Influence of prepartum calcium intake on calcium mobilization rate around parturition in dairy cows fed at a high prepartum feeding level

Braak, van de; At, van 't Klooster; Malestein, A.

doi:10.1080/01652176.1986.9694014

Cited by 15 publications

(6 citation statements)

References 27 publications

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“…However, the observed U pH -NAE relationship was very similar to that observed in 11 nonpregnant, nonlactating Holstein-Friesian cows in Germany that received intraruminal infusions of different formulations of acidifying salts (Gelfert et al, 2007), and similar to that observed in 8 nonlactating Holstein cows in Wisconsin fed different anionic salts (Vagnoni and Oetzel, 1998). Moreover, the urine [Ca]-U pH relationship in late-ges-tation dairy cows is influenced primarily by the ration DCAD (Vagnoni and Oetzel, 1998;Roche et al, 2003;Martín-Tereso and Verstegen, 2011) and minimally influenced by the Ca content of the ration (Ramberg et al, 1984;van de Braak et al, 1986;Kronqvist et al, 2011). This is because the dairy cow is able to control the rate of Ca uptake from the gastrointestinal tract and Ca mobilization from bone in response to changes in ration Ca content (Ramberg et al, 1976(Ramberg et al, , 1984.…”

Section: Discussionsupporting

confidence: 77%

“…Although 24 h urine collection would have been ideal, our intent was to characterize the performance of a practical test for routine herd monitoring. The assumption of constant Crea excretion appears reasonable, because mean urinary Crea excretion in dairy cows remained constant during the week before or after parturition (van de Braak et al, 1986).…”

Section: Discussionmentioning

confidence: 99%

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Measurement of urine pH and net acid excretion and their association with urine calcium excretion in periparturient dairy cows

Constable

Megahed

Hiew

2019

Journal of Dairy Science

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Urine pH (U pH ) and net acid excretion (NAE) are used to monitor the degree of systemic acidification and predict the magnitude of resultant hypercalciuria when feeding an acidogenic ration to control periparturient hypocalcemia in dairy cattle. The objectives of this study were to evaluate the diagnostic performance of urine dipstick and pH paper for measuring U pH , and to characterize the U pH -NAE relationship and the association of urine Ca concentration ([Ca]) with U pH and NAE. Urine samples (n = 1,116) were collected daily from 106 periparturient Holstein-Friesian cows fed an acidogenic ration during late gestation. Net acid excretion was measured by titration, and U pH was measured by a glass-electrode pH meter (reference method), Multistix-SG urine dipsticks (Siemens Medical Solutions Inc., Ann Arbor, MI), and Hydrion pH paper (Micro Essential Laboratory Inc., Brooklyn, NY). Diagnostic performance was evaluated using Spearman correlation coefficient (r s ), Bland-Altman plots, and logistic regression. Urine pH measured by urine dipstick (r s = 0.94) and pH paper (r s = 0.96) were strongly associated with U pH . Method-comparison studies indicated that the urine dipstick measured an average of 0.28 pH units higher, and pH paper 0.10 pH units lower, than U pH . Urine [Ca] was more strongly associated with U pH (r s = −0.65) than NAE (r s = 0.52). Goals for controlling periparturient hypocalcemia under the study conditions were U pH <6.22 and <6.11, based on achieving urine [Ca] ≥5 mmol/L and estimated urinary Ca excretion ≥4 g/d, respectively. Urine pH was as accurate at predicting urine [Ca] as NAE when U pH >6.11. We conclude that pH paper is an accurate, practical, and low-cost cow-side test for measuring U pH and provides a clinically useful estimate of urine [Ca].

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Section: Discussionsupporting

confidence: 77%

Section: Discussionmentioning

confidence: 99%

Measurement of urine pH and net acid excretion and their association with urine calcium excretion in periparturient dairy cows

Constable

Megahed

Hiew

2019

Journal of Dairy Science

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“…On the other hand [59] found that a 100% overfeeding with energy (and 80% overfeeding with protein) during the last 8 weeks of pregnancy resulted in an increased incidence of parturient paresis. Accordingly [13,14] found that overfeeding cows prepartum increased the incidence of milk fever. [23] found no effect of energy intake prepartum.…”

