Oxidant-antioxidants and trace mineral status in Coccidiosis affecting buffalo calves

Trace mineral status is a critical component of bovine health. Impairment of physiological processes, caused by trace mineral toxicities or deficiencies, can be potential underlying factors of disease. Historically, the status of critical trace minerals, such as copper, manganese, selenium, and zinc, has been evaluated through the analysis of hepatic tissue. We assessed variation of these 4 elements between homogenized liver and samples of 0.02 g, 0.1 g, 0.5 g, and 1.0 g. We also evaluated concentration differences in copper, manganese, selenium, and zinc among samples stored under different durations. No differences in concentrations of copper, manganese, selenium, or zinc were observed among samples stored frozen for 3, 7, and 14 d post-collection. Statistical differences in concentrations of selenium and zinc were observed between 0.02-g biopsy samples and larger samples. Moisture content differed between 0.02-g biopsies and larger samples and over time. Results indicate that as little as 0.02 g of hepatic tissue dried to ~0.006 g is reliable for interpretation of trace mineral status and determination of toxicities and deficiencies in cattle pertaining to copper, manganese, selenium, and zinc, despite the small differences observed.

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79 Effect of source and dietary concentration of trace minerals on serum mineral status, ruminal pH, and ruminal volatile fatty acids in lactating Holstein dairy cows

Journal of Animal Science ◽

10.1093/jas/skz258.147 ◽

2019 ◽

Vol 97 (Supplement_3) ◽

pp. 71-71

Author(s):

Nicole T Briggs ◽

Bayissa Hatew ◽

Michael A Steele

Keyword(s):

Volatile Fatty Acids ◽

Rumen Fluid ◽

Latin Square ◽

Experimental Period ◽

Rumen Fermentation ◽

Trace Minerals ◽

Trace Mineral ◽

Mineral Status ◽

Ruminal Ph ◽

Dietary Concentration

Abstract Inorganic sources of trace minerals are commonly supplemented in dairy cow diets; however, there has been an increase in the supplementation of minerals complexed with organic compounds. These organic trace minerals are thought to have greater bioavailability which may enhance rumen fermentation and absorption. The objective of this study was to assess the effects of dietary concentration and source of supplemental trace minerals on serum trace mineral status and rumen fermentation. Six lactating Holstein cows were used in a 6 x 6 Latin square design with a 23-day adaptation and 5-day experimental period. Cows were fed the same basal diet daily except for the difference in source [organic (ORG) versus inorganic (INO)] and concentration (50%, 100%, and 200% based on NRC recommendations) of trace mineral supplemented. During the experimental period feed intake and blood were collected daily. Rumen fluid was collected on the final two days of the experimental period. Data was analyzed with PROC MIXED in SAS 9.4. Dry matter intake (18.1 ± 0.70 kg), serum mineral concentrations (Cu, Mn, Se, and Zn), and rumen pH (6.5 ± 0.64) did not differ among the treatments. However, serum concentration of Co was higher in 200% ORG compared to 50% and 100% INO and 50% ORG. Ruminal concentration of acetate was higher in 50% and 100% ORG compared to 200% ORG. Butyrate ruminal concentration was higher at 50% ORG compared to 200% ORG. Ruminal propionate concentration was higher in 50% INO and 50% ORG compared to 100% INO and 200% ORG. These findings demonstrate serum trace mineral status and ruminal pH are not tightly controlled by the source of trace minerals when supplemented at 50%, 100% and 200% of the NRC recommendations, however rumen fermentation may be affected by the dietary concentration of trace minerals in the diet.

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Effects of a long-acting trace mineral rumen bolus supplement on growth performance, metabolic profiles, and trace mineral status of growing camels

Tropical Animal Health and Production ◽

10.1007/s11250-016-1022-9 ◽

2016 ◽

Vol 48 (4) ◽

pp. 763-768 ◽

Cited By ~ 3

Author(s):

Ibrahim A. Alhidary ◽

Mutassim M. Abdelrahman ◽

Raafat M. Harron

Keyword(s):

Growth Performance ◽

Metabolic Profiles ◽

Trace Mineral ◽

Mineral Status ◽

Rumen Bolus ◽

Long Acting

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Increased Lead Burdens and Trace-Mineral Status in Mentally Retarded Children

