This document provides information on fractures and luxations of the spine in animals. It discusses the intrinsic and extrinsic forces that affect the spine, the anatomy of vertebrae and spinal units, and common sites of fractures. It then describes general treatments for spinal injuries including medications, imaging, and splinting or casting. Surgical techniques for various types of spinal fractures and injuries are outlined, including fixation methods, decompression procedures, and treatment for specific conditions like cervical instability and intervertebral disc disease.
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SPINAL INJURIES
1. FRACTURES & LUXATION OF SPINE
Submitted to
Dr REKHA PATHAK and MERLIN MAMACHAN
Dept OF VETERINARY SURGERY AND RADIOLOGY
ICAR-IVRI
2. • Spine / vertebral column : Affected by intrinsic & extrinsic forces
• Intrinsic forces - musculature of abdomen & paraspinal
• Unit of spinal column - vertebrae , interposed soft tissue , ligaments , disc,
joint capsule , cartilage
• Ligamentous failure lead to spinal luxation
• Main site of fracture at vertebral body
• Dorsal component of canine spine - neural arch & assosciated ligaments
withstand tensile forces
3. • Ventral component - body of vertebrae , intervertebral disc
withstand compressive forces
4. • Translational displacement - narrowing of neural canal & cord compression
• Main site of fracture - Lumbar > Sacrococcygeal for dogs
Sacrococcygeal in cats
• Thoracolumbar & Lumbosacral junction prone to fracture and luxation
• Transition from stiff to mobile section of spine
• Compressive forces imposed from adjacent vertebral bodies lead to
shortening of vertebral body
5. • Transverse & oblique fracture occur in any plane
• Axial loading or ventral flexion causes the above fractures
6. General treatment regimen in spinal injury
• Check CVS , pulmonary status , neurologic deficit
• Glucocorticoids given by i/v or epidural ( depomedrol ) - stabilize cellular &
lysosomal membrane , ↓ post traumatic catecholamine metabolism
• Mannitol & hypertonic saline i/v - control edema in brain & spinal cord
• Aminocaproic acid - antifibrinolytic agent to stabilize blood clot & haemorrhage
• Dimethyl sulfoxide - antiinflammatory , antiedema , vasodilation
7.
8. • VD , Lateral view of spine , CT , Myelography , Fluroscopy
• Strict cage rest
• Casting & splinting : Back splint anchored to head or pelvis
• Thermoplastic like orthoplast contoured to the shape of dorsum of body
• Aluminium sheet resembling sloped roof of house is applied to dorsum
with well cotton padding , then use elastikon to apply it to the body
9. SURGICAL TREATMENT
• Decompression of spinal cord - hemilaminectomy / dorsal laminectomy
• Fracture or luxation reduction
• Stabilization via internal fixation
10. • Selective loss of dorsal / ventral structure seperately - typical angular
displacement
• Loss of both simultaneously - translational displacement causes narrowing
of neural canal & cord compression
11.
12. • Atlanto axial instability - subluxation of joint in small toy breeds
Hyperpathia , quadriplegia , respiratory arrest
• Congenital form - improper embryologic development of odontoid process
• Traumatic form - Bending force & displacement to cervical region
Translational & articular displacement of joint
• Hemilaminectomy : Craniolateral lamina of C2 & caudolateral of C1
13.
14. • Dorsal technique : Single or double stranded wiring of C1 & C2
2 holes on dorsal spinous process of axis
24 G orthopaedic wire passed under arch of atlas
wire loop cut and passed through predrilled holes
finally twisted
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21. • Neck splint is done & bulky cotton padding from head to thoracic inlet
• Ventral technique : Ventral arch of atlas removed with rongeurs 0.5 cm
on each side of midline
Odontoid process removed & curette articular cartilage
Cancellous bone harvested from proximal humerus
harvested into the site
K pins directed bilaterally from body of axis across
the joint into the atlas
22. • Start pin close to midline of caudoventral body of axis
Direct to a point medial to alar notch on atlas
23. • Bilateral screws & wires through articular process of C4 & C5
• Ventral vertebral plating
• Dorsal vertebral fixation with screw provide better stabilization
24. THORACIC & LUMBAR FRACTURE FIXATION
• Application of plate & screws to the dorsal spinous process is most satisfactory
• Exceptions : lumbosacral junction ( small spinous process)
thoracic spine ( presence of rib head )
• Spinous process fixation : using stainless steel plate / polymer
metal plate are fastened via bolt through predrilled
hole in spinous process
25. • Plastic plate applied with friction grip surface & secured in place
with bolt passing between spinous process
26. • Spinal stapling : Small diameter stainless steel pin bent at right angles
passed through predrilled holes in dorsal spinal process
cranial & caudal to instability
The end of pins are bent back against process
Stainless steel wire passed through the predrilled holes
in the spinous process is twisted to secure the pins
27.
