondary curves develop in the
lumbar region as the child begins to
sit upright (LUMBAR LORDOSIS),
and in the cervical region when it
Model begins to hold its head erect
MO3 (CERVICAL LORDOSIS).
Vertebral column

lordosis

kyphosis

lordosis

kyphosis
Abnormal curvature of the spine
Vertebral
canal General structure of
vertebrae
The VERTEBRAL COLUMN has three
Vertebral
essential components:
arch
1. The VERTEBRAL BODIES and the
Vertebral intervertebral discs between them have an
body important weight-bearing function:
consequently, they increase in size from
above down, i.e., from cervical to lumbar.

Vertebral 2. The VERTEBRAL ARCHES protect the
body contents of the vertebral canal.

3. The VERTEBRAL CANAL contains the
spinal cord, its meningeal coverings and
blood vessels, and the roots, dorsal root
ganglia and most proximal parts of the
Vertebral spinal nerves.
arch
 Spinous
process
Lamina
The Vertebral Arch
is composed on each side of a
PEDICLE (Latin, pes, a foot) and a
LAMINA (Latin, lamina, anything thin Transverse
Pedicle
or flat; the word ‘laminated’ comes from process
the same root)

has a SPINOUS PROCESS, which
projects posteriorly in the midline

has a TRANSVERSE PROCESS on Transverse Superior
each side process articular
process
has SUPERIOR and INFERIOR
ARTICULAR PROCESSES, which
articulate with those of adjacent
vertebrae.
Inferior
Spinous articular
process process
 JOINTS IN THE VERTEBRAL COLUMN

Or Facet joints Secondary
A type of Plane joints: cartilaginous
between articular
processes joints/symphyses
 Intervertebral disc
Cartilaginuos Endplate
Fibrocartilaginous joints of the
vertebral bodies
connection of vertebral bodies Vertebral Annular Epiphysis
stability and flexibility Body
pressure regulation
Spinous
„water cushion“ function process Intervertebral Disc

Vertebral
Spinous
process Body
Annulus fibrosus:
Outer zone→
high tensile strength.
Fibrous sheath. It connects adjacent annular epiphyses of vertebral bodies
Inner zone →
fibrocartilage attached to vertebral body cartilaginous endplate

Nucleus pulposus: high resilience
Gelatinous structure,
80-85% water
Ligaments of the vertebral column
The easiest approach is to remember that every part of a vertebra
is connected to the same parts of the adjacent vertebra by
ligaments.
 Ligaments of the vertebral column

Post longitudinal lig.
nuchal Ant longitudinal lig.

interspinous
Ant longitudinal lig.

Ligamenta flava
Ligaments of the vertebral column
 Ligaments of the vertebral column

Longitudinal ligaments
Anterior – along anterior vertebral
bodies
Posterior – along posterior vertebral
bodies

Ligamentum flavum – between laminae
Yellow due to elastin
Interspinous ligament

Supraspinous ligament
Ligamentum nuchae in the neck

JC Holland
Intervertebral foramina –spinal nerves and blood vessels
Emerge or come through here
 CERVICAL VERTEBRAE

Typical cervical vertebra
CERVICAL VERTEBRAE
TYPICAL CERVICAL VERTEBRAE
ATYPICAL VERTEBRAE – ATLAS (C1)
ATYPICAL VERTEBRAE – AXIS (C2)
ATYPICAL VERTEBRAE – C7
 Atlanto-occipital joint
Articular surfaces on the atlas

Occipital

Atlas

Articular surfaces on the occipital bone

Atlanto-occipital joint:
Pair of synovial condyloid joints
 A lateral view of the cervical spine
C1 to T1

Movements

Atlanto-occipital joint
‘Nodding’ Flexion/Extention

Atlantoaxial joint

Rotation

Open mouth Odontoid radiograph
www.ebmconsult.com
 VERTEBRAL ARTERY
Two Vertebral arteries (L+R)
From the subclavian artery
Ascend in transverse foramina
Enter foramen magnum
Release postero-inferior cerebellar artery (PICA)
Release posterior and anterior spinal arteries
The two vertebral arteries merge into one Basilar artery
 CLINICAL CORRELATE

Cervical Spine injury In trauma patients, to clear
the airway, avoid extending
the cervical spine

