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  • Title: Supplementation with artificial sweetener and capsaicin alters metabolic flexibility and performance in heat-stressed and feed-restricted pigs.
    Author: Kroscher KA, Fausnacht DW, McMillan RP, El-Kadi SW, Wall EH, Bravo DM, Rhoads RP.
    Journal: J Anim Sci; 2022 Aug 01; 100(8):. PubMed ID: 35908791.
    Abstract:
    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. Heat stress reduces pig performance due to metabolic responses to heat. During heat stress, pigs lose the ability to metabolize fatty acids for energy and rely on carbohydrates to fuel growth. Evidence has shown that capsaicin, the active ingredient in chili peppers, interacts with heat-sensing receptors to protect against heat stress by preventing changes to metabolism. Artificial sweeteners can also preserve fat metabolism by inducing the secretion of metabolic regulatory hormones from the gut. This study examined a combination of capsaicin and artificial sweetener to restore growth and maintain metabolism during 3 wk of heat stress. As pigs often reduce their feed intake during heat stress, a group of pigs was feed restricted to match the reduced feeding observed in the heat-stressed pigs. Pigs given the feed supplement during heat stress maintained their metabolic flexibility, a measure of metabolic health. In agreement with previous short-term studies, the capsaicin and artificial sweetener supplement improved feed efficiency and weight gain in feed-restricted pigs. This study demonstrated that supplementation with capsaicin and artificial sweetener may prevent metabolic dysfunction during heat stress. This study also confirmed that supplementation with capsaicin and artificial sweetener does improve feed-restricted pigs’ growth and feed efficiency.
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