Vertebral Column - The Axial Skeleton PDF

Summary

This document appears to be a lecture or presentation about the vertebral column and the axial skeleton. It contains information about different regions of the axial skeleton, such as the cervical vertebrae, thoracic vertebrae, lumbar vertebrae, sacrum, and coccyx. It also discusses ligaments, intervertebral discs, herniated discs, and other relevant topics within vertebrate anatomy.

Full Transcript

Vertebral Column
The Axial Skeleton
The Axial Skeleton - longitudinal
axis

Supports and protects organs
in body cavities
Attaches to muscles of:
– head, neck, and trunk
– respiration
– appendicular skeleton
 Bones of the Axial Skeleton
The skull: The thoracic cage:
– 8 cranial bones – 24 ribs
– 14 facial bones – the sternum

Bones associated with the skull:
– 6 auditory ossicles
– the hyoid bone

The vertebral column:
– 24 vertebrae
– the sacrum
– the coccyx
 The Vertebral Column
Formed from 26 bones in the adult
Transmits weight of trunk to the lower
limbs
Surrounds and protects the spinal cord
Serves as attachment sites for muscles
of the neck and back
Held in place by ligaments
– Anterior and posterior longitudinal
ligaments
– Ligamentum flavum
Regions of the
vertebral
column
 Regions and Normal
Curvatures
Vertebral column is about 70 cm (28
inches)
Vertebral column is divided into five
major regions
– Cervical vertebrae
7 vertebrae of the neck
region
– Thoracic vertebrae
12 vertebrae of the thoracic
region
– Lumbar vertebrae
5 vertebrae of the lower back
– Sacrum
Inferior to lumbar vertebrae
Articulates with coxal bones
– Coccyx
Most inferior region of the
vertebral column
Regions and Normal
Curvatures

Four distinct curvatures give
vertebral column an S-shape
– Cervical and lumbar
curvature
Are concave posteriorly
– Thoracic and sacral
curvatures
Are convex posteriorly
Curvatures increase the
resilience of the spine
The Vertebral
Column
Segments & Curvatures:
Cervical- lordosis
Thoracic- kyphosis
Lumbar- lordosis
Sacral- kyphosis
Ligaments and Intervertebral
Discs
 Intervertebral Discs
Cushion-like pads between vertebrae
Act as shock absorbers
Compose about 25% of height of vertebral
column
Composed of
– Nucleus pulposus and annulus fibrosis
Nucleus pulposus
– The gelatinous inner sphere of intervertebral disc
– Enables spine to absorb compressive stresses
Annulus fibrosis
– An outer collar of ligaments and fibrocartilage
– Contains the nucleus pulposus
– Functions to bind vertebrae together, resist tension on
the spine, and absorb compressive forces
 Herniated Disc
May be caused by
trauma to the spine
Aging is also a
contributing factor
– Nucleus pulposes
loses cushioning
properties
– Anulus fibrosis
weakens
 General Structure of Vertebrae