28. Vertebral body fixation
Vertebral cross pinning :
• For dogs less than 15 kg ; 0.045 cm to 0.062 cm diameter pins
• For dogs greater than 15 kg ; 0.1 to 0.2 cm diameter pins
• Dorsolateral approach on one side of spine
• Instability at or near vertebral space 2 pins are crossed diagonally in cranial
and caudal vertebral bodies
29. • Instability at or near vertebral space ; 2 pins are crossed
diagonally in cranial and caudal vertebral bodies
• Fracture at diaphysis of vertebral body , pin placement spans 3
vertebral bodies
• One pin inserted through middle of cranial vertebral body &
directed caudally
30. • It pass through middle of fractured vertebrae crossing fracture line
• 2 nd pin directed caudal to cranial
• For lumbar vertebrae , insert pin through dorsal aspect of lateral process
• For thoracic vertebrae , dorsal aspect of ribs is the site
• Always insert pin diagonally & ventrally
31. • Excellent resistance to shear & translational displacement
• Not recommended for comminuted vertebral body
fracture capable of collapse
32.
33. VERTEBRAL BODY PLATES
• Incision length should take 3 complete intervertebral space
• Incision is carried ventrally to the level of transverse process of
lumbar spine / costovertebral junction of thoracic area
• Retract rib ventrally by cutting with bone cutting foreceps
34. • Wire is inserted into predrilled hole in rib head & fastened to
dorsal spinous process
• Screw holes predrilled on dorsolateral surface of vertebral body
• Drill is directed perpendicular to axis of spine & exit opposite
ventrolateral cortex
35. • Adequate angular , rotational, translational stability
• Withstand compressive force transmitted along vertebral bodies
• Preferred in area of vertebral body collapse & shortening
• Not preferred in lumbosacral area - lumbosacral plexus
36.
37.
38. LUMBOSACRAL FRACTURES
• Reduction by traction on head & tail by assistants
• Elevate sacrum into normal position , if it is displaced cranioventrally
• Transilial pin inserted through gluteal muscle laterally over
caudal lamina of L7 & embedded in contralateral ilial wing
39.
40. PMMA / PIN COMPOSITE FIXATION
• Site of incision - dorsal aspect of spine
• 2 bilateral pin secured cranially & caudally to fracture
• Pins are inserted through dorsolateral aspect of mid vertebral body
• Pins are cut at the level of articular process
• Apply saline soaked gelfoam on spinal cord before applying PMMA
• Make long cylinder of 2 cm diameter around laminectomy defect incorporat
41. • Iced RL applied to protect from thermal damage & necrosis of surrounding
tissues
• Suitable for any site of thoracolumbar spine
• Make long cylinder of 2 cm diameter around laminectomy defect
incorporating pins
• For mixing 4 minutes , 11 minutes for hardening
42.
43. OSTEOMYELITIS OF VERTEBRAL BODY & INTERVERTEBRAL DISC -
DISCOSPONDYLITIS
• Concurrent intervertebral disc infection & vertebral osteomyelitis of
contiguous vertebrae
• S. aureus (most common) , B. canis , Nocardia ....
• Pathogenicity of offending organism or degree of inflammatory response to
penetrating foreign body
46. • Local destructive process ; lysosomal activity subsequent to leukocyte
infiltration
• Destruction of bony trabeculae result into penetration of subchondral
end plate and extension into intervertebral disc
• Cord compression - infiltration of inflammatory cells, meningeal edema
• Septic diskitis - cord involvement , paraplegia
• Mostly seen in animals of age 8 months to 10 years
49. SPONDYLOSIS DEFORMANS
• Non inflammatory degeneration of intervertebral disc & affect
vertebral bodies
• Bony spur formation , bony bridges around the disc & reestablish
stability to weak amphiarthrodial joint
• Periarticular in nature
• Osteophyte cause pressure on exiting spinal nerve root , neurologic deficit
• Large dog breeds
50. • Degeneration of anulus fibrosis , only 2⁰ role for nucleus pulposus
• Osteophyte formation to stabilize disc instability
51. • Changes in anulus fibrosis - major role in osteophyte formation
• Focal change in anulus lead to intra disc fissures ( ventral aspect mainly)
• Disc tissue almost disappears & adjacent vertebrae is ground , polished
• Site of osteophyte formation - intersection of vertebral body cortex with bony
end plate
• Multiple foci of fibrocartilage ; dystrophic calcification & unite vertebrae
52. • Ingrowth of blood vessels followed by destruction of calcified
cartilage & form mature trabecular bone
• They blend to vertebral cortex & shift to new bone growth
53. • Cats - thoracic spine main site
• Osteophyte seen around the circumference of end plate
• Seen as small size to massive ankylosing bridges
• Interlocking finger like projections ; more commonly seen
• Dorsolateral spur near intervertebral foramina seems like they project
into spinal canal
54. • Spondylosis deformans - generalized pattern & involves numerous disc space
• Hyervitaminosis A - bridging osteophyte in cats
• Solitary osteophyte - multiple osteochondromatosis in dog ( inside spinal cana