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3982371/
 SPINAL CORD

Continuation of the brain stem into the spinal canal
Spinal cord extends from the foramen magnum of the base
of the skull to lower border of the first lumbar vertebra
 Cervical
enlargement 3 Meninges
Cover the brain and spinal cord
Pia Mater
Arachnoid

Dura Mater

Spinal cord ends at
L1/L2 vertebral level–
Lumbar adult
enlargement
L3/L4 vertebral level child

Subarachnoid space ends at S2
Lumbar puncture - CSF sampling

Filum terminale – extension of
pia mater to coccyx
PROTECTIVE LAYERS OF THE SPINAL CORD

Layers:
Dura
Arachnoid
Pia

Spaces:
Epidural/Extradural
Subdural
Subarachnoid
 CLINICAL CORRELATE

Contraindicated ( Don’t do it !!)
with raised intracranial pressure (ICP)

Lumbar tap (Puncture)
– What is it?
– Indications?
– How it is done
– Expected result
SPINAL CORD SEGMENTS
AND SPINAL NERVES

Cervical (8)
Thoracic (12)
Lumbar (5)
Sacral (5)
Coccygeal (1)
Vertebral level/spinal cord segments
Spinal cord segments do not match
with the corresponding vertebra

Vertebrae Spinal segment
Cervical +1

Thoracic 1-6 +2

Thoracic 7-9 +3

Thoracic 10 L1 & 2

Thoracic 11 L3 & 4

Thoracic 12 L5

Lumbar 1 Sacral/coccygeal
 Spinal Nerves
There are 7 cervical vertebrae, but there are 8
cervical spinal nerves. The 1st emerges between
C1 and the base of the skull. The 8 th emerges
between C7 and T1.

There are 12 thoracic, 5 lumbar and 5 sacral
spinal nerves, all emerging below the
corresponding vertebrae.

There are usually 4 coccygeal vertebrae but only
one coccygeal spinal nerve.

In the adult, the spinal cord typically ends between
L1 and L2. In a very young child, it may extend
as far as L4.

Below the end of the spinal cord, the lowermost
spinal nerves run steeply downwards as the
CAUDA EQUINA (Latin, “The Horse’s Tail”), to
emerge from their appropriate foramina.
 CERVICAL SPINAL NERVES

C1 – C7 emerge above their
vertebrae

There are 8 cervical spinal
nerves.

C8 emerges below the C7
vertebra

All spinal nerves from T1 down
come out below their vertebrae.

Spinal nerves emerge out of
the intervertebral foramina
CERVICAL SYMPATHETIC TRUNK

Continuous with thoracic trunk
Crosses the neck of the first rib
Posterior to carotid sheath
On prevertebral fascia
Three Cervical ganglia:
Superior – located at C1 & C2 vertebral
level; branches pass to C1 to C4 spinal
nerves
Middle – located at the level of C6
vertebra; branches pass to C5 and C6
spinal nerves
Inferior - named as Stellate ganglion,
if merged with T1 ganglion; branches
pass to C7 to T1 spinal nerves
 Cervical spinal nerves - plexi
Cervical plexus
(anterior rami C1-C4)

Brachial plexus
(anterior rami C5-T1)
Nerves of the Cervical Plexus
Brachial Plexus
 Posterior rami of cervical nerves
C1- posterior ramus larger than
anterior: Suboccipital nerve

C2- posterior ramus larger than the
anterior: its medial branch is the
Great occipital nerve

C3- gives off the Third occipital
nerve

https://www.sciencedirect.com/topics/veterinary-
science-and-veterinary-medicine/suboccipital-nerve
 ARTERIAL SUPPLY

Longitudinally vessels
Anterior spinal artery – from vertebral
2 Posterior spinal arteries - from PICA
Segmental spinal arteries
Anterior and posterior Radicular arteries
enter through intervertebral foramina
Artery of Adamkiewicz (Eponym) – arises in the lower
thoracic or upper lumbar region
 VENOUS DRAINAGE
Posterior spinal vein

Anterior
spinal vein

Internal vertebral plexus

Veins that drain the spinal cord form longitudinal
channels
Two pairs of veins on each side
One midline channel parallels the anterior median
fissure – Anterior spinal vein
One midline channel passes along the
posterior median sulcus – Posterior spinal vein

These longitudinal veins drain into the internal vertebral plexus
in the extradural space of the vertebral canal.
 PRACTICAL
REFERENCES
QUESTIONS