3 Functions of Vertebrae
1. Protection
2. Rigidity/Balance
3. Anchor Muscles
Vertebrae
 Regions Vertebral
Characteristics
Specific regions of the spine perform
specific functions
Types of movement that occur
between vertebrae
– Flexion and extension
– Lateral flexion
– Rotation in the long axis
 Regional variations of
vertebrae
Cervical vertebrae
Vertebrae Body: small
Vertebral foramen:
larger and triangular
Spinous processes:
short and bifid in C3 to
C5, long in C6,and longer
in C7
Transverse processes:
short and bifid,
transverse foramen
Articular processes:
horizontal
 Cervical Vertebrae
Seven cervical vertebrae (C1 – C7) – smallest and
lightest vertebrae
C3 – C7 are typical cervical vertebrae
– Body is wider laterally
– Spinous processes are short and bifid (except
C7)
– Vertebral foramen are large and triangular
– Transverse processes contain transverse
foramina
– Superior articular facets face superoposteriorly
cervical vertebrae
cervical vertebrae
 The Atlas
C1 is termed the atlas because it
supports the globe of the head.
it has no spinous process, is ring-
like, and consists of an anterior
and a posterior arch and two
lateral masses.
anterior arch: its anterior
surface is convex, and presents at
its center the anterior tubercle
for the attachment of the Longus
colli muscles; posteriorly it is
concave, and marked by a
smooth, oval or circular facet
(fovea dentis), for articulation
with the odontoid process (dens)
of the axis.
upper and lower borders
respectively give attachment to
the anterior atlantooccipital
membrane and the anterior
atlantoaxial ligament;
 The Atlas
posterior arch: ends behind in
the posterior tubercle, which is
the rudiment of a spinous
process;
The posterior part of the arch
presents above and behind a
rounded edge for the attachment
of the posterior atlantoöccipital
membrane;
immediately behind each superior
articular process is a groove
(sulcus arteriæ vertebralis);
On the under surface of the
posterior arch, behind the
articular facets, are two shallow
grooves, the inferior vertebral
notches.
The lower border gives
attachment to the posterior
atlantoaxial ligament, which
connects it with the axis.
The Atlas
 The Atlas
lateral masses:
Each carries two articular
facets, a superior and an
inferior.
superior facets: are large size,
oval, concave, and approach
each other in front, but diverge
behind; each forming a cup for
the corresponding condyle of
the occipital bone.
inferior articular facets: circular
in form, flattened or slightly
convex , articulating with the
axis, and permitting the
rotatory movements of the
head.
Just below the medial margin of
each superior facet is a small
tubercle, for the attachment of
the transverse atlantal ligament
which stretches across the ring
of the atlas and divides the
vertebral foramen into two
unequal parts—the anterior or
smaller receiving the odontoid
process of the axis;
 The Atlas
transverse processes
are large;
they serve for the
attachment of muscles
which assist in rotating
the head.
are long, and their
anterior and posterior
tubercles are fused into
one mass;
the foramen
transversum is directed
from below, upward and
backward.
 The Axis
forms the pivot upon
which the first vertebra,
carrying the head;
distinctive characteristic
of this bone is the strong
odontoid process which
rises perpendicularly from
the upper surface of the
body.
The body is deeper in
front than behind, and
prolonged downward
anteriorly;
 The Axis
The dens or odontoid
process: on its anterior surface
is an oval or nearly circular facet
for articulation with that on the
anterior arch of the atlas.
On the back of the neck, and
frequently extending on to its
lateral surfaces, is a shallow
groove for the transverse
atlantal ligament which retains
the process in position.
The apex is pointed, and gives
attachment to the apical
odontoid ligament;
below the apex the process
presents on either side a rough
impression for the attachment of
the alar ligament;

The Axis
pedicles are broad and strong,
especially in front;
laminæ are thick and strong, and the
vertebral foramen large, but smaller
than that of the atlas.
The transverse processes are very
small, and each ends in a single
tubercle; each is perforated by the
foramen transversarium, which is
directed obliquely upward and
lateralward.
superior articular surfaces are round,
slightly convex, directed upward and
lateralward, and are supported on the
body, pedicles, and transverse
processes.
inferior articular surfaces have the
same direction as those of the other
cervical vertebræ.
superior vertebral notches are very
shallow, and lie behind the articular
processes; the inferior lie in front of the
articular processes, as in the other
cervical vertebræ.
spinous process is large, very strong,
deeply channelled on its under surface,
and presents a bifid, tuberculated
extremity.
Cervical vertebrae
C1 (Atlas): note articular facets (2) for occipital
condyles,vertebral foramen, and vertebral arch (4)
 1. Odontoid Process (Dens)
2. Superior Articular Surface
3. Transverse foramen
4. Spinous process
5. Transverse process
6. Vertebral (spinal) foramen
7. Body

C2 (Axis): note the dens (1), vertebral foramen (6),
& vertebral arch (4). Dens is ‘post’ around which
atlas rotates (to turn your head).
anterior view (fig 2)
posterior view (fig 3)