• End plate show sclerotic appearance , narrow intervertebral space
• Seperate ossification centre frequently seen in ventral aspect of anulus
- seems like fracture fragments
55. INTERVERTEBRAL DISC DISEASE
• Protrusion of IVD material into the spinal canal
• Mostly in chondrodystrophic breeds
• Manifested as pain, ataxia , sensorimotor paralysis
• Dynamic force at which IVD material compress spinal cord , degree of
hypoxia produced at spinal cord, mechanical displacement of cord
56. ANATOMY
• Outer fibrocartilageneous material in concentric layers : anulus fibrosus
• Inner gelatinous material : nucleus pulposus , eccentrically located to
dorsal side
• Anulus fibrosus 2 times thicker ventrally
• 26 IVD ; largest at L7-S1
• Intercapital ligament courses dorsally from T2-T10 ; low incidence of IVDD
57. • Anulus fibrosus - stability , flexibility & shock absorption to spine
• Nucleus pulposus - shock absorption , equalizes force on IVD, fluid
exchange between vertebrae & IVD
• Cranial & caudal border - hyaline cartilagenous end plates &
cover epiphysis of vertebral bodies
58.
59. PATHOPHYSIOLOGY OF IVDD
• Immature dogs - nucleus pulposus contain higher proteoglycans ,
glycoproteins
anulus fibrosus contain higher collagen content
• Degenerative changes as age ↑; collagen ↑ & pg ↓ in nucleus pulposus
• Loss of interstitial fluid alter gel consistency & reduces shock
absorbing power of nucleus pulposus
60. • Chondroid degeneration of IVD in chondrodystrophic breeds
• Mostly begins between 2 months & 2 years of age
• Finally results in mineralization of IVD
61. • Fibroid degeneration in non chondrodystrophic breeds
• Slow process , between 8 & 10 years of age
• Dorsal anulus degenerates and nucleus pulposus follows least
resistance pathway
• Hansen type 1 - total rupture of anulus & massive extrusion of pulposus
Chondrodystrophic breeds
severe inflammatory response & neurologic signs
62. • Hansen type 2 - partial rupture or bulging of pulposus
fibroid degeneration
non chondrodystrophic breeds
63. • Effect of spinal cord compression more in thoracolumbar area - small ratio of
spinal canal to cord
• Cervical area , more diameter for spinal canal , more room for displacement
• Cervical IVDD - pain Thoracolumbar - paresis / paralysis
• Hypoxic changes occur due to mechanical & chemical damage to
spinal vasculature
• Slight demyelinization to total necrosis to gray & white matter
64. • Pain caused by pressure on nerve roots & on spinal cord
• Progressive venous stasis due to pressure on cord lead to spinal cord edema
• Haemorrhagic necrosis of neural tissue - progressive haeorrhagic
myelomalacia
• Animal in anxious appearance , sensorimotor loss , depressed hindlimb
reflex
65. CERVICAL IVD SYNDROME
• Neck guarding , muscle fasciculations about head & neck
• Most common in chondrodystrophic breeds
• Hyperesthesia of the neck & forelimbs , painful spasm , paresis , ataxia
• Pain is the hall mark of cervical IVD protrusion ; constant / intermittent
• Reflex alteration , proprioceptive deficits
66.
67. • Narrowing of IVD space , intervertebral foramen
• Cloudiness in the intervertebral foramen , presence of mineralized mass
above IVD space
• C2- C3 & C3 -C4 - more incidence of cervical IVD protrusion
• Medical management - Corticosteroid & cage confinement
Dexamethasone - 2 mg/kg initial dose , 0.2 to 0.3 mg/k
for 2 to 3 days
Muscle relaxants - Methocarbamol @ 10 mg/kg po
Chlorphenesin carbamate 50 mg/kg
68. • Curved haemostatic forceps positioned over center of ventral anulus & push it
downwards
• Haemostat are opened then to seperate longus colli musculature
• White ventral anulus is exposed ; cut a window using No. 11/15 scalpel
• Scoop out nucleus pulposus using bone curette / tartar scraper
• Same procedure done upto C5-C6
• Post operative - Cage rest , corticosteroids , muscle relaxants
69. SURGICAL MANAGEMENT
• Fenestration of cervical disc - prevent additional nucleus pulposus extruding
into canal
• Decompression - to remove IVD material from spinal canal
• Ventral approach better than dorsal ; less traumatic & less surgery time
VENTRAL FENESTRATION TECHNIQUE
• Incision site - ventral midline from base of larynx to the sternum
70. • Cranial land mark - caudal border of wings of atlas
• Caudal land mark - large transverse process of C6 vertebrae
71. DECOMPRESSSION OF CERVICAL SPINAL CORD
• Ventral slot technique - positioning same as of fenestration technique
• Cranial & caudal vertebrae of affected IVD identified
• Caudal ventral cervical vertebral process is removed using rongeurs
• Slot is made using surgical drill paralell to long axis of vertebrae
72. • Free fat graft / absorbable gelatin sponge is placed over the slot to control
haemorrhage
• Length caudal one third of cranial vertebrae & cranial one third
of caudal vertebrae
• Width should not exceed one half of vertebral body width
• Thin shelf of cortical bone , endosteum , dorsal anulus are
removed with tartar
73.
