This study aimed to determine if supplementation of oxidized-beta carotene (OxC-Beta) improved sow reproductive performance, litter growth performance, vitamin A status, and ability to alter immune cells abundance in sows and piglets, subsequent litter performance, and nursery growth performance. On approximately day 60 of gestation and through the lactation period, 194 sows (blocked by parity) were assigned to a common gestation diet or the common diet supplemented with 80 ppm oxidized beta-carotene (OxC-Beta, Aviagen, Ottawa, ON, Canada). A subset of sows (N = 54 per treatment) were sampled for blood and body weight recorded at the beginning of the study, farrowing, and weaning. A blood sample was taken from a subset of piglets at birth and weaning, and all piglet weights were recorded. Blood was analyzed for vitamin A as retinol concentrations and immunoglobulin G (IgG) and immunoglobulin M (IgG) levels were assessed from the sow's blood. Twelve pigs (N = 6 per treatment) were euthanized at birth and weaning. The livers were collected and analyzed for the Kupffer cell phagocytic activity through flow cytometry. Whole blood was analyzed via flow cytometry for cluster of differentiation (CD335, CD8, and CD4). Colostrum during farrowing and milk at weaning were analyzed for IgG and IgA concentrations. Data were analyzed via SAS 9.4 using MIXED and frequency procedures where appropriate. No differences (P > 0.05) between dietary treatments were observed in sow reproductive performance, feed intake, wean to estrus interval, or piglet growth performance. No differences (P > 0.05) were observed in the plasma or liver for vitamin A. No differences (P > 0.05) were observed in the composition of the colostrum or milk. No immunological differences (P > 0.05) were observed in the piglets' liver and blood or sow antibodies in colostrum and milk. The supplementation of OxC-Beta did (P < 0.05) decrease IgM and tended (P < 0.10) to decrease IgG in sow plasma. No differences (P > 0.05) were observed in the reproductive performance of subsequent litter information from the sows. Gilt litter weaning weight and feed intake were reduced (P < 0.05) compared to sow performance. In conclusion, the supplementation of OxC-Beta at 80 ppm from day 60 of gestation through lactation does not affect the reproductive performance of sows, litter growth performance, vitamin A status, piglet immune status, and antibodies or composition in colostrum and milk.
Keywords: immune system; oxidized beta-carotene; piglet growth; reproductive performance.
Beta-carotene is a known antioxidant found in most red and orange-pigmented vegetables and has been documented to have health benefits. However, beta-carotene has been reported to gain oxygen molecules spontaneously, thus oxidizing it. Oxidized beta-carotene has been recognized to provide potential health benefits to animals, although its functions are independent of beta-carotene. Sows in this study were supplemented with an oxidized beta-carotene product to evaluate whether the product could improve reproductive performance, including the number of piglets born alive, piglet birth weight, weaning weight, sow milk quality, and immune function of both the sow and piglets. There were no significant findings between the reproductive performance or difference in colostrum and milk composition of the control sows and the sows supplemented with the product. There was also no difference in piglet growth between the two groups. The product did not affect the measured immune functions of the piglets. However, immunoglobulin G tended to decrease with the use of the product, and there was a decrease in immunoglobulin M. Overall, supplementing the oxidized beta-carotene product did not affect the reproductive performance of sows or the growth performance of piglets.
© The Author(s) 2023. Published by Oxford University Press on behalf of the American Society of Animal Science.