Atlas & axis together:
Note dens (c) & articular facets (d) of atlas.
 Seventh Cervical Vertebra:
most distinctive characteristic
of this vertebra is the
existence of a long and
prominent spinous process,
hence the name vertebra
prominens; process is thick,
nearly horizontal in direction,
not bifurcated, but terminating
in a tubercle to which the
lower end of the ligamentum
nuchæ is attached.
transverse processes are of
considerable size, their
posterior roots are large and
prominent, while the anterior
are small and faintly marked;
the upper surface of each has
usually a shallow sulcus for
the eighth spinal nerve, and
its extremity seldom presents
more than a trace of
bifurcation.
foramen transversarium may
be as large as that in the other
cervical vertebræ, but is
generally smaller on one or
both sides;
 thoracic
vertebrae
Thoracic Vertebrae (T1 – T12)
All articulate with ribs
Have heart-shaped bodies from the superior view
Each side of the body of T1 – T10 bears demifacts for articulation
with ribs
– T has a full facet for the first rib
1
– T – T only have a single facet
10 12
Vertebrae Body ： heart-shape, superior and inferior
costal fovea
Vertebral foramen ： smaller, rounder
Spinous processes ： long, point obliquely downward
Transverse processes ： transverse costal fovea
Articular processes: coronal
Spinous processes are long and point inferiorly
Vertebral foramen are circular
Transverse processes articulate with tubercles of ribs
Superior articular facets point posteriorly
Inferior articular processes point anteriorly
– Allows rotation and prevents flexion and extension
 Thoracic vertebrae
Vertebrae Body ：
heart-shape, superior and
inferior costal fovea
Vertebral foramen ：
smaller, rounder
Spinous processes ：
long, point obliquely downward
Transverse processes ：
transverse costal fovea
Articular processes: coronal
 First Thoracic Vertebra has, on either side of the body, an entire
articular facet for the head of the first rib, and a demi-facet for the upper half
of the head of the second rib.
superior articular surfaces are directed upward and backward;
the spinous process is thick, long, and almost horizontal.
transverse processes are long, and the upper vertebral notches are deeper
than those of the other thoracic vertebræ.

Ninth Thoracic Vertebra may have no demi-facets below. In some subjects
however, it has two demi-facets on either side; when this occurs the tenth has
only demi-facets at the upper part.

Tenth Thoracic Vertebra has an entire articular facet on either side, which is
placed partly on the lateral surface of the pedicle.

Eleventh Thoracic Vertebra the body approaches in its form and size to
that of the lumbar vertebræ. The articular facets for the heads of the ribs are
of large size, and placed chiefly on the pedicles, which are thicker and stronger
in this and the next vertebra than in any other part of the thoracic region. The
spinous process is short, and nearly horizontal in direction. The transverse
processes are very short, tuberculated at their extremities, and have no
articular facets;

Twelfth Thoracic Vertebra has the same general characteristics as the
eleventh, but may be distinguished from it by its inferior articular surfaces
being convex and directed lateralward, like those of the lumbar vertebræ; and
by each transverse process being subdivided into three elevations, the
superior, inferior, and lateral tubercles: the superior and inferior correspond to
the mammillary and accessory processes of the lumbar vertebræ.
Thoracic
vertebra
Thoracic vertebra
 Lumbar Vertebrae (L1 – L5)
Bodies are thick and robust
Transverse processes are thin and
tapered
Spinous processes are thick, blunt,
and point posteriorly
Vertebral foramina are triangular
Superior and inferior articular
facets directly medially
Allows flexion and extension –
rotation prevented
lumbar vertebrae
Lumbar Vertebrae
Lumbar Vertebrae

Figure 7.17c
 Lumbar vertebrae
Vertebrae Body ：
larger, kidney-shape
Vertebral foramen:
larger and triangular
Spinous processes:
projects horizontally
Transverse
processes:
long
Articular
processes: sagittal
Lumbar vertebra
Herniated disc impinging
on a spinal nerve
Comparing Vertebrae

