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IMMUNOGLOBULIN ABSORPTION IN CALVES RELATED TO THE COLOSTRAL IMMUNOGLOBULIN CONCENTRATION.Fellah, Abdulmunam Mohamed. January 1982 (has links)
No description available.
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Studies of some of the physical and chemical properties of colostrumMcIntyre, Russell Theodore. January 1950 (has links)
Call number: LD2668 .T4 1950 M337 / Master of Science
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The absorption of colostral immunoglobulins in the dystocial calfReinhard, Eric Jon, 1947- January 1976 (has links)
No description available.
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The influence of environment on immunoglobulin absorption in neonatal calvesMenefee, Barry Eugene, 1947- January 1977 (has links)
No description available.
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The feeding of fermented colostrum to neonatal calves /Drevjany, L. A. (Lumir A.) January 1983 (has links)
The possibility of improving the nutritive value of fermented colostrum for neonatal calves was investigated in 5 trials involving 164 Holstein calves and in 2 laboratory experiments. / The inoculation of colostrum with S. lactis culture ensured a highly palatable and more uniform product. Calves fed the inoculated product gained in weight quicker and consumed more starter than those fed naturally fermented colostrum. / The addition of sorbic acid to S. lactis inoculated colostrum controlled the mold contamination, particularly during hot summer weather. This lowered the degradation of lactose and protein and extended the storage life. The application of 1,000 ppm of sorbic acid during the first 4 days of storage is, therefore, recommended. / An undesirably narrow ratio of Digestible Energy/Digestible Protein in colostrum was widened through the use of a supplementary energy source. These treatments also improved the performance of calves.
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The influence of nutritional and environmental factors on the composition of sow's colostrum and milkBowland, J. P. January 1949 (has links)
Thesis (Ph. D.)--University of Wisconsin--Madison, 1949. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 91-97).
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The feeding of fermented colostrum to neonatal calves /Drevjany, L. A. (Lumir A.) January 1983 (has links)
No description available.
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Photoperiod and Temperature-Humidity Index during the Dry-Period Impact Colostrum and Milk Production in Dairy CattleAlward, Kayla Jean 26 June 2023 (has links)
Colostrum quality is critical to calf health as colostrum provides immunoglobulins (Ig) that are critical for a calf's immune system. Despite close management of factors known to affect colostrum production, 23% of dairy cows are still producing inadequate volume or quality of colostrum, which causes calf death and poor performance. Therefore, the objectives of this dissertation are to investigate factors that affect colostrum production and methods to improve colostrum yield and quality. Based on previous literature showing that photoperiod impacts milk yield post-calving in dry cows and that light intensity and temperature-humidity index (THI) impact colostral Ig content, I hypothesized that photoperiod and THI during the dry period impact colostrum yield and quantity in Holstein and Jersey cows. The first study evaluated the isolated effect of photoperiod on colostrum production. Dry cows were housed in a temperature-controlled barn and exposed to either short-day photoperiod (SDPP) of 8 h of light per day or long-day photoperiod (LDPP) of 16 h of light per day for the entire dry period until calving. Altered photoperiod had no effect on colostrum yield, Ig content or other components of colostrum. However, Jersey cows had a higher Brix score, fat, protein, IgA and IgM. After calving, milk production was not affected by photoperiod treatment, likely due to cows being exposed to an irregular lighting scheme. The second study evaluated the combined effects of photoperiod and THI during the dry period on colostrum production and broke cows into a bottom (1), middle (2) and top (3) third based on their photoperiod exposure. Holstein cows produced more colostrum than Jersey cows in each photoperiod category. For both breeds, photoperiod category 1 cows produced less colostrum than cows in photoperiod category 2 and 3. Brix score did not differ by breed but differed by farm and photoperiod category with farm 1, photoperiod category 3 cows having increased Brix score compared to farm 2, photoperiod category 1 and 2 cows. Colostrum components for Jersey cows did not differ by photoperiod category. However, colostrum volume, Brix score, protein and SNF were all impacted by THI and (or) photoperiod variables in predictive modeling. This indicates that colostrum yield and quality in Holstein and Jersey cows are similarly impacted by both photoperiod exposure and THI exposure during the last two months of pregnancy. Therefore, farmers can utilize short-day photoperiod during the dry period during times of moderate THI to improve milk production post-calving without negatively impacting colostrum production. However, future studies are needed to tease out THI and photoperiod impact on colostrum on a large scale in order to improve dry cow management and colostrum production. / Doctor of Philosophy / Cows do not transfer antibodies or immunoglobulins to their offspring during gestation and calves are born deficient in antibodies that are critical for a healthy immune system. Instead, cows transfer antibodies into the first milk that they produce, termed colostrum. After calves ingest the colostrum, the antibodies are absorbed by the small intestine and enter circulation where they can traverse the body to identify and neutralize pathogens. To ensure adequate immune system function, calves must ingest 150 – 200 g of antibodies within 6 h of birth. However, around 23% of cows do not produce enough antibodies in their colostrum or have low colostrum yield overall. 19% of calves do not ingest enough antibodies and will die or have negative health effects that persist into adulthood as a result.
Therefore, the objective of this dissertation is to investigate methods to improve colostrum production in cows to improve calf health and reduce calf deaths. While several factors that affect colostrum production have been identified and are managed for optimum colostrum production, there is still high variation in colostrum production from cow to cow. Based on previous research showing that colostrum yield varies seasonally and that daily light exposure, or photoperiod, can impact milk production, I hypothesized that photoperiod and temperature-humidity index (THI) during the last two months of pregnancy impact colostrum production in cows.