Section: Controlling Dietary Carbohydrate Intake Peripartummentioning

confidence: 99%

Milk Fever Control Principles: A Review

Thilsing-Hansen¹,

Jørgensen²,

Østergaard³

2002

Acta Vet Scand

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Thilsing-Hansen T, Jørgensen RJ, Østergaard S: Milk fever control principles: A review. Acta vet. scand. 2002, 43, 1-19. -Three main preventive principles against milk fever were evaluated in this literature review, and the efficacy of each principle was estimated from the results of controlled investigations. Oral calcium drenching around calving apparently has a mean efficacy of 50%-60% in terms of milk fever prevention as well as prevention of milk fever relapse after intravenous treatment with calcium solutions. However, some drenches have been shown to cause lesions in the forestomacs. When using the DCAD (dietary cation-anion difference) principle, feeding rations with a negative DCAD (measured as (Na + K) -(Cl + S)) significantly reduce the milk fever incidence. Calculating the relative risk (RR) of developing milk fever from controlled experiments results in a mean RR between 0.19 and 0.35 when rations with a negative versus positive DCAD are compared. The main drawback from the DCAD principle is a palatability problem. The principle of feeding rations low in calcium is highly efficient in milk fever prevention provided the calcium intake in the dry period is kept below 20 g per day. Calculating the relative risk (RR) of developing milk fever from controlled experiments results in a very low mean RR (between 0 and 0.20) (daily calcium intake below versus above 20 g/d). The main problem in implementing the low-Ca principle is difficulties in formulating rations sufficiently low in calcium when using commonly available feeds. The use of large doses of vitamin D metabolites and analogues for milk fever prevention is controversial. Due to toxicity problems and an almost total lack of recent studies on the subject this principle is not described in detail. A few management related issues were discussed briefly, and the following conclusions were made: It is important to supply the periparturient cow with sufficient magnesium to fulfil its needs, and to prevent the dry cows from being too fat. Available information on the influence of carbohydrate intake, and on the effect of the length of the dry period and prepartum milking, is at present insufficient to include these factors in control programmes. dairy cows; parturient hypocalcaemia; milk fever prevention.

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“…Active, transcellular Ca transport that mediates Ca transport in absence of favorable gradients is generally accepted to be a 3-step process. In the small intestine, Ca enters the cell mainly via the transient receptor potential vanilloid channel type 6 (TRPV6; Peng et al, 1999), is bound to the cytosolic protein calbindin-D 9K (CaBP D9K ;Bronner, 1987), translocated to the basolateral membrane, and extruded predominantly by the plasma membrane Ca 2+ -ATPase isoform 1b (van Abel et al, 2003). These transport proteins have been detected in the small intestine of sheep, goats, and cows (Yamagishi et al, 2006;Wilkens et al, 2011;Wilkens et al, 2012b;Schröder et al, 2015).…”

Section: Intestinal and Renal Calcium Absorption And Resorption Mechanismsmentioning

confidence: 99%

Symposium review: Transition cow calcium homeostasis—Health effects of hypocalcemia and strategies for prevention

Wilkens

Nelson

Hernández

et al. 2020

Journal of Dairy Science

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The effects of subclinical hypocalcemia have been explored in numerous observational and mechanistic studies in recent years. Besides obvious, well-known effects on muscle contractility, the role of Ca with respect to immune function and intermediary metabolism explains the contribution of subclinical hypocalcemia to the development of several diseases observed in early lactation and underlines its importance in highperforming dairy cows. The present review aims at integrating recent scientific progress, such as discoveries about the role of the mammary gland in regulating bone mobilization, into generally accepted aspects of the endocrine control of Ca homeostasis. We will discuss Ca transport mechanisms through absorption, resorption, secretion, and mobilization, as well as the physiological regulation of Ca through parathyroid hormone, 1,25-dihydroxyvitamin D, fibroblast growth factor 23, and serotonin, in addition to dietary mineral requirements. To improve hypocalcemia prevention strategies, our knowledge of the physiological mechanisms necessary to maintain normocalcemia and their endogenous regulation should be combined with data derived from herd-level studies. Using such studies, we will discuss prepartum nutritional strategies aimed at reducing the incidence of subclinical hypocalcemia, as well as options for postpartum Ca supplementation and their effects on early-lactation health and production. Especially in respect to approaches that might interfere with endogenous adaptation processes, such as supple-mentation with vitamin D metabolites or large doses of Ca, a thorough understanding of the underlying mechanisms that might induce unwanted hypocalcemia rebound effects will be crucial to ameliorate our future management of transition cows. Continued efforts by researchers to understand the interaction of Ca homeostasis with prevention strategies is necessary to optimize cow health and support copious milk production.

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Influence of prepartum calcium intake on calcium mobilization rate around parturition in dairy cows fed at a high prepartum feeding level

Cited by 15 publications

References 27 publications

Measurement of urine pH and net acid excretion and their association with urine calcium excretion in periparturient dairy cows

Measurement of urine pH and net acid excretion and their association with urine calcium excretion in periparturient dairy cows

Milk Fever Control Principles: A Review

Symposium review: Transition cow calcium homeostasis—Health effects of hypocalcemia and strategies for prevention

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