Table 7–2
 Sacrum (S1 – S5)
Shapes the posterior wall of pelvis
Formed from 5 fused vertebrae
Superior surface articulates with L5
Inferiorly articulates with coccyx
Sacral promontory
– Where the first sacral vertebrae bulges into
pelvic cavity
Center of gravity is 1 cm posterior to sacral
promontory
 Sacrum
Anterior surface:
promontory, anterior sacral
foramina (four pairs)
Posterior surface:
median sacral crest,
posterior sacral foramina
(four pairs), sacral hiatus,
sacral cornu
Lateral part:
auricular surface, sacral
tuberosity
Sacral foramina
– Ventral foramina
Passage for ventral rami of
sacral spinal nerves
– Dorsal foramina
Passage for dorsal rami of
sacral spinal nerves
Sacrum
 Coccyx
Is the “tailbone”
Formed from 3 – 5 fused vertebrae
Offers only slight support to pelvic
organs
 The Sacrum and Coccyx
Characteristics - sacrum:
– is curved, more in
males than in females
– protects reproductive,
urinary, and digestive
organs
– attaches-the axial
skeleton to pelvic – The adult sacrum:
girdle of appendicular consists of 5 fused sacral
skeleton vertebrae
– broad muscles that fuses between puberty
move the thigh and ages 25–30
leaving transverse lines
– Sacral canal:
replaces the vertebral canal
– Sacral cornua:
horn-shaped
formed by laminae of the 5th sacral vertebra which do not
meet at midline
– Sacral hiatus:
opening at the
inferior end of the
sacral canal
formed by ridges
of sacral cornua
covered by
connective tissues
 – Median sacral crest:
fused spinous processes
– Lateral sacral crest:
attach to muscles of lower back and hip
– Auricular surface:
articulates with pelvic girdle (sacroiliac joint)
– Sacral tuberosity:
attaches ligaments of the sacroiliac joint
 4 Regions of the Sacrum
– Base - the broad superior surface
– Ala - wings at either side of the base to attach
muscles

– Sacral promontory - at the center of the base
– Apex - the narrow inferior portion articulates with the
coccyx
 Characteristics - coccyx:
– attaches ligaments and a constricting muscle of the
anus
– mature coccyx-consists of 3 to 5 fused coccygeal
vertebrae

– first 2 coccygeal vertebrae-have transverse processes and
have unfused vertebral arches
– coccygeal cornua - formed by laminae of 1st coccygeal
vertebra
 Cornua

Sacral hiatus

palpation

Transsacral (epidural) anasthesia
Segments of spinal
cord & spinal nerves:
Cervical (C1 – C8)

Thoracic (T1- T12)

Lumbar (L1- L5)

Sacral (S1- S5)
1. Vertebral artery
2. Vertebral veins
3. Posterior longitudinal ligament
4. 3rd cervical spinal ganglion
5. Ventral (anterior) median fissure with anterior spinal
artery
6. Subdural space 7. Denticulate ligament
8. Dorsal rootlets of 3rd cervical nerve
9. Arachnoid trabeculae 10. Arachnoid mater
11. Dura mater 12. Epidural fat
 Cauda equina

9. Femoral nerve 10. 5th lumbar spinal nerve ganglion

11. Obturator nerve 12. 1st sacral dorsal foramen

13. Coccygeal nerve 14.Gluteus maximus muscle

15. Termination of filum terminale
Lumbar puncture
= spinal tap
Herniated
disc
impinging
on the
spinal
cord
 The Thoracic Cage
The skeleton of the
chest-supports the
thoracic cavity
Consists of:
– thoracic vertebrae
– ribs
– sternum
(breastbone)

Rib Cage - formed
of ribs and sternum
 Bony Thorax
Forms the framework of the chest
Components of the bony thorax
– Thoracic vertebrae – posteriorly
– Ribs – laterally
– Sternum and costal cartilage – anteriorly
Protects thoracic organs
Supports shoulder girdle and upper limbs
Provides attachment sites for muscles
The Bony Thorax
Parts of the
sternum:
Manubrium
Body
Xiphoid
 The Sternum
The sternum - a flat bone in the midline of the thoracic
wall
3 parts:
– 1- manubrium:
superior portion of sternum
broad, triangular shape
articulates with collarbones
(clavicles) & cartilages of 1st
rib pair
has a jugular notch between
clavicular articulations

– 2- sternal body:
tongue-shaped
attaches to the manubrium & costal
cartilages of ribs 2–7
 – 3 - xiphoid
process:
smallest part of
the sternum
attaches to the
sternal body &
diaphragm and
rectus
abdominis
muscles