The first study was designed to isolate the effect of photoperiod on colostrum, by housing Holstein and Jersey cows in a temperature-controlled barn during the last two months of pregnancy and exposing them to varying daylengths. Cows were exposed to either a short-day photoperiod of 8 h of light per day or a long-day photoperiod of 16 h of light per day. When the cows gave birth, they were milked and the amount of colostrum produced and the components of the colostrum were evaluated. A Brix refractometer, which is widely used by farmers to estimate colostrum quality as it is an on-farm tool that estimates colostrum antibody content, was also used in this study. Cows were returned to ambient photoperiod and milk, fat and protein production were tracked for 15 weeks. I found that altered photoperiod had no effect on colostrum yield, antibody content or other components of colostrum. However, Jersey cows had a higher Brix score, fat, protein, antibody IgA and antibody IgM. After calving, milk production was not affected by photoperiod treatment, likely because of irregular lighting exposure after calving. These data indicate that photoperiod alone may not be causing the seasonal variations associated with colostrum production.
Therefore, a second study was conducted to evaluate the effects of photoperiod and THI together on subsequent colostrum production in Holstein and Jersey cattle by month. Colostrum production and weather data were collected for cows housed in ambient photoperiod and THI for the last two months of pregnancy from two different farms. Cows were divided into a bottom (1), middle (2) and top (3) third based on their photoperiod exposure. Holstein cows produced more colostrum than Jersey cows in each photoperiod category. For both breeds, photoperiod category 1 cows produced less colostrum than cows in photoperiod category 2 and 3. Brix score did not differ by breed but differed by farm and photoperiod category with farm 1, photoperiod category 3 cows having increased Brix score compared to farm 2, photoperiod category 1 and 2 cows. Colostrum components for Jersey cows did not differ by photoperiod category. However, colostrum volume, Brix score, protein and SNF were all impacted by THI and (or) photoperiod variables in predictive modeling. This indicates that colostrum yield and quality in Holstein and Jersey cows are similarly impacted by both photoperiod exposure and THI exposure during the last two months of pregnancy.
Data from these studies are the first to show the isolated effect of photoperiod on colostrum production in Jersey cows and the second showing data on Holstein cows. Recommendations have already been made to dairy producers to limit photoperiod exposure during the last two months of pregnancy in order to increase milk production post-calving. This study shows that limiting photoperiod will not compromise colostrum production in cows. However, I also found that colostrum production is also impacted by THI exposure and that colostrum yield and quality have inverse relationships with photoperiod and THI exposure. Whereas colostrum yield increases with increased photoperiod and THI, Brix score decreases. Therefore, managing for increased colostrum quality is compromised by colostrum yield. This study also found that the widely accepted indirect measure of antibody content, the Brix score, was not a reliable estimate of antibody content and instead, a better indicator of solids content of colostrum.
In conclusion, these data show that photoperiod alone does not impact colostrum production, rather a combined effect of photoperiod and THI are responsible for seasonal variation in colostrum and differences between breeds of cow are also evident. In addition, Brix score may not be the best indicator of colostrum quality and could be replaced by more reliable methods by dairy farmers to ensure that adequate colostrum is fed to calves. Future studies will need to explore differences in response to photoperiod vs. THI alteration and explore genetic associations with colostrum production, to identify which genes are associated with increased colostrum quality in Jersey cows so that we may genetically select for increased colostrum quality.
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IDENTIFICATION OF A BOVINE IMMUNOGLOBULIN COMPONENT UNIQUE TO MILK AND COLOSTRUMDavis, Elizabeth Jane, 1961- January 1986 (has links)
No description available.
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Cryptosporidium: Oocyst production and hybridoma generation for examining colostrum and monoclonal antibody roles in cryptosporidial infections.Arrowood, Michael James. January 1988 (has links)
Techniques for the large-scale isolation of Cryptosporidium oocysts and sporozoites, obtained from the feces of experimentally infected Holstein calves, were developed employing discontinuous sucrose gradients and isopycnic Percoll gradients. The three step oocyst recovery method utilized two sequential discontinuous sucrose gradients followed by one Percoll gradient. Recovered oocysts were essentially free of debris and bacteria and represented 34% of the original oocyst suspension. Sporozoites were recovered from excystation mixtures on a single Percoll gradient. Sixty-three percent of the original sporozoites were recovered with 2.2% contamination by intact oocysts and virtually no oocyst walls. Eight anti-oocyst hybridomas were derived from oocyst-immunized mice: five from BALB/c mice and three from RBF/Dn mice. The monoclonal antibody (Mab) OW3 reacted specifically with C. parvum oocysts in immunofluorescent assays (IFA) and was shown to be superior to conventional stains for detecting oocysts in fecal smears from infected individuals. Sixteen anti-sporozoite hybridomas were derived from sporozoite-immunized BALB/c mice. The Mabs appeared to react with cell surface and cytoplasmic antigens by IFA. Two anti-sporozoite Mabs (C8C5, C6B6) reacted with a 20 kDa sporozoite antigen in western blots while the Mab C4A1 reacted with multiple antigens in western blots. These three Mabs (C8C5, C6B6, C4A1) were examined for potential modulation of cryptosporidial infections in vivo by oral Mab administration to oocyst-inoculated neonatal mice. The role for colostrum and breast milk in controlling cryptosporidial infections was examined by immunizing mouse dams and experimentally infecting their neonatal offspring. Colostrum and Mab-treated neonatal mice were sacrificed four days post infection. No difference in infection rates was observed among the treatment groups. Suckling mice treated daily with orally administered mixtures of Mabs (purified or ascitic fluid) showed significantly reduced parasite loads compared to control mice at four days post infection. In vitro cultivation of C. parvum was successful through asexual stages in human fetal lung, bovine turbinate and murine L929 cells. Parasite numbers that developed in the cell cultures varied from infection run to infection run.
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