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Basics

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BASICS

Definition!!navigator!!

CDI is an inflammation of the small intestine, cecum, and large colon commonly resulting in diarrhea and varying degrees of toxemia.

Pathophysiology!!navigator!!

Clostridium difficile is a Gram-positive spore-forming bacterium found in a small percentage of healthy adult horses, and a larger percentage of young healthy foals. It is acquired through ingestion of spores. The disease is hypothesized to occur from a disruption of the normal resident GI microbiota, often as a result of antimicrobial exposure. C. difficile produces 2 major toxins (A and B), a cytotoxin and an enterotoxin, that work synergistically. However, strains that only produce toxin B are capable of inducing disease. These toxins cause clinical signs by their direct toxic effects on the colon and through proinflammatory effects on neutrophils. The net result are varying degrees of fluid secretion, mucosal damage, and intestinal inflammation. Some strains of C. difficile also produce a binary toxin, but its role in equine enterocolitis is unknown.

Systems Affected!!navigator!!

GI

C. difficile can cause soft–loose to profuse and watery diarrhea, mild to severe colic, and, occasionally, fever.

Cardiovascular

Dehydration and cardiovascular shock can ensue.

Musculoskeletal

Peripheral edema and laminitis.

Incidence/Prevalence!!navigator!!

It is usually sporadic, but outbreaks have been reported and are most common in foals on breeding farms.

Signalment!!navigator!!

There is no reported breed, age, or sex predilection.

Signs!!navigator!!

Historical Findings

Depression, anorexia, diarrhea, colic, and/or pyrexia. Recent or current antibiotic use.

Physical Examination Findings

  • Diarrhea in most cases that may be associated with dehydration, and tachycardia
  • Rectal temperature may be subnormal, normal, or increased
  • Signs of endotoxemia and peripheral edema may be present
  • Colic may result from inflammation, fluid, and gas distention of the GI tract

Causes!!navigator!!

Infectious

The proliferation of the toxigenic C. difficile and the production of its exotoxins.

Risk Factors!!navigator!!

  • Not clearly established; however, antibiotics and hospitalization have been associated with both colonization and disease
  • Reported in mares whose foals were being treated with erythromycin succinate
  • Hospitalization, as in humans, but equine hospital outbreaks are very rare
  • Other stressors, such as surgery and transportation, may play a role in sporadic cases

Diagnosis

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DIAGNOSIS

Differential Diagnosis!!navigator!!

  • Salmonellosis
  • Potomac horse fever
  • Clostridium perfringens enterocolitis
  • Cyathostomiasis
  • NSAID-induced colitis
  • Cantharidin toxicosis
  • Chronic sand impaction
  • Idiopathic colitis

CBC/Biochemistry/Urinalysis!!navigator!!

CBC

The packed cell volume is often elevated. Total protein levels are variable and may be increased due to hemoconcentration or decreased due to protein loss. Leukopenia with neutropenia with left shift is often present. Neutrophils may be degenerate. A leukocytosis develops at later stages of the disease.

Biochemistry

Hyponatremia and hypochloremia are characteristic. Hypokalemia is sometimes present, but hyperkalemia in response to a metabolic acidosis can occur. Hypocalcemia and hypoalbuminemia are also common. Prerenal azotemia is common in dehydrated animals.

Other Laboratory Tests!!navigator!!

  • Culture of this organism is difficult, and is not diagnostic
  • The clinical standard for diagnosis is detection of C. difficile toxins A or B in feces using enzyme immunoassays, and some commercial assays have good sensitivity and specificity. Tests that only detect toxin A can be used but because strains that only produce toxin B can cause disease in horses, false-negative cases can occur
  • Antigen testing of feces via immunoassay can be used as a screening test. Antigen-negative results have a high negative predictive value, but antigen-positive samples should be tested further to determine whether toxins are present
  • PCR is commonly used to detect toxin genes in fecal samples of human patients and in horses. While potentially highly sensitive and specific, the same concerns exist as for culture, as positive results will be obtained from horses that are colonized with strains containing toxin genes in the absence of production of toxins
  • Bacterial culture for Salmonella spp. should also be performed because it is a major differential diagnosis, and co-infection can occur

Imaging!!navigator!!

The large colon contents may appear hypoechoic with increased motility and the intestinal wall may be thickened.

Other Diagnostic Procedures!!navigator!!

Palpation per rectum to rule out another GI lesion.

Pathologic Findings!!navigator!!

Gross abnormalities include fluid intestinal contents, and multifocal hemorrhagic or diffusely darker appearance of the serosal surface of the small and large intestines. More severe cases may have marked intestinal edema and hemorrhage, with petechiae and ecchymoses throughout. Histologically, depending on the severity, the small and large intestine may have mucosal necrosis, mucosal and/or submucosal thrombosis, hemorrhage, edema, congestion, neutrophilic infiltration, fibrinonecrotic pseudomembranes, and occasionally numerous Gram-positive rods on the superficial mucosa can be present.

Treatment

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TREATMENT

Appropriate Health Care!!navigator!!

