Anatomy of the Spine #2 PDF

Summary

This document discusses the components of the intervertebral disc (IV disc), including the annulus fibrosis and nucleus pulposus, and describes the process of disc degeneration. It also explains forces produced during spinal movements and identifies the attachments, actions, and innervation of deeper back muscles, along with the suboccipital triangle's borders and content. Finally, it covers general signs/symptoms of low back pathology.

Full Transcript

Functional Human
Anatomy
Spine #2
D R. D O N AL M U R R AY PH D
H E AV Y C O N T R IBU T I O N S BY: D R. E LLE N C O S T E LLO,
PT, PH D
By the end of the session:
Describe the components of the IV disc
Describe the process associated with
degeneration of the IV disc
Explain what forces are produced during
spinal movements
Identify the attachments, action and
innervation associated with the deeper back
muscles
Identify the borders & content of suboccipital
triangle
Explain general signs/symptoms associated
with identified low back related pathology
Cervical X-Ray
Cervical X-Ray
Intervertebral Disc
Found between adjacent vertebral
bodies
Shape corresponds to vertebral
body shape
Generally thicker ant than post in C
& L region
Disc adherent to thin layers of
hyaline cartilage which cover the
surfaces of the body
Essentially avascular
b/c sustained pressure ( if there was
blood supply) would impede blood flow
Rec’s nutrition by diffusion through
the spongy bone of adj vertebra;
requires motion to move fluid
Intervertebral Disc cont.
Each disc consists of: Annulus Fibrosis
 Annulus Fibrosis Nucleus
 AF=inner layer of fibrocartilage; Pulposus
outer layer of collagenous fibers
 Annular fibers-12-18 concentrically
arranged rings running obliquely
 Many mechanoreceptor & sensory
receptors in outer layer
 Peripheral aspect of annulus
receives some blood supply from
arteries supplying boney structures
(e.g. vertebral bodies)
 function-contains nucleus; permit
deformation; resist tensile forces
 Nucleus
Pulposus

Annulus Fibrosis
Anterior
Intervertebral Disc
Nucleus Pulposus (inner core)
 high percentage of H2O
 composed of collagen within a
mucoprotein jell; rich in hydrophilic
Glycosaminoglycans (GAGS)
 lies slightly posterior in the disc
Disc function=redistribute forces
“Herniated Disc”
 Protrusion : mildest form: annular fibers
still intact
 Prolapsed : nuclear material reaches
edge of disc and creates a bulge
 Extrusion: annual fibers rupture; some
nuclear material escapes
 Sequestration: nuclear material free to
roam
Disc Degeneration
Movements of Spinal Column
In part guided and directed by the facet joints
Facet joints innervated (sensory) by branches of dorsal rami

Flexion
ant disc compression
tightening of PLL
movement between inf artic process of vertebra
above with sup articulating process of vertebra
below
Extension
post disc compression
tautness of ALL
approximation of spinous processes
Movements of the Spinal Column
Sidebending
lat disc compression
Consensus clinically although literature is not
overwhelming (Cook et al, 2006; see notes)
Facet joint: SB associated with rotation (aka
coupled motion behavior)
Cervical region-SB & rotation occur to same side
Thoracic & Lumbar region-SB & rotation to opposite
sides

Rotation
Creates a shear stress on the IV disc
Load and movement change the shape of
the nucleus pulposus
Thoracolumbar fascia (or lumbar fascia)
Covers deep muscles of the
back
In thoracic region it is a thin
covering for vertebral
extensors; attached medially to
T spines & laterally to costal
angles
At lumbar levels it is trilaminar
 post layer attached to L & S
spines & supraspinous ligaments
 middle layer attached to tips of L
transverse processes &
ligaments, to iliac crest & 12th
ribs
 ant layer-covers quadratus
lumborum m.
 Anterior
Layer TL
fascia

