Use of every ten-day criteria for metabolic profile test after calving and dry off in dairy herds
The traditional metabolic profile test cannot be applied to peripartum dairy cows, because these cows are in a state of physiological abnormality making it difficult to interpret their blood components. This study aimed at establishing and evaluating the practicability of interpreting a metabolic pr...
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| Published in | Journal of Veterinary Medical Science Vol. 64; no. 11; pp. 1003 - 1010 |
|---|---|
| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
Japan
JAPANESE SOCIETY OF VETERINARY SCIENCE
01.11.2002
Japan Science and Technology Agency |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0916-7250 1347-7439 |
| DOI | 10.1292/jvms.64.1003 |
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| Abstract | The traditional metabolic profile test cannot be applied to peripartum dairy cows, because these cows are in a state of physiological abnormality making it difficult to interpret their blood components. This study aimed at establishing and evaluating the practicability of interpreting a metabolic profile test every 10 days (Ten-day criteria) during the dry and lactation periods in herds with high and no incidence of peripartum diseases. Data from 29,043 cows in 1,130 commercial dairy herds were used to establish standard values every 10 days, mean ± 1.0 standard deviation for the metabolic profile test. The practicability of these criteria was evaluated in herds with peripartum diseases. In the ten-day criteria, the body condition score, albumin, blood urea nitrogen, glucose, total cholesterol, nonesterified fatty acids, γ-glutamyl transpeptidase and aspartate aminotransferase, fluctuated during the dry and early lactation periods and there were very big changes in packed cell volume, blood urea nitrogen, total cholesterol and magnesium just after calving. The ten-day criteria were able to detect overconditioned cows, low levels of albumin, total cholesterol and magnesium, and high nonesterified fatty acids in herds with a high incidence of peripartum diseases. In conclusion, the ten-day criteria can be successfully applied to peripartum cows, and is recommended because it is able to detect metabolic abnormalities not only in the herd, but also in individual cows. |
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| AbstractList | The traditional metabolic profile test cannot be applied to peripartum dairy cows, because these cows are in a state of physiological abnormality making it difficult to interpret their blood components. This study aimed at establishing and evaluating the practicability of interpreting a metabolic profile test every 10 days (Ten-day criteria) during the dry and lactation periods in herds with high and no incidence of peripartum diseases. Data from 29,043 cows in 1,130 commercial dairy herds were used to establish standard values every 10 days, mean ± 1.0 standard deviation for the metabolic profile test. The practicability of these criteria was evaluated in herds with peripartum diseases. In the ten-day criteria, the body condition score, albumin, blood urea nitrogen, glucose, total cholesterol, nonesterified fatty acids, γ-glutamyl transpeptidase and aspartate aminotransferase, fluctuated during the dry and early lactation periods and there were very big changes in packed cell volume, blood urea nitrogen, total cholesterol and magnesium just after calving. The ten-day criteria were able to detect overconditioned cows, low levels of albumin, total cholesterol and magnesium, and high nonesterified fatty acids in herds with a high incidence of peripartum diseases. In conclusion, the ten-day criteria can be successfully applied to peripartum cows, and is recommended because it is able to detect metabolic abnormalities not only in the herd, but also in individual cows. The traditional metabolic profile test cannot be applied