Investigation of body and udder skin surface temperature differentials as an early indicator of mastitis in Holstein Friesian crossbred cows using digital infrared thermography technique

Investigation of body and udder skin surface temperature differentials as an early indicator of mastitis in Holstein Friesian crossbred cows using digital infrared thermography technique

Aim: The objective of this study was to investigate the ability of infrared thermography (IRT) technique and its interrelationship with conventional mastitis indicators for the early detection of mastitis in Holstein Friesian (HF) crossbred cows. Materials and Methods: A total of 76 quarters of lac...

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Main Authors: M. Sathiyabarathi, S. Jeyakumar, A. Manimaran, Heartwin A. Pushpadass, M. Sivaram, K. P. Ramesha, D. N. Das, Mukund A. Kataktalware, G. Jayaprakash, Tapas Kumar Patbandha
Format: Article
Language:English
Published: Veterinary World 2016-12-01
Series:Veterinary World
Subjects:
diagnosis
lactating cows
mastitis
temperature
Online Access:http://www.veterinaryworld.org/Vol.9/December-2016/9.pdf
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language English
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author M. Sathiyabarathi
S. Jeyakumar
A. Manimaran
Heartwin A. Pushpadass
M. Sivaram
K. P. Ramesha
D. N. Das
Mukund A. Kataktalware
G. Jayaprakash
Tapas Kumar Patbandha
spellingShingle M. Sathiyabarathi
S. Jeyakumar
A. Manimaran
Heartwin A. Pushpadass
M. Sivaram
K. P. Ramesha
D. N. Das
Mukund A. Kataktalware
G. Jayaprakash
Tapas Kumar Patbandha
Investigation of body and udder skin surface temperature differentials as an early indicator of mastitis in Holstein Friesian crossbred cows using digital infrared thermography technique
Veterinary World
diagnosis
lactating cows
mastitis
temperature
author_facet M. Sathiyabarathi
S. Jeyakumar
A. Manimaran
Heartwin A. Pushpadass
M. Sivaram
K. P. Ramesha
D. N. Das
Mukund A. Kataktalware
G. Jayaprakash
Tapas Kumar Patbandha
author_sort M. Sathiyabarathi
title Investigation of body and udder skin surface temperature differentials as an early indicator of mastitis in Holstein Friesian crossbred cows using digital infrared thermography technique
title_short Investigation of body and udder skin surface temperature differentials as an early indicator of mastitis in Holstein Friesian crossbred cows using digital infrared thermography technique
title_full Investigation of body and udder skin surface temperature differentials as an early indicator of mastitis in Holstein Friesian crossbred cows using digital infrared thermography technique
title_fullStr Investigation of body and udder skin surface temperature differentials as an early indicator of mastitis in Holstein Friesian crossbred cows using digital infrared thermography technique
title_full_unstemmed Investigation of body and udder skin surface temperature differentials as an early indicator of mastitis in Holstein Friesian crossbred cows using digital infrared thermography technique
title_sort investigation of body and udder skin surface temperature differentials as an early indicator of mastitis in holstein friesian crossbred cows using digital infrared thermography technique
publisher Veterinary World
series Veterinary World
issn 0972-8988
2231-0916
publishDate 2016-12-01
description Aim: The objective of this study was to investigate the ability of infrared thermography (IRT) technique and its interrelationship with conventional mastitis indicators for the early detection of mastitis in Holstein Friesian (HF) crossbred cows. Materials and Methods: A total of 76 quarters of lactating HF crossbred (Bos indicus × Bos taurus) cows (n=19) were monitored for body temperature (i.e., eye temperature) and udder skin surface temperature (USST) before milking using forward-looking infrared (FLIR) i5 camera. Milk samples were collected from each quarter and screened for mastitis using Somatic Cell Count (SCC), Electrical Conductivity (EC), and California mastitis test. Thermographic images were analyzed using FLIR Quick Report 1.2 image analysis software. Data on body and USST were compiled and analyzed statistically using SPSS 16.0 and Sigmaplot 11. Results: The mean±standard deviation (SD) body (37.23±0.08°C) and USST (37.22±0.04°C) of non-mastitic cow did not differ significantly; however, the mean USST of the mastitis-affected quarters were significantly higher than the body temperature and USST of unaffected quarters (p<0.001). The mean±SD USST of the subclinical mastitis (SCM) and clinical mastitis-affected quarters were 38.08±0.17 °C and 38.25±0.33 °C, respectively, which is 0.72 and 1.05 °C higher than the USST temperature of unaffected quarters. The USST was positively correlated with EC (r=0.95) and SCC (r=0.93). The receiver operating characteristic curve analysis revealed a higher sensitivity for USST in early prediction of SCM with a cut-off value of >37.61°C. Conclusion: It is concluded that infrared thermal imaging technique could be used as a potential noninvasive, quick cowside diagnostic technique for screening and early detection of SCM and clinical mastitis in crossbred cows.