Best managed intensively owing to the frequent need for aggressive fluid therapy and the high risk of secondary problems. If the diarrhea is not severe and adequate hydration can be maintained, treatment on farm could be attempted.

Nursing Care!!navigator!!

IV fluid therapy with balanced polyionic electrolyte solution is the most important supportive treatment. Sodium bicarbonate may be required to correct a severe metabolic acidosis. In severely hypokalemic horses, 20–40 mEq/L of potassium chloride can be added to the IV fluids. IV administration of KCl should not exceed 0.5 mEq/kg/h. Oral supplementation with KCl (50 g every 6 or 8 h) is also effective to correct hypokalemia.

An oral electrolyte solution along with clean, fresh drinking water should be provided. Hypertonic saline (4–6 mL/kg IV of 5–7.5% NaCl) may be indicated in severely dehydrated animals. Feet should be iced for 72 h continuously in an attempt to prevent laminitis.

Activity!!navigator!!

Animals should be handled accordingly and an isolated area should be used and disinfected appropriately because diarrheic horses are potentially infectious.

Diet!!navigator!!

Free-choice hay, preferably in a hay net, because hypoproteinemic horses eating off the ground may develop severe facial edema. Large amounts of grain should be avoided due to the risk of further GI flora disruption.

Owing to the severe catabolic state that occurs in colitis, forced enteral feeding or partial or total parenteral nutrition may be required.

Client Education!!navigator!!

Clients should be made aware of the potential for mortality and the serious risk of secondary problems such as laminitis and jugular vein thrombosis. They should also be warned that the horse should be considered infectious, and appropriate sanitation of contaminated areas should be recommended.

Surgical Considerations!!navigator!!

N/A

Medications

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MEDICATIONS

Drug(s) of Choice!!navigator!!

  • Metronidazole—15–25 mg/kg PO every 6–8 h
  • Flunixin meglumine—0.25–0.5 mg/kg every 8 h IV for its purported antiendotoxic effects; 1.1 mg/kg for analgesia
  • Fresh-frozen plasma—<40 g/L (4.0 g/dL); although not proved to be of added benefit in cases of colitis
  • KCL—25–50 g PO every 12–24 h. Oral administration of KCl once or twice a day is an easy and cost-effective route of supplementation
  • Laminitis treatment—see chapter Laminitis

Contraindications!!navigator!!

Metronidazole may be teratogenic and is therefore contraindicated in pregnant mares.

Precautions!!navigator!!

Flunixin meglumine may be nephrotoxic in dehydrated animals. It may mask severe pain that indicates a surgical lesion, and should be used judiciously when the diagnosis is still in question.

Possible Interactions!!navigator!!

Cimetidine should not be used concurrently with metronidazole because there is interaction through hepatic inhibition.

Alternative Drugs!!navigator!!

N/A

Follow-up

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FOLLOW-UP

Patient Monitoring!!navigator!!

Frequent monitoring of hydration status, character and volume of diarrhea, and for presence of edema, and observe for signs of colic and laminitis.

Prevention/Avoidance!!navigator!!

Antibiotics should be used judiciously to decrease the risk of disruption of the GI microflora.

Possible Complications!!navigator!!

  • Endotoxemia
  • Laminitis
  • Jugular vein thrombosis
  • Renal failure

Expected Course and Prognosis!!navigator!!

Mortality rates range from 10% to 40%; however, referral hospital-based studies are a biased population and the overall mortality rate is likely lower. Death can occur from the primary GI disease; however, euthanasia is often opted for due to cost of treatment, poor response to initial treatment, or development of severe laminitis. The prognosis is good when the diarrhea resolves shortly after presentation and no signs of laminitis occur.

Miscellaneous

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MISCELLANEOUS

Associated Conditions!!navigator!!

  • Laminitis
  • Venous thrombosis

Age-Related Factors!!navigator!!

N/A

Zoonotic Potential!!navigator!!

Some C. difficile strains found in horses are also found in people with CDI. While it is unknown whether horse–human transmission occurs, it is advisable to treat all affected horses as zoonotic risks.

Pregnancy/Fertility/Breeding!!navigator!!

Metronidazole should not be administered to pregnant mares. An increased risk of abortion may be present due to endotoxemia and hypovolemic shock.

Synonyms!!navigator!!

  • C. difficile-associated diarrhea
  • C. difficile enterocolitis

See Also!!navigator!!

Laminitis

Abbreviations!!navigator!!

  • CDI = Clostridium difficile infection
  • GI = gastrointestinal
  • NSAID = nonsteroidal anti-inflammatory drug
  • PCR = polymerase chain reaction

Suggested Reading

Baverud V, Gustafsson A, Franklin A, et al. Clostridium difficile associated with acute colitis in mature horses treated with antibiotics. Equine Vet J 1997;29:279284.

Weese JS, Toxopeus L, Arroyo L. Clostridium difficile associated diarrhoea in horses within the community: predictors, clinical presentation and outcome. Equine Vet J 2006;38:185188.

Author(s)

Authors: Luis G. Arroyo and J. Scott Weese

Consulting Editors: Henry Stämpfli and Olimpo Oliver-Espinosa