NAVLE Nervous

Feline Discospondylitis Study Guide

📅 March 28, 2026 ⏱ 20 min read

Discospondylitis (also spelled diskospondylitis) is an infection of the intervertebral disc and adjacent vertebral endplates, typically bacterial or fungal in origin.

Overview and Clinical Importance

Discospondylitis (also spelled diskospondylitis) is an infection of the intervertebral disc and adjacent vertebral endplates, typically bacterial or fungal in origin. While considerably more common in dogs, feline discospondylitis is rare but clinically important and appears on NAVLE examinations as part of differential diagnosis for spinal pain and neurological dysfunction in cats.

The condition results from infection of the intervertebral disc space (discitis) and adjacent cartilaginous vertebral endplates (spondylitis). In cats, the lumbosacral junction (L7-S1) is most commonly affected, accounting for approximately 36-50% of all feline cases. Recognition of this condition is essential because early diagnosis and appropriate antimicrobial therapy typically result in favorable outcomes.

Organism	Frequency	Clinical Notes
Escherichia coli	Most common	Often associated with concurrent UTI or pyelonephritis
Staphylococcus spp.	Common	Found in urine, blood, and intradiscal aspirates
Streptococcus spp.	Less common	S. canis reported; oral source suspected
Enterococcus spp.	Less common	Urinary tract origin
Clostridium perfringens	Rare	Anaerobic; consider in bite wound cases
Actinomyces viscosus	Rare	Oral flora; suggests hematogenous spread

Etiology and Pathophysiology

Routes of Infection

The exact route of infection is often unknown in individual cases. The following mechanisms have been implicated in feline discospondylitis:

Hematogenous spread (most common): Bacteria enter the bloodstream from a distant site (urinary tract, oral cavity, skin wounds) and travel to the vertebral endplate capillary beds where sluggish blood flow allows bacterial seeding
Direct inoculation: Cat bite abscesses (especially at the tail base), penetrating trauma, or iatrogenic causes from spinal surgery or epidural injections
Direct extension: Spread from infected paravertebral structures or adjacent abscesses
Migrating foreign bodies: Less common in cats than dogs; plant awns (grass seeds) may migrate toward the vertebral column

High-YieldIn cats specifically, previous cat bite abscess (especially at the tail base) and chronic gingivostomatitis have been identified as predisposing factors. Concurrent endocarditis suggests hematogenous spread.

Pathophysiology Mechanism

Blood supply within the vertebral endplates consists of capillary beds with reduced blood flow velocity. Pores in the endplate that normally allow nutrient diffusion also provide a route for organisms to enter the intervertebral disc. The minimal vascular supply of the disc perpetuates infection once established. The sequence includes:

Organisms enter via arterial blood supply to vertebral endplate
Bacteria localize in venous channels (sluggish flow)
Infection spreads through diffusion to avascular disc
Inflammation and bacterial growth cause necrosis
Erosion of vertebral endplates creates lytic lesions
Potential complications: vertebral instability, disc collapse, spinal cord/nerve root compression

Causative Organisms in Feline Discospondylitis

NAVLE TipUnlike dogs, fungal discospondylitis has NOT been reported in cats. Also, Brucella canis is not a concern in cats (it is a common differential in canine discospondylitis).

Parameter	Finding
Breed	Domestic Shorthair most common (76.5%); Maine Coon; Siamese
Age	Median 9 years (range 0.9-14 years)
Sex	Male slightly overrepresented (58.8%)
Duration of Signs	Median 3 weeks (range 0.3-16 weeks)
Location	L7-S1 most common (36-50%); thoracolumbar; coccygeal

Signalment and Clinical Presentation

Signalment

Clinical Signs

Cardinal Sign

Spinal hyperaesthesia (100% of cases) - This is the hallmark of feline discospondylitis and is ALWAYS present. Pain on palpation of the affected spinal region is universally found. In 35.3% of cases, this is the only neurological sign present.