Middle Layer
TL fascia

Post layer TL
fascia
Muscles of the back
The superficial extrinsic back muscles
(trapezius, latissimus dorsi, levator
scapulae, and rhomboids)
The intermediate extrinsic back muscles
(serratus posterior) are thin, weak
muscles, commonly designated as
superficial resp
The intrinsic back muscles (muscles of
back proper, deep back muscles) are
innervated by the posterior rami of
spinal nerves and act to maintain
posture and control movements of the
vertebral columniratory muscles
Serratus Posterior Ms.
(Intermediate Layer of Muscles)
Serratus Posterior superior
 From nuchal ligament, spinous
processes of CV7 to TV3
 To the superior borders of ribs 2-4
 Axn: Elevate rib
 Innervation: Intercostal nerves T2-
T5
Serratus Posterior Inferior
 Spinous processes of TV11 to LV2
 To inferior borders of ribs 8-12 near
angles
 Axn: Depress ribs
 Innervation: Intercostal nerves T9-
T11 and subcostal nerve
 Serratus posterior
superior muscle

Thoracolumbar
fascia
Deep Muscles of the Back Intrinsic
Complex organization from pelvis to
skull
Includes the following:
 extensors & rotators of head & neck

 (splenius capitis & splenius cervicis)
 short segmental muscles
 (interspinales & intertransversarii)
 spinal extensors: erector spinae
 (iliocostalis, longissimus, spinalis)
 & spinal rotators (transversospinales)
 (semispinalis, rotatores, & multifidi)
Complex organization from
pelvis to skull
includes the following:

extensors & rotator of head &
neck (splenius capitis &
cervicis)
Erector
short segmental muscles spinae
(interspinales & muscle
intertransversarii) group

spinal extensors: erector spinae
(iliocostalis, longissimus,
spinalis)

& spinal rotators
(transversospinales)
(semispinalis, rotatores, &
multifidi)
Erector Spinae (aka sacrospinalis)

Common distal attachment
 Arises from a broad, thick tendon
attached to the median sacral crest
 Spines of TV11,12 and all LV,
 and their supraspinous ligaments
 The medial, dorsal ilium &
lateral aspect of sacral crests
Erector Spinae cont.
 Subdivides into the following:
 (iliocostalis, longissimus, spinalis groups)
 Use common distal attachment for iliocostalis lumborum….. To the proximal
attachment as follows…
 Iliocostalis Lumborum-to the inferior borders of the lower 6 or 7 costal
angles
 Iliocostalis Thoracis- from the upper borders of the lower costal angles;
ascends to the sup borders of the upper costal angles & the back of the 7th
C transverse process
 Iliocostalis Cervicis-ascends from the 3rd-6th costal angles to the post
tubercles of the 4th to 6th C transverse process
 Iliocostalis nerve supply-dorsal rami of C, T & upper L nerves
 Iliocostalis axn-extension & lateral flexion of vertebral column
Common
distal
attachment
Ilocostalis: costal
angles a major
attachment
Longissimus Group
Longissimus thoracis-to the tips of all thoracic transverse
processes & the lower 9 or 10 ribs between their tubercles &
angles
Longissimus cervicis-from long tendons attached from TV1-TV4 or
T5 transverse processes to tendons attached to CV2-CV6 transverse
process post tubercles
Longissimus capitis-from tendons of TV1-TV4 or T5 transverse
processes & lower 3 or 4 cervical articular processes to the post
margin of mastoid process
Longissimus nerve supply-dorsal rami of lower C, T & L spinal
nerves
Action-thoracis & cervicis-extend & SB vertebral column; capitis-ext
the head & rot face to the same side
Spinalis Group
Spinalis thoracis-from TV11-LV2 spines
to TV4 - TV8 spines
Spinalis cervicis-(inconstant) from lower
ligamentum nuchae, CV7 spine to spine
of CV2
Spinalis capitis-blended with
semispinalis capitis
Spinalis nerve supply-dorsal rami of
lower Cervical & Thoracic spinal nerves
Spinalis Axn-ext of vertebral column
Transversospinalis Muscle Group
Ascends obliquely & medially from transverse processes
to adjacent vertebral spines

