Clinical, behavioral, and pulmonary changes in calves following inoculation with Mycoplasma bovis.

OBJECTIVE To characterize clinical and behavioral changes in calves following inoculation with Mycoplasma bovis and evaluate relationships between those changes and pulmonary disease. ANIMALS 22 healthy Holstein steers. PROCEDURES 20 calves were inoculated intranasally with < 10(8) CFU or > 10(9) CFU of M bovis. Calves were assigned a clinical illness score (CIS) on a scale of 1 through 4 twice daily on the basis of severity of cough, labored breathing, and lethargy. For each calf, distance traveled and time spent near the waterer, feed bunk, or shelter were determined via a remote location monitoring device. Calves were euthanized and necropsied 22 days after inoculation. RESULTS 13 calves became clinically ill after challenge inoculation; 3 calves were euthanized within 20 days. Among all calves, consolidation was evident in 0% to 79.9% of the lungs; extent of lung consolidation did not differ between the challenge dose groups. Distance traveled and percentages of time spent in proximity to the feed bunk and shelter were associated with CIS; calves with more severe disease traveled less distance and spent less time at the feed bunk and more time in the shelter. Distance traveled by calves was negatively associated with extent of lung consolidation (< or ≥ 10% of lungs affected); this effect was modified by trial day. CONCLUSIONS AND CLINICAL RELEVANCE Following inoculation with M bovis, calf behavior patterns were associated with both CIS and severity of pulmonary disease. Use of behavior monitoring systems may aid in recognition of respiratory tract disease in calves.

[1]  D M Weary,et al.  Board-invited review: Using behavior to predict and identify ill health in animals. , 2009, Journal of animal science.

[2]  David G Renter,et al.  Bayesian Estimation of the Performance of Using Clinical Observations and Harvest Lung Lesions for Diagnosing Bovine Respiratory Disease in Post-weaned Beef Calves , 2009, Journal of veterinary diagnostic investigation : official publication of the American Association of Veterinary Laboratory Diagnosticians, Inc.

[3]  R. Larson,et al.  Mollicutes species and Mycoplasma bovis prevalence and association with health outcomes in beef feeder calves at arrival and initial treatment for bovine respiratory disease. , 2010, The Canadian veterinary journal = La revue veterinaire canadienne.

[4]  R. Wallander,et al.  Influence of winter weather and shelter on activity patterns of beef cows , 2002 .

[5]  R. Nicholas,et al.  Mycoplasma bovis: disease, diagnosis, and control. , 2003, Research in veterinary science.

[6]  M. Archambault,et al.  Mycoplasma bovis pneumonia in cattle , 2007, Animal Health Research Reviews.

[7]  O. M. Radostits,et al.  Herd Health: Food Animal Production Medicine , 1994 .

[8]  D. Renter,et al.  Determination of lying behavior patterns in healthy beef cattle by use of wireless accelerometers. , 2011, American journal of veterinary research.

[9]  R. Smith,et al.  Feedlot health and management. , 1998, The Veterinary clinics of North America. Food animal practice.

[10]  J. Rushen,et al.  Behavior of dairy calves after a low dose of bacterial endotoxin. , 2008, Journal of animal science.

[11]  R A Smith,et al.  Impact of disease on feedlot performance: a review. , 1998, Journal of animal science.

[12]  M. Archambault,et al.  Naturally Occurring Mycoplasma Bovis—Associated Pneumonia and Polyarthritis in Feedlot Beef Calves , 2006, Journal of veterinary diagnostic investigation : official publication of the American Association of Veterinary Laboratory Diagnosticians, Inc.

[13]  G. Hahn Dynamic responses of cattle to thermal heat loads. , 1999, Journal of animal science.

[14]  W. Quimby,et al.  Feeding and watering behavior of healthy and morbid steers in a commercial feedlot. , 1999, Journal of animal science.

[15]  D. Renter,et al.  Associations between the prevalence of Mollicutes and Mycoplasma bovis and health and performance in stocker calves , 2010, Veterinary Record.

[16]  D. Renter,et al.  Serial evaluation of physiologic, pathological, and behavioral changes related to disease progression of experimentally induced Mannheimia haemolytica pneumonia in postweaned calves. , 2010, American journal of veterinary research.

[17]  M. Galyean,et al.  Association between changes in eating and drinking behaviors and respiratory tract disease in newly arrived calves at a feedlot. , 2000, American journal of veterinary research.

[18]  J. Roth,et al.  The effects of danofloxacin and tilmicosin on neutrophil function and lung consolidation in beef heifer calves with induced Pasteurella (Mannheimia) haemolytica pneumonia. , 2003, Journal of veterinary pharmacology and therapeutics.

[19]  L. Reeve-johnson Relationships between clinical and pathological signs of disease in calves infected with Mannheimia (Pasteurella) haemolytica type A1 , 2001, Veterinary Record.

[20]  B. Sowell,et al.  Radio frequency technology to measure feeding behavior and health of feedlot steers , 1998 .

[21]  M. Apley Bovine respiratory disease: pathogenesis, clinical signs, and treatment in lightweight calves. , 2006, The Veterinary clinics of North America. Food animal practice.