Maimaiti Reshalaitihan scite author profile

The incidence of hypocalcemia increases in high-parity dairy cows because resorption of bone Ca is delayed in these animals, and they appear to have a reduced ability to absorb Ca from the intestine during the early postpartum period. Difructose anhydride (DFA) III has been shown to promote the absorption of intestinal Ca via a paracellular pathway. However, past studies have not reported this effect in peripartum dairy cows. Therefore, we investigated the effect of DFA III supplementation on Ca metabolism during the peripartum period to determine whether DFA III promotes intestinal Ca absorption via this route. Seventy-four multiparous Holstein cows were separated into DFA and control groups based on their parity and body weight. The feed of the DFA group was supplemented with 40g/d of DFA III from -14 to 6d relative to calving. The control group did not receive DFA III. At calving (0h relative to calving), serum Ca declined below 9mg/dL in both groups. However, serum Ca concentrations were greater in the DFA group than in the control group at 6, 12, 24, and 48h relative to calving, and the time required for serum Ca to recover to 9mg/dL during the postpartum period was shorter in the high-parity cows in the DFA group than in those in the control group. Parathyroid hormone concentrations increased immediately after calving in both groups and were greater in the control group than in the DFA group at 12 and 24h relative to calving. Serum 1,25-dihydroxyvitamin D concentrations increased at 0 and 12h relative to calving in both groups and were higher in the control group than in the DFA group at 72h relative to calving. Serum concentrations of the bone-resorption marker cross-linked N-telopeptide of type I collagen (NTX) were not different between the groups during peripartum period, and serum NTX in all cows was lower at 0, 6, 12, 24, 48, and 72h relative to calving than at -21, 4, and 5d relative to calving. Thus, DFA treatment induced faster recovery of serum Ca, although bone resorption was restrained. In conclusion, DFA III promotes intestinal passive Ca absorption via the paracellular pathway during the early postpartum period; this absorption is unaffected by aging.

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Effect of parity number on the dry matter intake of dairy cows during the first week after calving

Reshalaitihan

Wynn

Teramura³

et al. 2019

Animal Science Journal

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The annual milk yield of dairy cows has been increasing, but the lifetime parity of dairy cows has been gradually decreasing (Essl, 1998; Hare, Norman, & Wright, 2006). Since the economic efficiency of dairy farming is mostly a result of achieved milk production and dairy cow longevity (Heins, Hansen, & Vries, 2012), a reduction in the lifetime parity number in dairy cows directly influences the profitability of dairy farming (Sewalem, Kistemaker, Ducrocq, & Doormaal, 2005). The main reasons for dairy cow culling in the United States of America were reproductive failure, mastitis and udder problems, lameness or injury, other diseases, and poor milk production (USDA, 2007), and reproductive disorders are the most common cause of dairy cow culling in Japan (Nakada, 2006). Most of the aforementioned problems are associated with the nutritive status of the cows around the time of calving. Lee and Kim (2006) reported that a milk yield increase and body condition loss during early lactation as well as periparturient disorders caused reproductive failure in dairy cows. Grohn and Rajala-Schultz (2000) reported that an improvement in milk yield resulted in high incidence rates of reproductive health problems. The extensive energy requirements of high-producing dairy cows result in a severe negative energy balance, which may adversely impact postpartum health and fertility during the early lactation period (Butler & Smith, 1989; Lucy, 2001). In general, the increase rate of dry matter intake (DMI) after

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Influence of calving difficulty on dry matter intake immediately after calving of dairy cows

Reshalaitihan

Hanada

2019

Animal Science Journal

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We investigated the influence of calving difficulty on dry matter intake (DMI) in Holstein cows immediately after calving using 15 pregnant heifers and 15 multiparous cows. DMI was measured for 6 days after calving. Calving difficulty was evaluated with a calving score, and urinary cortisol was measured. The calving score was higher in the first lactation heifers than in the multiparous cows. The average DMI 6 days after calving was lower in the first lactation heifers than in the multiparous cows. The urinary cortisol concentration at 4 days after calving was higher in the first lactation heifers than in the multiparous cows and was positively associated with the calving score. The DMI was negatively associated with the calving score and the urinary cortisol concentration at 4 days after calving and was positively associated with the average milk yield 6 days after calving and the serum calcium concentration at 3 days after calving. We conclude that DMI immediately after calving is influenced not only by nutrient requirements of cows but also stress derived from calving, and the low DMI in the first lactation heifers is due to the lower energy requirement and high susceptibility to the stress compared with multiparous cows.

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Difructose anhydride III improves feed intake immediately after calving in multiparous cows

2021

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