to peripartum dairy cows, because these cows are in a state of physiological abnormality making it difficult to interpret their blood components. This study aimed at establishing and evaluating the practicability of interpreting a metabolic profile test every 10 days (Ten-day criteria) during the dry and lactation periods in herds with high and no incidence of peripartum diseases. Data from 29,043 cows in 1,130 commercial dairy herds were used to establish standard values every 10 days, mean +/- 1.0 standard deviation for the metabolic profile test. The practicability of these criteria was evaluated in herds with peripartum diseases. In the ten-day criteria, the body condition score, albumin, blood urea nitrogen, glucose, total cholesterol, nonesterified fatty acids, gamma-glutamyl transpeptidase and aspartate aminotransferase, fluctuated during the dry and early lactation periods and there were very big changes in packed cell volume, blood urea nitrogen, total cholesterol and magnesium just after calving. The ten-day criteria were able to detect overconditioned cows, low levels of albumin, total cholesterol and magnesium, and high nonesterified fatty acids in herds with a high incidence of peripartum diseases. In conclusion, the ten-day criteria can be successfully applied to peripartum cows, and is recommended because it is able to detect metabolic abnormalities not only in the herd, but also in individual cows.The traditional metabolic profile test cannot be applied to peripartum dairy cows, because these cows are in a state of physiological abnormality making it difficult to interpret their blood components. This study aimed at establishing and evaluating the practicability of interpreting a metabolic profile test every 10 days (Ten-day criteria) during the dry and lactation periods in herds with high and no incidence of peripartum diseases. Data from 29,043 cows in 1,130 commercial dairy herds were used to establish standard values every 10 days, mean +/- 1.0 standard deviation for the metabolic profile test. The practicability of these criteria was evaluated in herds with peripartum diseases. In the ten-day criteria, the body condition score, albumin, blood urea nitrogen, glucose, total cholesterol, nonesterified fatty acids, gamma-glutamyl transpeptidase and aspartate aminotransferase, fluctuated during the dry and early lactation periods and there were very big changes in packed cell volume, blood urea nitrogen, total cholesterol and magnesium just after calving. The ten-day criteria were able to detect overconditioned cows, low levels of albumin, total cholesterol and magnesium, and high nonesterified fatty acids in herds with a high incidence of peripartum diseases. In conclusion, the ten-day criteria can be successfully applied to peripartum cows, and is recommended because it is able to detect metabolic abnormalities not only in the herd, but also in individual cows. The traditional metabolic profile test cannot be applied to peripartum dairy cows, because these cows are in a state of physiological abnormality making it difficult to interpret their blood components. This study aimed at establishing and evaluating the practicability of interpreting a metabolic profile test every 10 days (Ten-day criteria) during the dry and lactation periods in herds with high and no incidence of peripartum diseases. Data from 29,043 cows in 1,130 commercial dairy herds were used to establish standard values every 10 days, mean +/- 1.0 standard deviation for the metabolic profile test. The practicability of these criteria was evaluated in herds with peripartum diseases. In the ten-day criteria, the body condition score, albumin, blood urea nitrogen, glucose, total cholesterol, nonesterified fatty acids, gamma-glutamyl transpeptidase and aspartate aminotransferase, fluctuated during the dry and early lactation periods and there were very big changes in packed cell volume, blood urea nitrogen, total cholesterol and magnesium just after calving. The ten-day criteria were able to detect overconditioned cows, low levels of albumin, total cholesterol and magnesium, and high nonesterified fatty acids in herds with a high incidence of peripartum diseases. In conclusion, the ten-day criteria can be successfully applied to peripartum cows, and is recommended because it is able to detect metabolic abnormalities not only in the herd, but also in individual cows. |
