补充人工甜味剂和辣椒素会改变热应激和限饲猪的代谢灵活性和性能。
Supplementation with artificial sweetener and capsaicin alters metabolic flexibility and performance in heat-stressed and feed-restricted pigs.
机构信息
Department of Animal and Poultry Sciences, Virginia Tech, Blacksburg, VA 24061, USA.
The Metabolism Core, Virginia Tech, Blacksburg, VA 24061, USA.
出版信息
J Anim Sci. 2022 Aug 1;100(8). doi: 10.1093/jas/skac195.
Substantial economic losses in animal agriculture result from animals experiencing heat stress (HS). Pigs are especially susceptible to HS, resulting in reductions in growth, altered body composition, and compromised substrate metabolism. In this study, an artificial high-intensity sweetener and capsaicin (CAPS-SUC; Pancosma, Switzerland) were supplemented in combination to mitigate the adverse effects of HS on pig performance. Forty cross-bred barrows (16.2 ± 6 kg) were assigned to one of five treatments: thermal neutral controls (TN) (22 ± 1.2 °C; 38%-73% relative humidity) with ad libitum feed, HS conditions with ad libitum feed with (HS+) or without (HS-) supplementation, and pair-fed to HS with (PF+) or without supplementation (PF-). Pigs in heat-stressed treatments were exposed to a cyclical environmental temperature of 12 h at 35 ± 1.2 °C with 27%-45% relative humidity and 12 h at 30 ± 1.1 °C with 24%-35% relative humidity for 21 d. Supplementation (0.1 g/kg feed) began 7 d before and persisted through the duration of environmental or dietary treatments (HS/PF), which lasted for 21 d. Rectal temperatures and respiration rates (RR; breaths/minute) were recorded thrice daily, and feed intake (FI) was recorded daily. Before the start and at the termination of environmental treatments (HS/PF), a muscle biopsy of the longissimus dorsi was taken for metabolic analyses. Blood samples were collected weekly, and animals were weighed every 3 d during treatment. Core temperature (TN 39.2 ± 0.02 °C, HS- 39.6 ± 0.02 °C, and HS+ 39.6 ± 0.02 °C, P < 0.001) and RR (P < 0.001) were increased in both HS- and HS+ groups, but no difference was detected between HS- and HS+. PF- pigs exhibited reduced core temperature (39.1 ± 0.02 °C, P < 0.001), which was restored in PF+ pigs (39.3 ± 0.02 °C) to match TN. Weight gain and feed efficiency were reduced in PF- pigs (P < 0.05) but not in the PF+ or the HS- or HS+ groups. Metabolic flexibility was decreased in the HS- group (-48.4%, P < 0.05) but maintained in the HS+ group. CAPS-SUC did not influence core temperature or weight gain in HS pigs but did restore core temperature, weight gain, and feed efficiency in supplemented PF pigs. In addition, supplementation restored metabolic flexibility during HS and improved weight gain and feed efficiency during PF, highlighting CAPS-SUC's therapeutic metabolic effects.
动物农业因动物遭受热应激(HS)而遭受大量经济损失。猪特别容易受到 HS 的影响,导致生长速度减慢、身体成分改变和基质代谢受损。在这项研究中,人工高强度甜味剂和辣椒素(CAPS-SUC;Pancosma,瑞士)联合补充以减轻 HS 对猪性能的不利影响。将 40 头杂交公猪(16.2 ± 6 公斤)分配到五种处理中的一种:热中性对照(TN)(22 ± 1.2°C;38%-73%相对湿度)自由采食,HS 条件下自由采食加(HS+)或不加(HS-)补充剂,以及与 HS 配对喂养加(PF+)或不加补充剂(PF-)。HS 处理中的猪暴露于 21 天的周期性环境温度为 12 小时 35 ± 1.2°C,相对湿度为 27%-45%,12 小时 30 ± 1.1°C,相对湿度为 24%-35%。补充剂(0.1 g/kg 饲料)在环境或饮食处理(HS/PF)开始前 7 天开始,并持续到处理结束(HS/PF),持续 21 天。每天记录三次直肠温度和呼吸率(RR;呼吸/分钟),并记录每日采食量(FI)。在环境处理(HS/PF)开始前和结束时,采集背最长肌的肌肉活检进行代谢分析。每周采集血样,处理期间每 3 天称重一次。核心温度(TN 39.2 ± 0.02°C,HS- 39.6 ± 0.02°C,HS+ 39.6 ± 0.02°C,P < 0.001)和 RR(P < 0.001)在 HS-和 HS+组均增加,但 HS-和 HS+组之间无差异。PF-猪的核心温度降低(39.1 ± 0.02°C,P < 0.001),但 PF+猪的核心温度恢复(39.3 ± 0.02°C)与 TN 相同。PF-猪的体重增加和饲料效率降低(P < 0.05),但 PF+或 HS-或 HS+组没有。HS-组的代谢灵活性降低(-48.4%,P < 0.05),但 HS+组保持不变。CAPS-SUC 对 HS 猪的核心温度或体重增加没有影响,但对补充 PF 猪的核心温度、体重增加和饲料效率有恢复作用。此外,补充剂恢复了 HS 期间的代谢灵活性,并改善了 PF 期间的体重增加和饲料效率,突出了 CAPS-SUC 的治疗代谢作用。
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