D439 - Bovine Rotaviruses Group B

Rotaviruses and coronaviruses are the most common causes of viral diarrhea in calves. Rotavirus infections occur earlier in life and produce milder lesions than do coronaviral infections. Both viruses cause varying degrees of dehydration, acidosis, and electrolyte derangements (hyponatremia, hypochloremia, hyperkalemia). Three groups of rotavirus, A, B, and C (rare), have been identified in cattle. Group A bovine rotaviruses are recognized as a significant cause of calf diarrhea and are the most common source of infection, whereas group B rotaviral diarrheas are viewed as an emerging and increasingly important disease. Rotavirus infection is characterized by the rapid onset of diarrhea in calves, from 1 day of age up to about 3 weeks of age, with most cases occurring in the first week of life. Clinical signs of infection include: yellow watery diarrhea, mild depression (worsens as fluid, acid-base and electrolyte disturbances worsen), inappetence, and reluctance to stand. Uncomplicated cases are self-limiting and symptomatic for only 1-2 days. However, secondary infections occur commonly, and will influence the ultimate clinical course of the illness. Calves are mainly infected through an orofecal route. The organism is very hardy in the environment, and is resistant to inactivation by most disinfectants. The presence of colostral antibodies in the bowel lumen is protective initially, but once the antibody level in the milk declines after a few days, the calf is susceptible to infection.
Rotaviruses invade the tall columnar cells at the tips of the small intestinal villi. The infected cells are desquamated, and the villar tip atrophies. The absorptive and digestive functions (lactase secretion, etc.) of the villar tips are impaired, yet secretion by the crypt cells continues in an uninterrupted fashion. Bacterial fermentation renders undigested, unabsorbed nutrients into osmotically active small acids that draw more fluid into the digestive tract. As a result, the feces from animals with pure rotaviral infections will be acidic.

Bovine rotaviral infections are non-specific and therefore cannot be identified solely on clinical findings. The most accurate method of detection for group A rotaviruses is by PCR. Using PCR, specific viral genomic sequences are targeted, amplified and detected, providing veterinarians with a definitive method of detection. PCR is so sensitive for the detection of group A rotaviruses that it is the method of choice for detecting these viruses in food samples intended for human consumption.
In the past, detection of group B rotaviruses proved difficult since this virus cannot be grown in cell culture. In addition, only low numbers of group B rotaviral particles are shed in feces. Electropherotype analysis requires a large amount of virus, and this technique does not allow a conclusive diagnosis of group B rotavirus. Fortunately, new generation DNA based tests provide a highly sensitive and specific means of detection for group B rotaviral particles in a sample. These tests use PCR to target unique rotaviral genetic sequences, thereby offering veterinarians a definitive method of diagnosis for this disease.