Anatomy of Vertebral Column PDF

Summary

This document provides a comprehensive overview of the anatomy of the vertebral column, including the structure of vertebrae, intervertebral discs, spinal curves, and abnormal spinal curvatures.

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Anatomy of
VERTEBRAL COLUMN

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 Thevertebral column, also called the spine,
spinal column or backbone.

 Composed of a series of bones called
vertebrae (singular is vertebra).

 About 71 cm (28in): adult male.
 About 61 cm (24in): adult female.

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 Total
number of vertebrae during early
development is 33.

 Asa child grows, several vertebrae in the
sacral and coccygeal regions fuse.

 Adultshave 26 vertebrae. *Sacrum and
coccyx bones become fused.
7 cervical vertebrae (C1 - C7 )
 12 thoracic vertebrae (T1 –T12)
 5 lumbar vertebrae (L1 – L5)
 1 sacrum ( 5 fused )
 1 coccyx ( 4 fused )

*The sacrum and coccyx do not have
number.
 The cervical, thoracic and lumbar vertebrae
 movable
 Sacrum and coccyx  immovable
 Between adjacent vertebrae from the

second cervical vertebra to the sacrum are
intervertebral disc (inter = between).

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 General Structure of Vertebrae
1. Cervical vertebrae (C1-C7)
Formed framework of neck region
Support skull
Small in size
Presense foramen in each transverse
process

2. Thoracic vertebrae (T1-T12)
Formed posterior part of thoracic cage
Articulates with associated ribs

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3. Lumbar Vertebrae (L1-L5)
Formed skeletal support for posterior abdominal wall
Characterized by large in size

4. Sacrum Vertebrae
Fusion of 5 sacral bones
Immovable (synostosis)
Articulates with L5 at lumbosacral joint
Articulates laterally with pelvic bone at sacroiliac
joint.
Formed posterior wall of lower abdominal and pelvic
cavity

5. Coccyx
Fusion of 4 coccyx bones
Immovable (synostosis) 8
1. Supports the head.
2. Help maintain balance in the upright
position.
3. Enclose and protect the spinal cord.
4. Permits movement (move forward,
backward, sideways, and rotate).
5. Absorbs shocks during walking.
6. Serve as a point of attachment for the ribs,
pelvic girdle and muscles of the back and
upper limbs.
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 In the fetus, there is a single concave
curve.
 At 3 months after birth when infant lifts head
as it begins to crawl the cervical curve
develops.
 When child sits up, stands and walks the
lumbar curve develops.

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 In
adult, it shows four slight bends called
normal curve:

 Cervical and lumbar curve are convex
(bulging out)
 Thoracic and sacral curve are concave
(cupping in)
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 The thoracic and sacral curves are called
primary curves because they form first
during fetal development.
 The cervical and lumbar curves are called
secondary curves because they form later,
several months after birth.
 All curve fully developed by age 10.
 However, secondary curves may be
progressively lost in old age.

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Differences newborn and adult spinal curvature

Newborn Spinal Curvature :
 C-shaped curve
 Known as Primary Curve
 Single curve

Adult Spinal Curvature:
 S-shaped vertebral column
 Four curve (cervical, thoracic, lumbar amd
sacral curve)
 Secondary curvatures develop after birth
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 NORMAL CURVE OF
THE VERTEBRAL COLUMN

 Consist of four slight
bends (cervical,
thoracic, lumbar,
sacral)
 Cervical and lumbar
curve are convex
(bulging out).
 The thoracic and
sacral curves are
concave (cupping in).
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 Increases its strength
 Help maintain balance in the upright

position
 Absorb shocks during walking
 Help protect the vertebrae from fracture

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 ABNORMAL SPINAL
CURVATURE
Scoliosis:
 lateral bending of the vertebral column, usually in
the thoracic region.

Kyphosis:
 Incerase in the thoracic curve of the vertebral
column.