Neurological Signs (64.7% of cases)

Non-Specific Clinical Signs

Reluctance to jump (52.9%)
Lethargy (41.2%)
Inappetence/anorexia (23.5%)
Pyrexia (17.6%) - Temperature greater than or equal to 39.2°C; notably UNCOMMON
Dysuria (11.8%)
Obstipation/megacolon (5.9%)

High-YieldPyrexia is UNCOMMON in feline discospondylitis (only 17.6%). Do NOT rely on fever to diagnose this condition. Neurological deficits appear MORE prevalent in cats (65%) than dogs (48%), possibly indicating cats are more prone to secondary meningomyelitis.

Neurolocalization by Lesion Site

Sign	Frequency
Paraparesis/pelvic limb ataxia	41.2%
Pelvic limb lameness	35.3%
Abnormal withdrawal/patellar reflexes	29.4%
Abnormal tail carriage/tail paresis	29.4%
Muscle wastage	11.8%

Diagnosis

Laboratory Findings

Important: Laboratory abnormalities are typically inconsistent and non-specific in feline discospondylitis. Normal results do NOT rule out the disease.

Bacterial Culture Results

Cultures are positive in only 11.8% of feline cases. This low yield is similar to dogs (40-75% negative cultures). Despite this, cultures should ALWAYS be submitted because identification of the organism guides targeted antimicrobial therapy.

Urine culture: Submit in ALL cases (11.8% positive)
Blood culture: Consider if febrile; 12.5% positive
Fine-needle aspirate (FNA) of disc: CT or fluoroscopy-guided; 33% positive (intradiscal); highest yield

Diagnostic Imaging

Imaging is CRITICAL for diagnosis given the variable and non-specific clinical presentation. MRI is the gold standard, though radiography remains an important screening tool.

Radiography

Limitations: Radiographic changes may lag 2-4 weeks behind clinical signs. A normal radiograph does NOT rule out discospondylitis early in disease. Repeat radiographs in 1-2 weeks if initial study is negative but clinical suspicion remains high.

Radiographic Findings:

Intervertebral disc space narrowing or collapse (80%)
Vertebral endplate erosion/osteolysis (60%)
Sclerosis of adjacent vertebral bodies
Spondylosis deformans (bony bridging)
Loss of normal endplate morphology

MRI Findings (Gold Standard)

MRI is more sensitive than radiography, especially in early disease. Characteristic findings include:

NAVLE TipWhen a focus of discospondylitis is detected, image the ENTIRE vertebral column. Multifocal disease occurs in up to 24% of feline cases. Positive cultures are more likely with multifocal disease.

Differential Diagnosis

For cats presenting with spinal pain and/or neurological deficits, consider:

Lesion Location	Expected Signs	Reflex Changes
T3-L3	Paraparesis, pelvic limb ataxia, back pain	UMN pelvic limbs (normal to increased reflexes)
L4-S2	Pelvic limb lameness, nerve root signature, tail paresis	LMN pelvic limbs (decreased/absent reflexes)
L7-S1 (Lumbosacral)	Lumbosacral pain, stiff pelvic limb gait, tail paresis, possible fecal/urinary incontinence	Decreased patellar, absent withdrawal, reduced anal tone
Coccygeal	Low tail carriage, tail pain, tail paresis	Decreased tail tone

Treatment

Antimicrobial Therapy

Medical management is the mainstay of treatment. All feline cases in the literature have been managed non-surgically. Empirical antibiotic therapy is typically initiated before culture results are available (given low yield).

High-YieldDuration of treatment is CRITICAL. Minimum 3 months of continuous antibiotic therapy is recommended. The only documented recurrence in feline literature occurred after only 6 weeks of treatment. Stopping antibiotics prematurely leads to relapse.

Analgesic Therapy

Pain management is essential and should be provided to ALL patients:

Supportive Care

Exercise restriction: Strict cage/room rest for minimum 4 weeks; avoid jumping and stairs
Nursing care: Padded bedding; assistance with urination/defecation if needed
Monitoring: Clinical improvement expected within 3-5 days of starting antibiotics; if no improvement, consider resistant organism or fungal infection

Surgical Intervention

Surgery is rarely indicated in cats. Consider surgical intervention only for: severe neurological deficits unresponsive to medical therapy; vertebral instability; pathological fractures; spinal cord compression from epidural abscess; and obtaining tissue for culture/biopsy if medical management fails.