| Author | Kida, K. (Large Animal Clinic and Research Center, Ebetsu, Hokkaido (Japan)) |
| Author_xml | – sequence: 1 fullname: Kida, K. (Large Animal Clinic and Research Center, Ebetsu, Hokkaido (Japan)) |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/12499685$$D View this record in MEDLINE/PubMed |
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| References | 12. Kronfeld, D. S., Donoghue, S., Copp, R. L., Sterns, F. M. and Engle, R. H. 1982. Nutritional status of dairy cows indicated by analysis of blood. J. Dairy Sci. 65: 1925-1933. 10. Hiratsuka, H., Takahashi, K., Kurosawa, T., Sonoda, M., Ataku, K. and Narasaki, N. 1987. Correlation between nutrient intake and blood components of dairy cows in early lactation stage. J. Jpn. Vet. Med. Assoc. 40: 118-123. 17. Osaki, K. and Kida, K. 1995. Metabolic profile test using mobile system on dairy herd. 1.system. p. 102. In: Proceedings of the 25th. World Veterinary Congress, Yokohama. 1. Adams, R. S., Stout, W. L., Kradel, D. C., Guss, S. B. Jr., Moser, B. L. and Jung, G. A. 1978. Use and limitations of profiles in assessing health or nutritional status of dairy herds. J. Dairy Sci. 61: 1671-1679. 2. Amano, H., Takesima, Y., Nitta, M., Mabuti, T., Tokuti, T. and Yagi, T. 1992. Relationship of haematocrit values with age, lactation stage, nutrition levels of dairy cows and temperature. J. Jpn. Vet. Med. Assoc. 45: 467-470. 20. Payne, J. M. and Payne, S. 1987. Physiological background. p. 19. In: The Metabolic Profile Test (Payne, J. M. and Payne, S. eds.), Oxford University Press, London. 23. Whitaker, D. A. 2000. Use and interpretation of metabolic profiles. pp. 89-93. In: The Health of Dairy Cattle (Andrews, A. H. ed.), Blackwell Science, Oxford. 18. Parker, B. N. J. and Blowey, R. W. 1976. Investigations into the relationship of selected blood components to nutrition and fertility of the dairy cow under commercial farm conditions. Vet. Rec. 98: 394-404. 24. Wildman, E. E., Jones, G. M., Wagner, P. E., Boman, R. L., Trout, H. F. Jr. and Lesch, T. N. 1982. A dairy cow body condition scoring system and its relationship selected production characteristics. J. Dairy Sci. 65: 495-501. 7. Dyk, P. B., Emery, R. S., Liesman, J. L., Bucholtz, H. F. and Vande Haar, M. J. 1995. Prepartum nonesterified fatty acids in plasma are higher in cows developing periparturient health problems. J. Dairy Sci. 78 (Suppl. 1): 264. 16. Ohgi, T., Maeta, Y., Ito, S., Kajino, S., Matsuda, S., Anri, A. and Usui, A. 1989. Metabolic profile test of dairy herds in Hokkaido. J. Jpn. Vet. Med. Assoc. 42: 306-311 (in Japanese with English summary). 9. Herdt, T. H. 2000. Variability characteristics and test selection in herd-level nutritional and metabolic profile testing. Vet. Clin. North Am. Food Anim. Pract. 16: 387-403. 6. Cote, J. F. and Hoff, B. 1991. Clinical effects of low dietary phosphorus concentrations in feed given to lactating dairy cows. The Bovine Practitioner 26: 7-11. 11. Jones, G. M., Wildman, E. E., Troutt, H. F. Jr. Lesch, T. N., Wagner, P. E., Boman, R. L. and Lanning, N. M. 1982. Metabolic profiles in Virginia dairy herds of different milk yields. J. Dairy Sci. 65: 683-688. 19. Payne, J. M., Dew, S. M., Manston, R. and Faulks, M. 1970. The use of a metabolic profile test in dairy herds. Vet. Rec. 87: 150-158. 8. Ghergariu, S., Rowlands, G. J., Pop, A. L., Danielescu, N. and Moldovan, N. A. 1984. A comparative study of metabolic profiles obtained in dairy herds in Romania. Brit. Vet. J. 140: 600-608. 