Lordosis (Hollow back)
 Increase in the lumbar and cervical curve of the
vertebral column.
ABNORMAL SPINAL
CURVATURE
ABNORMAL SPINAL
CURVATURE

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Scoliosis
Kyphosis

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Typical vertebrae consists of:

◦A body
◦A vertebral arch (pedicles and lamina)
◦Seven processes: two transverse
processes, one spinous process, four
articular processes

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 Largest part of vertebra,
thick.
 Disc-shaped anterior
portion
 Weight bearing portion –
size increases inferiorly
 Its inferior and superior
surfaces are roughened and
give attachment to the
intervertebral disc.
 Anterior and lateral
surfaces contain nutrient
foramina – pathway for
blood vessels.
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 Extend backwards from the body of the
vertebra.
 Consists of a pair of pedicles and a pair of

laminae.
 The pedicle project backward from the body to

unite with the laminae.

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Pedicle:
 two short, thick processes, which
project backward.
 the concavities above and below the
pedicles are named the vertebral
notches –formed IV foramina

Laminae:
 two broad & flat plates directed

backward and medialward from the
pedicles.
 the laminae end in a single sharp,

slender projection called a spinous
process.
7 processes arise from the vertebral arch:

 TWO TRANSVERSE PROCESS
 ONE SPINOUS PROCESS
 FOUR ARTICULAR

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TRANSVERSE PROCESS:
 Extends posterolaterally

for the junction between
pedicle and laminae on
each side (left and right)

ONE SPINOUS PROCESS:
 A single spinous process

projects posteriorly from
the junction of the laminae.
 These 3 processes serve

as points of attachment for
muscles.
ARTICULAR PROCESSES (Zygapophyses):

 At the junction between pedicles and lamina meet, also
projecting superior and inferior articular process.

 At the end of these processes – concave surface (facet)

 IAP of vertebrae above articulates with SAP of vertebrae
below – zygapophysial joints (Facet Joints).

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 INTERVERTEBRAL DISCS
 Between the bodies of the
adjacent vertebrae C2 to
the sacrum.

 Each disc forms a
cartilaginous joint to allow
slight movement of the
vertebrae, and acts as a
ligament to hold the
vertebrae together.

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Each vertebral discs consist of:
 an outer fibrous ring consisting of

fibrocartilage called called annulus
fibrosus (annalus = ringlike).

 Innersoft, pulpy, highly elastic substance
called the nucleus pulposus (pulposus =
pulplike), which is acts as a shock
absorber, absorbing the impact of the
body's daily activities and keeping the two
vertebrae separated
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 Nucleus pulposus hardens and
less elastic with age.
 Narrowing of discs and
compression of the vertebrae
results in a decrease in the
height with age.
 A tear can occur within the
annulus fibrosus (ring) and cause
the nucleus pulposus may track
into the vertebral canal or
intervertebral foramen to impinge
on neural structures – herniation
IV discs. (prolapsed/slipped disc)

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1. Binds the vertebrae and
forms a strong joint
2. Permits various
movements of the
vertebral column
3. Absorbs vertical shock
and avoid friction during
intervertebral joints
movements.

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 VERTEBRAL FORAMEN

 Vertebral foramen
contains : spinal cord
and its roots, spinal
meninges, ASA and
PSA, Venous Plexus, fat

 The vertebral foramina
of all vertebrae form the
vertebral (spinal) canal.
 Abnormalities of the Vertebral canal
Spina bifida (congenital)
 Two sides of vertebral arch fail to fuse during development,

resulting in an open vertebral canal (cleft)
 Absence of spinous process

 Ususally in lumbosacral region

 Protrusion of spinal meninges (out pouch) and may contain CSF –

meningocele
 Protrusion of part of spinal cord and meninges -myelomeningocele

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 INTERVERTEBRAL FORAMEN
 Between every pair of vertebrae are two apertures, the
intervertebral foramen (formed by inferior and superior
vertebral notches).
 Also called neural foramen.
 Passageway for nerve roots.

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 Cervical Vertebrae
 C1-C7 (formed framework of the neck)
 C1, C2 and C7 – atypical (looks weird!!!)