 Transversospinalis includes:
 semispinalis thoracis, cervicis & capitis
 multifidi
 rotatores lumborum, thoracis & cervicis
 Nerve Supply-dorsal rami C & T
spinal nerves
 Action:
 semispinalis thoracis & cervicis-ext T &
C vertebral regions, rot head
contralaterally
 capitis-ext the head, minimal rotation
Semispinalis
cervicis
Rotatores
thoracis
Transversospinalis Group cont.
 Multifidi-found in the groove lat to
the vertebral spines from sacrum to
axis; ascend medially the whole
length of spine to the adj 3rd or 4th
vertebrae above
 Rotatores Cervicis, Thoracis,
Lumborum-irregular, variable ms
with similar attachments as the
multifidi
 Interspinales-short paired ms
between adj vertebral spines
 Intertransversarii-small ms between
transverse processes
 AXN-short dorsal ms are probably
postural, steadying adjoining
vertebrae & controlling them during
motion of the column
Suboccipital Triangle
Subocciptal Triangle
Borders Rectus capitis
posterior minor ms.

 Rectus capitis posterior major and
minor
 Superior oblique
 Inferior oblique
 AA membrane and post arch of
CV1 (floor)
Contents
 Vertebral artery and suboccipital
nerve (dorsal ramus of C1)
 Suboccipital nerve innervates all 4
muscles of triangle
Epidural Anesthesia
Regional anesthesia resulting
from injection of an anesthetic
into the epidural space of the
spinal cord
Results in temporary anesthesia
to abdominal and genital region
and lower extremities
Insertion usually LV3-4 or LV4-5
interspace… why?
Osteoporosis Spine
Decreased bone mass & microdamage to bone structure: bone now susceptible to
fracture
Primary: affects males and females:
 Two types:
 Postmenopausal/estrogen deficient
 Age related
 50% of females over 50 will experience fragility fracture
 25% of males over 50 will experience fragility fracture

Secondary: related to medication side effects or other diseases
 Prolonged corticosteroid, heparin, anticonvulsant therapy
Typical fracture sites: vertebral bodies, hip, ribs, radius, and femur (in that order)
Vertebral compression fractures symptoms: severe back pain at site of fracture
which may radiate, posture change, loss of height, functional impairment,
disability, decreased QOL
Compression Fracture
Spinal Stenosis
General term referring to a narrowing
of the vertebral foramen
 usually secondary to intervertebral
disc degeneration causing
encroachment of the foramen or
 Osteophyte formation on vertebral
bodies or
 Calcification of ligamentous
material
Can result in compression of neural
tissue resulting in sensory and motor
dysfunction
Common in those > 65
Spinal Stenosis
Spondylolysis
(posterior arch defect)

Interruption of the pars
interarticularis of the vertebra
causing a unilateral or bilateral
stress fracture
Pars=portion of the posterior arch between
sup & inf artic process

Most likely an acquired
abnormality due to abnormal
vertebral stress between infancy
and early adulthood
Diff Dx: for adolescent/teenager
active in sports with LBP
Spondylolisthesis
Spondylolysis can persist &
develop into
Spondylolisthesis
One vertebral body slips
forward in relation to an
adjacent vertebra
Most common LV4-5 & LV5-
S1 interspace
Spondylolisthesis is almost
never due to trauma;
usually 2’ overuse in young
athletes
Radiograph: ID Scottie dog
with slippage at neck
Let’s Recap
Can you describe the components of an IV disc and disc function?
How does the disc differ in shape as you move from the cervical region
down to the lumbar region?
Can you describe what happens to the ligaments and the IV discs during
spinal flexion, extension, SB and rotation?
Can you ID and provide general muscle attachments and innervation for
the intermediate and deep muscles of the back?
Can you ID and describe innervation for muscles of the suboccipital
triangle?
Can you describe the general pathology associated with osteoporosis,
spinal stenosis, spondylolysis and spondylolisthesis?