A radio transmission pH measurement system for continuous evaluation of fluid pH in the rumen of cows

We developed a novel wireless radio transmission pH measurement system to continuously monitor ruminal bottom pH in cows, and compared these measurements to pH values determined by a spot-sample method. The wireless system consists of a pH sensor, data measurement receiver, relay unit, and personal computer with special software. The bullet-shaped sensor can be easily administered orally via a catheter into the rumen, without surgery. The glass electrode, using a temperature compensation system, can detect the rumen fluid pH with high accuracy. The ruminal bottom pH in healthy rumen-fistulated cows was measured as 6.52 ± 0.18 by the wireless system and as 6.62 ± 0.20 by the spot-sample method; with a correlation between pH measurements using these different methods (n = 8, 24 samples, r = 0.952, P < 0.01). When measured serially in a cow fed a diet evoking rumen acidosis, the ruminal bottom pH decreased markedly following the morning feeding and then increased gradually by the next morning feeding. This wireless system is a ready-to-use tool for estimating circadian changes in ruminal bottom pH.

[1]  L. Armentano,et al.  Diagnostic methods for the detection of subacute ruminal acidosis in dairy cows. , 1999, Journal of dairy science.

[2]  M. Stevenson,et al.  The definition of acidosis in dairy herds predominantly fed on pasture and concentrates. , 2008, Journal of dairy science.

[3]  P. Weimer,et al.  Response surface analysis of the effects of pH and dilution rate on Ruminococcus flavefaciens FD-1 in cellulose-fed continuous culture , 1992, Applied and environmental microbiology.

[4]  D. Altman,et al.  Measuring agreement in method comparison studies , 1999, Statistical methods in medical research.

[5]  Jeff B. Wilson,et al.  Comparison of techniques for measurement of rumen pH in lactating dairy cows. , 2004, Journal of dairy science.

[6]  A. Beckett,et al.  AKUFO AND IBARAPA. , 1965, Lancet.

[7]  G. Oetzel,et al.  Inducing subacute ruminal acidosis in lactating dairy cows. , 2005, Journal of dairy science.

[8]  N. Odongo,et al.  Technical note: A system for continuous recording of ruminal pH in cattle. , 2007, Journal of animal science.

[9]  H. Piepho,et al.  Digesta characteristics of dorsal, middle and ventral rumen of cows fed with different hay qualities and concentrate levels , 2004, Archives of animal nutrition.

[10]  R. B. Harrington,et al.  Apparatus for obtaining ruminoreticular samples and the effect of sampling location on pH and volatile fatty acids. , 1968, Journal of dairy science.

[11]  K. Beauchemin,et al.  An evaluation of the accuracy and precision of a stand-alone submersible continuous ruminal pH measurement system. , 2006, Journal of dairy science.

[12]  L. Guan,et al.  Effects of sampling location and time, and host animal on assessment of bacterial diversity and fermentation parameters in the bovine rumen , 2009, Journal of applied microbiology.

[13]  N. Kristensen,et al.  An Evaluation of Parameters for the Detection of Subclinical Rumen Acidosis in Dairy Herds , 2004, Veterinary Research Communications.

[14]  M. Oba,et al.  Technical note: Evaluation of a continuous ruminal pH measurement system for use in noncannulated small ruminants. , 2009, Journal of animal science.

[15]  J. Keunen,et al.  Effects of a subacute ruminal acidosis model on the diet selection of dairy cows. , 2002, Journal of dairy science.

[16]  B. McBride,et al.  Subacute ruminal acidosis in dairy cows: the physiological causes, incidence and consequences. , 2008, Veterinary journal.

[17]  D. Altman,et al.  STATISTICAL METHODS FOR ASSESSING AGREEMENT BETWEEN TWO METHODS OF CLINICAL MEASUREMENT , 1986, The Lancet.

[18]  J. Enemark,et al.  The monitoring, prevention and treatment of sub-acute ruminal acidosis (SARA): a review. , 2008, Veterinary journal.

[19]  J. Marden,et al.  A new device for measuring kinetics of ruminal pH and redox potential in dairy cattle. , 2005, Journal of dairy science.