– Xiphoid process:
last part of sternum to
fuse
can easily be broken
away
Development
– Sternum
consists of 4 unfused bones
completes fusion about age 25
 Sternum
Anatomical landmarks
– Jugular notch
Central indentation at superior border of
the manubrium
– Sternal angle
A horizontal ridge where the manubrium
joins the body
Formed from three sections
– Manubrium – superior section
Articulates with medial end of clavicles
– Body – bulk of sternum
Sides are notched at articulations for
costal cartilage of ribs 2–7
– Xiphoid process – inferior end of
sternum
Ossifies around age 40
 Sternum
Manubrium sterni :
jugular notch,
clavicular notch
Body of sternum,
Xiphoid process
★ Sternal angle :
the junction of
manubrium and body,
which connects 2nd
costal cartilage laterally,
and lies opposite lower
border of T4 posteriorly
 ★ Sternal angle

which connects
2nd costal
cartilage laterally
lies opposite
lower border of
T4 posteriorly
The Bony Thorax
 Characteristics of
“typical” rib
Posterior end:
costal head,
costal neck,
costal tubercle
Shaft: costal
angle, costal
groove
Anterior end
 Functions
The Ribs
– are flexible
– are mobile
– can absorb shock

Rib movements
(breathing):
– affect width and depth
of thoracic cage
– changing its volume

Ribs (costae)-12 pairs of long, curved, flat bones
extending from the thoracic vertebrae
 Ribs 1–7 (true ribs)
– vertebrosternal ribs
– connected to the sternum by costal cartilages

Ribs 8–12 (false ribs):
– do not attach directly to the sternum
– Vertebrochondral ribs (ribs 8–10):
fuse together
merge with cartilage before reaching the sternum
– Floating or vertebral ribs (ribs 11–12):
connect only to the vertebrae
have no connection with the sternum
 Structures of the Ribs
– The head (capitulum):
at the vertebral end of the rib
has superior and inferior articular
facets

– The neck:
the short area between the
head and the tubercle

– The tubercular body
– The tubercle (tuberculum): (shaft):
a small dorsal elevation attaches muscles of the
has an auricular facet that contacts the pectoral girdle and
trunk
facet of its thoracic vertebra (at T1–T10
attaches to the
only)
intercostal muscles
which move the ribs
Ribs

Figure 7.20a
Ribs
Rib Cage
Articulations
of ribs
 Atypical rib
First rib: is the most curved
and usually the shortest of all
the ribs; it is broad and flat, its
surfaces looking upward and
downward;
head is small, rounded, and
possesses only a single articular
facet, for articulation with the
body of the first thoracic
vertebra;
upper surface: tubercle for
scalenus anterior, sulcus for
subclavian artery and vein;
is no angle;
under surface is smooth, and
destitute of a costal groove;
 Atypical rib
Second Rib:
is much longer than the first,
but has a very similar
curvature;
angle is slight, and situated
close to the tubercle;
Body: external surface is
convex, and looks upward and
a little outward; near the
middle of it is a rough
eminence for the origin of
Serratus anterior; behind and
above this is attached the
Scalenus posterior;
internal surface, smooth,
and concave, is directed
downward and a little inward:
on its posterior part there is a
short costal groove.
 Atypical rib

11th and 12th ribs
lack costal necks,
tubercles and
angles;
have each a single
articular facet on
the head;
Avoiding the neurovascular
bundle in a thoracentesis
procedure (chest tube)
Articulations of Ribs and Vertebrae
Functions
– Protects organs of
the thoracic
cavity-heart,
lungs, and
thymus
– Attaches muscles:
for respiration
of the vertebral
column
of the pectoral girdle
of the upper limbs
 The Axial Skeleton
Throughout Life

Membrane bones begin to ossify in
second month of development
Bone tissue grows outward from
ossification centers
Fontanels
– Unossified remnants of membranes
 Disorders of the Axial
Skeleton
Abnormal spinal curvatures
– Scoliosis – an abnormal lateral curvature
– Kyphosis – an exaggerated thoracic curvature
– Lordosis – an accentuated lumbar curvature –
“swayback”
Stenosis of the lumbar spine
– A narrowing of the vertebral canal
 Scoliosis
Spina bifida Pathologies
Kyphosis