Comparative analyses of peritoneal fluid from calves and adult cattle

David E. Anderson From the Departments of Clinical Sciences (DE Anderson, St-Jean, Desrochers), Pathology and Microbiology (Cornwell), and Anatomy and Physiology (LS Anderson), College of Veterinary Medicine, Kansas State University, Manhattan, KS 66506-5606.

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Dean Cornwell From the Departments of Clinical Sciences (DE Anderson, St-Jean, Desrochers), Pathology and Microbiology (Cornwell), and Anatomy and Physiology (LS Anderson), College of Veterinary Medicine, Kansas State University, Manhattan, KS 66506-5606.

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Lane S. Anderson From the Departments of Clinical Sciences (DE Anderson, St-Jean, Desrochers), Pathology and Microbiology (Cornwell), and Anatomy and Physiology (LS Anderson), College of Veterinary Medicine, Kansas State University, Manhattan, KS 66506-5606.

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Guy St-Jean From the Departments of Clinical Sciences (DE Anderson, St-Jean, Desrochers), Pathology and Microbiology (Cornwell), and Anatomy and Physiology (LS Anderson), College of Veterinary Medicine, Kansas State University, Manhattan, KS 66506-5606.

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André Desrochers From the Departments of Clinical Sciences (DE Anderson, St-Jean, Desrochers), Pathology and Microbiology (Cornwell), and Anatomy and Physiology (LS Anderson), College of Veterinary Medicine, Kansas State University, Manhattan, KS 66506-5606.

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SUMMARY

Reference values for hematologic variables change with increasing age in cattle. Therefore, the purpose of the study reported here was to describe the peritoneal fluid constitutents of clinically normal young calves, and to compare cellular concentration and distribution in blood and peritoneal fluid of young calves with those of adult cattle.

Eight healthy 8-week-old male Holstein calves and 8 healthy 3- to 8-year-old Holstein cows were studied. Peritoneal fluid was collected from calves along the ventral midline, 4-cm cranial to the umbilicus. Abdominocentesis was performed in the region of the lower right flank in adult cattle. Correlation analysis, using the Pearson's correlation coefficient, and regression analysis were performed for blood and peritoneal fluid data from calves. Data from calves were compared with those of cows, using Wilcoxon's rank sum test. A P value < 0.05 was considered significant for all tests.

Calves had significantly lower blood eosinophil count (P < 0.003) and plasma protein concentration (P < 0.001) than did cows. Calves had significantly higher peritoneal fluid nucleated cell (P < 0.05) and mononuclear cell (P < 0.05) counts, but lower peritoneal fluid eosinophil cell count (P < 0.003) than did cows. For calves, nucleated cell and lyphocyte cell counts in the blood had a high, positive correlation with those of peritoneal fluid. However, the prediction equation for nucleated cell count accounted for a modest proportion of variability. A prediction equation for peritoneal fluid lymphocyte cell count was established.

On the basis of results of this study, reference ranges established for peritoneal fluid constituents of clinically normal adult cattle may not be appropriate for interpretation of peritoneal fluid analysis of calves.

SUMMARY

Reference values for hematologic variables change with increasing age in cattle. Therefore, the purpose of the study reported here was to describe the peritoneal fluid constitutents of clinically normal young calves, and to compare cellular concentration and distribution in blood and peritoneal fluid of young calves with those of adult cattle.

Eight healthy 8-week-old male Holstein calves and 8 healthy 3- to 8-year-old Holstein cows were studied. Peritoneal fluid was collected from calves along the ventral midline, 4-cm cranial to the umbilicus. Abdominocentesis was performed in the region of the lower right flank in adult cattle. Correlation analysis, using the Pearson's correlation coefficient, and regression analysis were performed for blood and peritoneal fluid data from calves. Data from calves were compared with those of cows, using Wilcoxon's rank sum test. A P value < 0.05 was considered significant for all tests.

Calves had significantly lower blood eosinophil count (P < 0.003) and plasma protein concentration (P < 0.001) than did cows. Calves had significantly higher peritoneal fluid nucleated cell (P < 0.05) and mononuclear cell (P < 0.05) counts, but lower peritoneal fluid eosinophil cell count (P < 0.003) than did cows. For calves, nucleated cell and lyphocyte cell counts in the blood had a high, positive correlation with those of peritoneal fluid. However, the prediction equation for nucleated cell count accounted for a modest proportion of variability. A prediction equation for peritoneal fluid lymphocyte cell count was established.

On the basis of results of this study, reference ranges established for peritoneal fluid constituents of clinically normal adult cattle may not be appropriate for interpretation of peritoneal fluid analysis of calves.

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