The Journal of Special Education ◽

10.1177/002246698201600109 ◽

1982 ◽

Vol 16 (1) ◽

pp. 87-99 ◽

Cited By ~ 8

Author(s):

Mike Marlowe ◽

Rhonda Folio ◽

Debra Hall ◽

John Errera

Keyword(s):

Mentally Retarded ◽

Trace Mineral ◽

Mineral Status ◽

Mentally Retarded Children

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Trace mineral status of rambouillet crossbred sheep in shivalik hills of Jammu

Indian Journal of Small Ruminants (The) ◽

10.5958/0973-9718.2015.00062.8 ◽

2015 ◽

Vol 21 (2) ◽

pp. 253

Author(s):

R. Singh ◽

S.A. Beigh ◽

M. Kumar ◽

V.P. Singh ◽

A. Singh

Keyword(s):

Trace Mineral ◽

Mineral Status

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093 Effect of Pre- and Postnatal Trace Mineral (TM) Sources on Growth, Body Composition, Performance, and Liver Mineral Status in Angus and Brangus Bulls

Journal of Animal Science ◽

10.2527/ssasas2017.093 ◽

2016 ◽

Vol 95 (suppl_1) ◽

pp. 46-46

Author(s):

D. M. Price ◽

M. M. O'Neil ◽

W. B. Watson ◽

R. West ◽

D. O. Rae ◽

...

Keyword(s):

Body Composition ◽

Trace Mineral ◽

Mineral Status

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Effects of trace mineral injections on measures of performance and trace mineral status of pre- and postweaned beef calves1

Journal of Animal Science ◽

10.2527/jas.2013-7164 ◽

2014 ◽

Vol 92 (6) ◽

pp. 2630-2640 ◽

Cited By ~ 27

Author(s):

J. D. Arthington ◽

P. Moriel ◽

P. G. M. A. Martins ◽

G. C. Lamb ◽

L. J. Havenga

Keyword(s):

Trace Mineral ◽

Mineral Status ◽

Measures Of Performance

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156 Injectable trace mineral supplementation on grazing beef cows: effect on overall mineral status and fertility

Journal of Animal Science ◽

10.1093/jas/skaa278.213 ◽

2020 ◽

Vol 98 (Supplement_4) ◽

pp. 117-117

Author(s):

Stefania Pancini ◽

John Currin ◽

Jamie L Stewart ◽

Sherrie Clark ◽

Tracey Redifer ◽

...

Keyword(s):

Pregnancy Rate ◽

Body Condition Score ◽

Post Partum ◽

Fixed Time ◽

Beef Cows ◽

Negative Control ◽

Trace Mineral ◽

Mineral Status ◽

Beef Cow ◽

Estrus Detection

Abstract The objective of this study was to evaluate the effect of two doses of an injectable multi-mineral complex supplementation on beef cow fertility and overall mineral status. A total of 986 Angus crossbred multiparous cows at 8 locations in Virginia were enrolled in a 7-day CO-Synch+CIDR fixed-time artificial insemination (FTAI) protocol, followed by natural service for an approximately 70 d breeding season. All cows had ad libitum access to water, mineral blocks, and diet composed of hay, grass, sudangrass, sorghum grain and commodity pellets, depending on location. Approximately 30 days before calving (d -120, day of AI is d 0) cows were randomly assigned to one of two treatments: 1) Two doses (6 mL) of Multimin® 90 (Multimin USA, Ft. Collins, CO) at d -120 and d -10 (MIN; n = 494); or 2) a negative control with no trace mineral injection (CTRL; n = 492). Body condition score was recorded on d -10, 60 and 120. Estrus detection was recorded at d 0 using estrus detection patches. Pregnancy was diagnosed on d 60 and 120 by ultrasonography. Liver biopsies were collected on d -10 and 60 in a subgroup of 60 cows equally distributed between treatments and among all locations. No differences between treatments were detected in days post-partum (P = 0.66), BCS (P = 0.24) and estrus expression (P = 0.11). Mineral status of copper, manganese, selenium or zinc was similar between treatments before (P = 0.20) and after treatment (P = 0.17). No effect of treatment was detected in FTAI pregnancy rate (50.8%, P = 0.52) or overall pregnancy rate (89.6%, P = 0.64). Two doses of injectable trace mineral administrated approximately 30 days before calving and 10 days before FTAI did not improve pregnancy rate or overall mineral status in multiparous beef cows in Virginia.

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