Difference between revisions of "Spinal Column - Anatomy & Physiology"

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[[Image:Anatomy_and_physiology_of_animals_Regions_of_a_vertebral_column.jpg|thumb|right|250px|Divisions of the spinal cord- Copyright Ruth Lawson Otago Polytechnic ]]
 
[[Image:Anatomy_and_physiology_of_animals_Regions_of_a_vertebral_column.jpg|thumb|right|250px|Divisions of the spinal cord- Copyright Ruth Lawson Otago Polytechnic ]]
  

Revision as of 22:09, 2 September 2008

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Divisions of the spinal cord- Copyright Ruth Lawson Otago Polytechnic


Divisions and Landmarks

The common pattern of canine landmarks, according to Dyce, Sack, et al, can be quantified as such:

Spinal Landmarks - Copyright Becky Pocock 2008

Vertebrae and Joints

Cervical Vertebra - Wikimedia Commons 2008
  • Vertebrae consist of a body which encloses the vertebral foramen (through which the spinal cord and meninges run), a spinous process, and a transverse process, as well as articular processes by which they join together
  • The form of the spinous process varies with respect to species and region




Cervical Vertebrae

  • The first two cervical vertebrae are known as the atlas and the axis respectively, and are modified to allow movement of the head
    • The atlas has no conventional body: instead it is complsed of two lateral masses joined by dorsal and ventral arches
    • The atlas and axis are fused in embryonic life
    • The wing of the atlas is the transverse process of this vertebra and allows the spinal column to articulate with the skull by providing a resting place for the occipital condyles
    • The axis is the longest vertebra
    • The nuchal ligament connects the spinous process of the axis to the spinous process of the first thoracic vertebra (T1)
  • The last (C7) cervical vertebra has a taller spinous process than those proceeding it, and articulates with the first pair of ribs

Thoracic Vertebrae

  • Thoracic vertebrae articulate with the ribs
  • They are distingushed by short bodies with flattened extremities, costal facets, short transverse processes, and prominent spinous processes
  • They reach a maximum height a few vertebrae behind the cervicothoracic junction (constituting the withers of the horse) and then decline
  • The orientation of spinous processes shifts from caudo- to craniodorsal

Lumbar Vertebrae

  • Longer and more uniform in shape than thoracic vertebrae
  • Shorter in height, with long, flattened transverse processes that project laterally

Sacral Vertebrae

  • Sacrum: a single bone formed by the fusion of several vertebrae that articulates with the pelvic girdle
  • Allows the thrust of the hindlimbs to be transmitted to the trunk
  • Narrows caudally and is curved to present a concave surface to the pelvic cavity

Caudal Vertebrae

  • Number varies greatly even within species
  • Progressive simplification of form

Joints of the Spinal Column

  • Two types of joints:
    • Cartilaginous: direct connections between vertebral bodies
      • Bodies of adjacent vertebrae connected by thick, flexible intervertebral discs, consisting of two parts:
        • Nucleus pulposus: slightly eccentric, notochord derivative, contained under pressure and prone to escape
        • Annulus fibrosis: encircling bundles of fibrous tissue that pass obliquely from one vertebra to another, with changing orientation
    • Synovial: between facets on vertebral arches
  • Modified in the regions of the head and pelvis
    • Joints of the atlas:
      • Atlanto-occipital joint: between condyles of the skull and corresponding cavities of the atlas
        • Functions as a ginglymus: movement is restricted to flexion/extension in the sagittal plane (eg nodding)
      • Atlantoaxial joint: ventral arch of atlas and the body of the axis face into a single synovial cavity with limited areas of contact
        • Movement is rotational about a longitudinal axis (eg. head shaking)

Spinal Cord

Hypaxial and Epaxial Muscles

Epaxial muscles- Copyright C. Clarkson and T.F. Fletcher, University of Minnesota
Hypaxial muscles- Copyright C. Clarkson and T.F. Fletcher, University of Minnesota
  • Epaxial muscles: extensors of the vertebral column
    • Dorsal to the line of the transverse processes of the vertebrae
    • Innervation comes from the dorsal branches of the spinal nerves
    • Rarely of clinical importance
    • Arranged in three parallel columns
      • Lateral column: Iliocostalis arises from the ilium and transverse processes of the lumbar vertebrae to insert on cranial lumbar vertebrae and ribs, spanning about 4 vertebrae
      • Middle column: Longissimus; strongest, extending from the ilium and sacrum to the head and neck
      • Medial column: Transversospinalis; most complex, lying between medial vertebral arches and spinous processes
  • Hypaxial Muscles: flexors of the neck and tail
    • Longus colli: from cranial thoracic region to the atlas, covering ventral vertebral bodies
    • Rectus capitis ventralis: atlas to ventral skull
    • Longus capitis: midcervical vertebrae to skull
    • Scalenus muscles: caudal cervica vertebrae to first few ribs, which they stabilize on inspiration


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