74. DORSAL LAMINECTOMY & HEMILAMINECTOMY
• Patient positioned in sternal recumbency with dorsiflexion of neck
• Skin incision from external occipital protuberance to dorsal spinous
process of T1
• Hemilaminectomy - create an opening in lateral laminae above the lesion
Enlarge it cranially & caudally with drill / rongeur , usually
1 to 2 vertebral length
75.
76. • Dorsal laminectomy - Removal of dorsal spinous process over the lesion with
rongeurs
Dorsal laminae removed with surgical drill
Laminectomy defect should be extended to medial aspect
of dorsal articular process & length of 2 to 3 vertebrae
• Dorsal limit is near the dorsal midline & ventral limit near floor
of spinal canal
77.
78. THORACO LUMBAR IVD SYNDROME
• Paresis , paralysis , analgesia distal to spinal cord lesion
• UMN lesion - tensed bladder LMN lesion - flaccid bladder & anus , overflow
incontinence
• Loss of function
→
Proprioception , paresis , motor control , bladder control,
sensation
79. • Haematomyelia - anxious appearance , dilated pupil, sensorimotor
paralysis
• Absence of sensory function (deep pain) in hindlimb - prognostic sign
80. • Common site - T11 - 12
• Radiographic signs - narrowing of IVD space
narrowing & cloudiness of intervertebral foramen
abnormal spacing of articular process
presence of mineralized mass above IVD space
• Surgical management - Ventral fenestration
Lateral fenestration
Dorsolateral fenestration
Hemilaminectomy & Dorsal laminectomy
81. • Ventral fenestration - Prophylactic technique
Done only in animal with mild paresis
Hansen type II IVD protrusion
• IVD T11-12 through L3-4 are routinely fenestrated
• T10-11 IVD not common site ; intercapital ligament
• Patient in right lateral recumbency & paracostal incision is made
• Ventral anulus incised with No. 11/15 blade & nucleus removed using
small tartar scraper
83. • Hemilaminectomy - dorsolateral approach is best
• Identify the site of IVD protrusion ; remove articular process over it by
rongeurs
• Dorsal spinous process cranial to lesion clamped with towel calmp
• Perform hemilaminectomy using rongeur , length should be 1 vertebral
bodylength cranial and caudal to lesion
• Extruded material removed with curved blunt probe
84. • Dorsal laminectomy - Funquist B method & modified dorsal
laminectomy method
• Dorsal spinous process cranial & caudal to the lesion are removed
• Modified method - remove dorsal laminae to the junction of articular
process leave cranial articular process
• Funquist B method - done in similiar fashion , its width stops short of
articular process
85.
86.
87. CANINE WOBBLER SYNDROME
• Progressive cervical spinal cord compression ; caudal cervical vertebrae & its
articulations malformation
• Large breed dogs , great dane & doberman pinscher
• Vertebral malformation & malarticulations
• Stenosis of vertebral canal
• Overnutrition & overgrowth
88. • Osteoarthrosis of synovial joint due to stress ; uneven pressure on cartilage
• cartilage seperation & increased blood supply to subchondral bone
• Marginal osteophyte & osteocartilagenous joint mice
• DJD lead to ankylosis and direct / indirect compression on spinal cord
89. • Stenotic cranial orifice of vertebral foramen - hypercalcitonin
induced retardation of osteocytic osteolysis
• Hyperplasia of interarcuate ligament , joint capsule
• Stress on pedicle lead to direct pressure on articular process
ventrally & ↓ DV diameter
90. • Lateral spinal cord compression due to medial overgrowth of cranial
articular process
• Concomitant loss of cranioventral part of vertebral body & prominent
craniodorsal aspect
• Clinically presented as paraparesis - tetraparesis - ataxia
• Spinal cord compression , contusion lead to bilateral spastic paresis of
pelvic limb
91. • Base wide pelvic limb stance & crouched posture
• Dragging of limb on dorsal surface of digits , hypertonia ,
hyperreflexia
• Great deficit on hopping & proprioception