25. Yamada, K., Nakao, T., Sononaka, A., Minami, S., Miyano, M. and Kawata, K. 1994. Nutritional status of dairy cows and periparturient complications and reproductive performance. J. Jpn. Vet. Med. Assoc. 47: 322-326. 4. Blowey, R. W., Wood, D. W. and Davis, J. R. 1973. A nutritional monitoring system for dairy herds based on blood glucose, urea and albumin levels. Vet. Rec. 92: 691-696. 3. Bertics, A. J., Grummer, R. R., Cadorniga-Valino, C. and Stoddard, E. 1992. Effect of prepartum dry matter intake on liver triglyceride concentration and early lactation. J. Dairy Sci. 75: 1914-1922. 22. Van Saun, R. J. 1997. Nutritional profiles, A new approach for dairy herds. The Bovine Practitioner 31: 43-49. 21. Payne, J. M. and Payne, S. 1987. The profile test used in surveys. p. 146. In: The Metabolic Profile Test (Payne, J. M. and Payne, S. eds.), Oxford University Press, London. 14. Morrow, D. A., Hillman, D., Dade, A. W. and Kichen, H. 1979. Clinical investigation of a dairy herd with the fat cow syndrome. J. Am. Vet. Med. Assoc. 174: 161-167. 15. Nordlund, K. 1989. Using adjusted milk calculations. Agri-Practice 10: 3-7. 5. Blowey, R. W. 1975. A practical application of metabolic profiles. Vet. Rec. 97: 324-327. 13. Lee, A. J., Twardock, A. R., Bubar, R. H., Hall, J. E. and Davis, C. L. 1978. Blood metabolic profiles, their use and relation to nutritional status of dairy cattle. J. Dairy Sci. 61: 1652-1670. Amano, H., Takesima, Y., Nitta, M. (2) 1992; 45 Payne, J. M. and Payne, S. (21) 1987 Osaki, K. and Kida, K. (17) 1995 Van Saun, R. J. (22) 1997; 31 Wildman, E. E., Jones, G. M., Wagne (24) 1982; 65 Blowey, R. W. (5) 1975; 97 Cote, J. F. and Hoff, B. (6) 1991; 26 (3) 1992; 75 Ohgi, T., Maeta, Y., Ito, S., Kajin (16) 1989; 42 Blowey, R. W., Wood, D. W. and Davi (4) 1973; 92 Payne, J. M., Dew, S. M., Manston (19) 1970; 87 Payne, J. M. and Payne, S. (20) 1987 Adams, R. S., Stout, W. L., Kradel (1) 1978; 61 Whitaker, D. A. (23) 2000 Ghergariu, S., Rowlands, G. J., Pop (8) 1984; 140 Herdt, T. H. (9) 2000; 16 Parker, B. N. J. and Blowey, R. W. (18) 1976; 98 Yamada, K., Nakao, T., Sononaka, A. (25) 1994; 47 Jones, G. M., Wildman, E. E., Trout (11) 1982; 65 Morrow, D. A., Hillman, D., Dade, A (14) 1979; 174 Hiratsuka, H., Takahashi, K., Kuros (10) 1987; 40 Lee, A. J., Twardock, A. R., Bubar (13) 1978; 61 Dyk, P. B., Emery, R. S., Liesman (7) 1995; 78 Nordlund, K. (15) 1989; 10 Kronfeld, D. S., Donoghue, S., Copp (12) 1982; 65 |
| References_xml | – reference: 1. Adams, R. S., Stout, W. L., Kradel, D. C., Guss, S. B. Jr., Moser, B. L. and Jung, G. A. 1978. Use and limitations of profiles in assessing health or nutritional status of dairy herds. J. Dairy Sci. 61: 1671-1679. – reference: 4. Blowey, R. W., Wood, D. W. and Davis, J. R. 1973. A nutritional monitoring system for dairy herds based on blood glucose, urea and albumin levels. Vet. Rec. 92: 691-696. – reference: 2. Amano, H., Takesima, Y., Nitta, M., Mabuti, T., Tokuti, T. and Yagi, T. 1992. Relationship of haematocrit values with age, lactation stage, nutrition levels of dairy cows and temperature. J. Jpn. Vet. Med. Assoc. 45: 467-470. – reference: 9. Herdt, T. H. 2000. Variability characteristics and test selection in herd-level nutritional and metabolic profile testing. Vet. Clin. North Am. Food Anim. Pract. 16: 387-403. – reference: 25. Yamada, K., Nakao, T., Sononaka, A., Minami, S., Miyano, M. and Kawata, K. 1994. Nutritional status of dairy cows and periparturient complications and reproductive performance. J. Jpn. Vet. Med. Assoc. 47: 322-326. – reference: 6. Cote, J. F. and Hoff, B. 1991. Clinical effects of low dietary phosphorus concentrations in feed given to lactating dairy cows. The Bovine Practitioner 26: 7-11. – reference: 19. Payne, J. M., Dew, S. M., Manston, R. and Faulks, M. 1970. The use of a metabolic profile test in dairy herds. Vet. Rec. 87: 150-158. – reference: 14. Morrow, D. A., Hillman, D., Dade, A. W. and Kichen, H. 1979. Clinical investigation of a dairy herd with the fat cow syndrome. J. Am. Vet. Med. Assoc. 