 C3-C6 – have similarities – typical
◦ Smaller bodies, short
◦ Larger vertebral arch – hence larger vertebral foramen
(cervical enlargement)
◦ Transverse process consist transverse foramina @ foramen
transversarium (vertebral artery)
◦ Spinous process short and bifid

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C1 – Atlas
 Ring shaped

 Lack of body (fused with body

of C2)
 Composed by lateral masses

interconnected by an anterior
and posterior arch
 Each lateral masses consist

SAFacet which artculates with
occipital condyle – AOJ
 Also consist IAF which

articulates with SAF of C2 –
AAJ (C1/C2)
 anterior arch of C1 articulates

with dens of C2 – support via
transverse ligament

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C2 (Axis)
 Structure similar with typical cervical vertebrae

but
 Have peg like processes called dens or odontoid

process
 Dens projecting upwards from body of C2

toward vertebral foramen of C1 which
articulates with anterior arch of C1 (AAJ).

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 Thoracic Vertebrae (T1-
T12)
 Typical thoracic vertebrae
◦ Fairly large size of body
◦ Long spinous process
and pointed and angled
downward
◦ Vertebral foramen
generally circular
◦ Transverse process
projecting
posterolaterally.
◦ Have 3 pairs of facets –
attachment for the ribs
(2 pairs of demifacets at
the body and 1 pair of
facet at the transverse
process.

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 T1 has a superior facet and inferior demifacets for head of ribs.
 T2-T8 have superior and inferior demifacets for head of ribs.
 T9 has a superior demifacets
 T10-T12 have superior facet.
 Movements of the thoracic vertebrae are limited by thin
intervetebral disc and by attachment of the ribs to the sternum
(sternocostal jnt).

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 Lumbar Vertebrae (L1-L5)
 The largest and strongest –
weight bearing
 Thickest body
 Spinous process is thickest and
broad and project posteriorly –
attachment for the large back
muscles
 Superior articular process
facing medially, inferior
articular process facing
laterally.

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 Sacrum (S1-S5)
 Inverted triangular in-shaped
 Fusion of 5 sacral vertebrae – fusion started 16-18 y’old and
completed at 30.
 Sacrum serve strong foundation for the pelvic girdle attachment
(sacroiliac joint)
 Formed posterior wall of the lower abd cavity and pelvic cavity.
 At the superior (base), consist SAP which articulates with IAP of
L5 – LSJ (L5/S1)

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 anterior surface, consist
transverse ridge, mark the
joining of bodies
 Lateral surface – smooth
surface called ala
 Anterior ridge of sacral body
which projecting forward –
promontory
 Consist 4 pairs of anterior
sacral foramina – routes for
anterior rami of sacral spinal
nerve

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 At the posterior surface consist
posterior sacral foramina –
routes for posterior rami of
sacaral spinal nerves.
 Sacral canal- continuation of
vertebral canal from L5 (routes
for roots of sacral and
coccygeal spinal nerves), and
terminates as a opening called
sacral hiatus (routes for S5 and
co1 spinal nerve).
 On either side of the sacral
hiatus, consist sacral cornua.
 Median sacral crest – fusion of
spinous process
 Lateral sacral crest – fusion of
transverse process

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Coccyx vertebrae (co1-co4)
 Inverted Triangular in shaped
 Fusion of 4 coccyx vertebrae
 Dorsal surface, 2 projection called coccygeal cornua
– attachment for sacrococcygeal ligament and also
attachment for pelvic floor muscles (levator ani)

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 Flexion (to bend)
 Extension (to stretch out)
 Hyperextension
 Lateral flexion
 Rotation – right and left rotate

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Cervical Motion
 Flexion: C1 (atlas): allows for forward and
backward motion of the head.
 Extension: Straightening the joint, moving the

spine back
 Lateral Flexion (Abduction): moving the spine to

the side (left or right); the neck moves toward the
shoulder.
 Rotation: C2 (axis) for rotation making a "no"

motion. Turning the spine to the side (right or left);
the neck turns toward the shoulder.

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 Flexion and extension

Rotation

Lateral flexion 55
Thoracic, Lumbar

 Flexion: moving the spine forward, the thorax
moves toward the pelvis.
 Extension / Hyperextension: Straightening the

joint by moving the spine back, the thorax moves
away from the pelvis.
 Lateral Flexion (Abduction): moving the spine to

the side (left or right), the thorax moves to the side
toward the pelvis.
 Rotation: turning the spine to the side (right or

left); the thorax rotates to one side.

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Rotation Lateral flexion
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 Hyperextension is a straightening movement
that goes beyond the normal, healthy boundaries
of the joint

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