topic diagnosis
lactating cows
mastitis
temperature
url http://www.veterinaryworld.org/Vol.9/December-2016/9.pdf
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spelling doaj-1a0291a2447e4899bdd5a55ee993e7b92021-08-02T11:41:31ZengVeterinary WorldVeterinary World0972-89882231-09162016-12-019121386139110.14202/vetworld.2016.1386-1391Investigation of body and udder skin surface temperature differentials as an early indicator of mastitis in Holstein Friesian crossbred cows using digital infrared thermography techniqueM. Sathiyabarathi0S. Jeyakumar1A. Manimaran2Heartwin A. Pushpadass3M. Sivaram4K. P. Ramesha5D. N. Das6Mukund A. Kataktalware7G. Jayaprakash8Tapas Kumar Patbandha9Livestock Research Centre, Southern Regional Station, Indian Council of Agricultural Research - National Dairy Research Institute, Adugodi, Bengaluru - 560 030, Karnataka, India; drmsathiyabarathi@gmail.comLivestock Research Centre, Southern Regional Station, Indian Council of Agricultural Research - National Dairy Research Institute, Adugodi, Bengaluru - 560 030, Karnataka, India; jeyakumarsakthivel@gmail.comLivestock Research Centre, Southern Regional Station, Indian Council of Agricultural Research - National Dairy Research Institute, Adugodi, Bengaluru - 560 030, Karnataka, India; maranpharma@gmail.comDairy Engineering Section, Southern Regional Station, Indian Council of Agricultural Research - National Dairy Research Institute, Adugodi, Bengaluru - 560 030, Karnataka, India; heartwin1@gmail.comDairy Economics and Statistics, Southern Regional Station, Indian Council of Agricultural Research - National Dairy Research Institute, Adugodi, Bengaluru - 560 030, Karnataka, India; sivaram.ndri@gmail.comDairy Production Section, Southern Regional Station, Indian Council of Agricultural Research - National Dairy Research Institute, Adugodi, Bengaluru - 560 030, Karnataka, India; kpragb@gmail.comDairy Production Section, Southern Regional Station, Indian Council of Agricultural Research - National Dairy Research Institute, Adugodi, Bengaluru - 560 030, Karnataka, India; dndasndri@gmail.comDairy Production Section, Southern Regional Station, Indian Council of Agricultural Research - National Dairy Research Institute, Adugodi, Bengaluru - 560 030, Karnataka, India; mtalware@gmail.comDepartment of Animal Nutrition, College of Veterinary and Animal Sciences, Mannuthy - 680 651, Kerala, India; drgjayaprakash@gmail.comLivestock Production and Management Section, Indian Council of Agricultural Research - National Dairy Research Institute, Karnal - 132 001, Haryana, India; patbandhavet@gmail.comAim: The objective of this study was to investigate the ability of infrared thermography (IRT) technique and its interrelationship with conventional mastitis indicators for the early detection of mastitis in Holstein Friesian (HF) crossbred cows. Materials and Methods: A total of 76 quarters of lactating HF crossbred (Bos indicus × Bos taurus) cows (n=19) were monitored for body temperature (i.e., eye temperature) and udder skin surface temperature (USST) before milking using forward-looking infrared (FLIR) i5 camera. Milk samples were collected from each quarter and screened for mastitis using Somatic Cell Count (SCC), Electrical Conductivity (EC), and California mastitis test. Thermographic images were analyzed using FLIR Quick Report 1.2 image analysis software. Data on body and USST were compiled and analyzed statistically using SPSS 16.0 and Sigmaplot 11. Results: The mean±standard deviation (SD) body (37.23±0.08°C) and USST (37.22±0.04°C) of non-mastitic cow did not differ significantly; however, the mean USST of the mastitis-affected quarters were significantly higher than the body temperature and USST of unaffected quarters (p<0.001). The mean±SD USST of the subclinical mastitis (SCM) and clinical mastitis-affected quarters were 38.08±0.17 °C and 38.25±0.33 °C, respectively, which is 0.72 and 1.05 °C higher than the USST temperature of unaffected quarters. The USST was positively correlated with EC (r=0.95) and SCC (r=0.93). The receiver operating characteristic curve analysis revealed a higher sensitivity for USST in early prediction of SCM with a cut-off value of >37.61°C. Conclusion: It is concluded that infrared thermal imaging technique could be used as a potential noninvasive, quick cowside diagnostic technique for screening and early detection of SCM and clinical mastitis in crossbred cows.http://www.veterinaryworld.org/Vol.9/December-2016/9.pdfdiagnosislactating cowsmastitistemperature

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