Hazlewood Kathryn J, Zumbaugh Charles A, Jones Cassandra K, Atkinson Emily M, Tingler Hannah L R, Inhuber Vivienne K, Brouk Micheal J, Antony Reshma M, Titgemeyer Evan C
Department of Animal Sciences and Industry, Kansas State University, Manhattan, KS 66506, USA.
Alzchem Trostberg GmbH, 83308 Trostberg, Germany.
Animals (Basel). 2024 Sep 24;14(19):2757. doi: 10.3390/ani14192757.
Guanidinoacetic acid (GAA) is the direct precursor to creatine, which serves as an energy reserve mechanism in the body. We evaluated the effects of GAA supplementation on the growth performance of calves fed milk replacer. Forty-five Holstein-Angus steer calves (40.9 kg, approximately 1 week old) were assigned to 1 of 3 treatments to assess growth performance and data from 41 calves were analyzed. Treatments were provided in the milk replacer for 42 d and included 0, 1, or 2 g GAA/d. Calves were fed 2.84 L milk replacer twice daily with ad libitum access to starter feed and water. Treatments ended on day 42 prior to a 17-day weaning period. Supplementation of GAA increased ( < 0.01) plasma concentrations of GAA (0.42, 0.51, and 0.67 mg/L for 0, 1, and 2 g GAA/d, respectively) and creatine (18.7, 22.1, and 24.4 mg/L for 0, 1, and 2 g GAA/d, respectively). Bodyweight tended to linearly increase ( = 0.09) with increasing GAA on d 59 (91.2, 98.3, and 98.6 kg for 0, 1, and 2 g GAA/d, respectively). Daily gains from day 0 to 59 tended to increase with GAA provision ( = 0.09; 0.86, 0.97, and 0.98 kg/d for 0, 1, and 2 g GAA/d, respectively). Starter feed dry matter intake tended to linearly increase ( = 0.06) with GAA supplementation (0.201, 0.278, and 0.286 kg/d for 0, 1, and 2 g GAA/d, respectively). Treatments providing 1 and 2 g GAA/d affected performance similarly. No differences among treatments were observed for health (respiratory and fecal) scores during the application of treatments or during the subsequent weaning period. The inclusion of GAA in milk replacer tended to increase the gain of calves, and this was associated with elevated starter feed intake.
胍基乙酸(GAA)是肌酸的直接前体,肌酸在体内起着能量储备机制的作用。我们评估了补充GAA对饲喂代乳粉的犊牛生长性能的影响。将45头荷斯坦-安格斯公犊牛(40.9千克,约1周龄)分配到3种处理中的1种,以评估生长性能,并对41头犊牛的数据进行了分析。在代乳粉中添加处理42天,处理包括每天添加0、1或2克GAA。犊牛每天两次饲喂2.84升代乳粉,可自由采食开食料和饮水。处理在第42天结束,随后是为期17天的断奶期。补充GAA可提高(<0.01)血浆GAA浓度(0、1和2克GAA/天的血浆GAA浓度分别为0.42、0.51和0.67毫克/升)和肌酸浓度(0、1和2克GAA/天的肌酸浓度分别为18.7、22.1和24.4毫克/升)。在第59天,随着GAA添加量的增加,体重呈线性增加趋势(=0.09)(0、1和2克GAA/天的体重分别为91.2、98.3和98.6千克)。从第0天到第59天的日增重随着GAA添加量的增加而呈增加趋势(=0.09;0、1和2克GAA/天的日增重分别为0.86、0.97和0.98千克/天)。随着GAA添加量的增加,开食料干物质采食量呈线性增加趋势(=0.06)(0、1和2克GAA/天的开食料干物质采食量分别为0.201、0.278和0.286千克/天)。每天添加1克和2克GAA的处理对性能的影响相似。在处理期间或随后的断奶期,各处理在健康(呼吸和粪便)评分方面未观察到差异。在代乳粉中添加GAA往往会增加犊牛的增重,这与开食料采食量增加有关。