174: 161-167. – reference: 21. Payne, J. M. and Payne, S. 1987. The profile test used in surveys. p. 146. In: The Metabolic Profile Test (Payne, J. M. and Payne, S. eds.), Oxford University Press, London. – reference: 18. Parker, B. N. J. and Blowey, R. W. 1976. Investigations into the relationship of selected blood components to nutrition and fertility of the dairy cow under commercial farm conditions. Vet. Rec. 98: 394-404. – reference: 8. Ghergariu, S., Rowlands, G. J., Pop, A. L., Danielescu, N. and Moldovan, N. A. 1984. A comparative study of metabolic profiles obtained in dairy herds in Romania. Brit. Vet. J. 140: 600-608. – reference: 16. Ohgi, T., Maeta, Y., Ito, S., Kajino, S., Matsuda, S., Anri, A. and Usui, A. 1989. Metabolic profile test of dairy herds in Hokkaido. J. Jpn. Vet. Med. Assoc. 42: 306-311 (in Japanese with English summary). – reference: 24. Wildman, E. E., Jones, G. M., Wagner, P. E., Boman, R. L., Trout, H. F. Jr. and Lesch, T. N. 1982. A dairy cow body condition scoring system and its relationship selected production characteristics. J. Dairy Sci. 65: 495-501. – reference: 23. Whitaker, D. A. 2000. Use and interpretation of metabolic profiles. pp. 89-93. In: The Health of Dairy Cattle (Andrews, A. H. ed.), Blackwell Science, Oxford. – reference: 13. Lee, A. J., Twardock, A. R., Bubar, R. H., Hall, J. E. and Davis, C. L. 1978. Blood metabolic profiles, their use and relation to nutritional status of dairy cattle. J. Dairy Sci. 61: 1652-1670. – reference: 20. Payne, J. M. and Payne, S. 1987. Physiological background. p. 19. In: The Metabolic Profile Test (Payne, J. M. and Payne, S. eds.), Oxford University Press, London. – reference: 10. Hiratsuka, H., Takahashi, K., Kurosawa, T., Sonoda, M., Ataku, K. and Narasaki, N. 1987. Correlation between nutrient intake and blood components of dairy cows in early lactation stage. J. Jpn. Vet. Med. Assoc. 40: 118-123. – reference: 15. Nordlund, K. 1989. Using adjusted milk calculations. Agri-Practice 10: 3-7. – reference: 11. Jones, G. M., Wildman, E. E., Troutt, H. F. Jr. Lesch, T. N., Wagner, P. E., Boman, R. L. and Lanning, N. M. 1982. Metabolic profiles in Virginia dairy herds of different milk yields. J. Dairy Sci. 65: 683-688. – reference: 7. Dyk, P. B., Emery, R. S., Liesman, J. L., Bucholtz, H. F. and Vande Haar, M. J. 1995. Prepartum nonesterified fatty acids in plasma are higher in cows developing periparturient health problems. J. Dairy Sci. 78 (Suppl. 1): 264. – reference: 12. Kronfeld, D. S., Donoghue, S., Copp, R. L., Sterns, F. M. and Engle, R. H. 1982. Nutritional status of dairy cows indicated by analysis of blood. J. Dairy Sci. 65: 1925-1933. – reference: 3. Bertics, A. J., Grummer, R. R., Cadorniga-Valino, C. and Stoddard, E. 1992. Effect of prepartum dry matter intake on liver triglyceride concentration and early lactation. J. Dairy Sci. 75: 1914-1922. – reference: 22. Van Saun, R. J. 1997. Nutritional profiles, A new approach for dairy herds. The Bovine Practitioner 31: 43-49. – reference: 17. Osaki, K. and Kida, K. 1995. Metabolic profile test using mobile system on dairy herd. 1.system. p. 102. In: Proceedings of the 25th. 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| SubjectTerms | Animal Husbandry Animals Body Weight Cattle - blood Cattle - metabolism Cattle Diseases - blood Cattle Diseases - diagnosis Cattle Diseases - metabolism criterion dairy cow DAIRY COWS Dairying DRY PERIOD Energy Metabolism Female Lactation - blood Lactation - metabolism Metabolic Diseases - blood Metabolic Diseases - diagnosis Metabolic Diseases - veterinary metabolic profile test METABOLISM PARTURITION Parturition - blood Parturition - metabolism Pregnancy Pregnancy, Animal - blood Pregnancy, Animal - metabolism Time Factors |
| Title | Use of every ten-day criteria for metabolic profile test after calving and dry off in dairy herds |
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