Test	Findings
CBC	Usually unremarkable (82.4%); occasional leukocytosis with neutrophilia (11.8%); mild non-regenerative anemia
Serum Biochemistry	Usually unremarkable (58.8%); hyperglobulinemia (23.5%); elevated CK possible
Urinalysis	Usually unremarkable; submit urine culture in ALL suspected cases
CSF Analysis	Typically normal or non-specific; occasional albuminocytologic dissociation or neutrophilic pleocytosis

Prognosis and Outcome

Overall prognosis is FAVORABLE with appropriate treatment. In a study of 17 cats with outcome data available for 12:

Excellent outcome: 83.3% (10/12 cats) - complete resolution of pain and neurological function
Relapse: 8.3% (1/12) - occurred after only 6 weeks of single antibiotic treatment
Poor outcome (euthanasia): 8.3% (1/12) - failed to respond during hospitalization

Key prognostic factors:

Early diagnosis and initiation of treatment
Duration of antibiotic therapy (minimum 3 months recommended)
Severity of neurological deficits at presentation
Presence of comorbidities (chronic kidney disease, endocarditis)

NAVLE TipRadiological resolution lags behind clinical improvement. Full radiographic resolution may not occur even after 9 months of treatment, despite complete clinical resolution. Do NOT use radiographs alone to determine when to stop antibiotics.

MRI Finding	Frequency
T2W/STIR hyperintense nucleus pulposus	71-85%
Adjacent vertebral endplate involvement	79%
T2W/STIR hyperintense paraspinal soft tissue	77-79%
Spondylosis deformans	71%
Narrowed/collapsed IVDS	57%
Contrast enhancement (disc, endplates)	100% of contrast studies
Epidural space involvement	36%
Spinal cord/nerve root compression	36%
Meningeal enhancement (suggests meningitis)	83%

Memory Aid

DISCO = Feline Discospondylitis

D = Disc infection (intervertebral disc + endplates)
I = Imaging essential (MRI gold standard)
S = Spinal pain ALWAYS present (100%)
C = Cultures often negative (88%)
O = Outcome favorable with 3 months antibiotics

Key Numbers to Remember:

100% = spinal hyperaesthesia present
17.6% = pyrexia (fever is UNCOMMON)
11.8% = positive cultures
36-50% = L7-S1 location
3 months = minimum antibiotic duration
83% = excellent outcome

Condition	Distinguishing Features
Intervertebral disc disease (IVDD)	Acute onset; no endplate lysis; disc protrusion/extrusion on MRI
Spinal neoplasia (lymphoma, osteosarcoma)	Progressive; mass lesion on imaging; bone destruction pattern differs
Feline infectious peritonitis (FIP)	Multisystemic; CSF pleocytosis; positive FCoV titers
Toxoplasmosis/Cryptococcosis	Systemic signs; positive serology; CSF abnormalities
Vertebral trauma/fracture	History of trauma; acute onset; radiographic fracture lines
Thromboembolic disease (saddle thrombus)	Acute paraparesis; absent femoral pulses; painful, cold limbs; cardiac disease
Degenerative lumbosacral stenosis	Older cats; chronic; no endplate destruction; disc protrusion

Antibiotic	Dose	Notes
First-Line Options
Amoxicillin-clavulanic acid	15-20 mg/kg PO q12h	PREFERRED first-line; covers E. coli, Staph, Strep
Cefalexin	20 mg/kg PO q12h	Good bone penetration; covers gram-positives
Second-Line Options
Marbofloxacin	2 mg/kg PO q24h	Fluoroquinolone; good tissue penetration; use based on C and S
Clindamycin	5.5 mg/kg PO q12h	Anaerobic coverage; does NOT cover E. coli
Metronidazole	10 mg/kg PO q12h	Add for anaerobic coverage (e.g., bite wounds)

Drug	Dose	Notes
Meloxicam	0.1 mg/kg PO once, then 0.025-0.05 mg/kg q24-48h	NSAID; use lowest effective dose; monitor renal function
Gabapentin	2.5-10 mg/kg PO q8-12h	Neuropathic pain; sedation possible; reduce dose in renal disease
Buprenorphine	0.01-0.03 mg/kg buccal q6-12h	Opioid; short-term use for acute pain

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