The effect of probiotics and casein supplementation on aerobic capacity parameters of male soccer players.

IF 4.5 2区 医学 Q1 NUTRITION & DIETETICS Journal of the International Society of Sports Nutrition Pub Date : 2024-12-01 Epub Date: 2024-07-22 DOI:10.1080/15502783.2024.2382165
Babak Imanian, Mohammad Hemmatinafar, Farhad Daryanoosh, Negar Koureshfard, Reza Sadeghi, Alireza Niknam, Rasoul Rezaei, Ali Qashqaei
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Abstract

Background: In the realm of sports science, nutrition is a well-established pillar for athletes' training, performance, and post-workout recovery. However, the role of gut microbiota, often overlooked, is a novel and intriguing aspect that can significantly impact athletic performance. With this in mind, our study ventures into uncharted territory, investigating the effect of probiotic and casein supplementation on the aerobic capacity of male soccer players.

Method: A double-blinded and placebo-controlled study was conducted with 44 male soccer players (Age: 22.81 ± 2.76 yr, Height: 177.90 ± 6.75 cm, Weight: 67.42 ± 8.44 kg). The participants were subjected to the Bruce test in the beginning; then, they were randomly divided into four groups, each consisting of 11 people: probiotics (PRO), casein (CAS), probiotics with casein (PRO+CAS), and placebo (PLA). PRO group was given one probiotic capsule (containing strains of Lactiplantibacillus plantarum BP06, Lacticaseibacillus casei BP07, Lactobacillus acidophilus BA05, Lactobacillus delbrueckii BD08 bulgaricus, Bifidobacterium infantis BI04, Bifidobacterium longum BL03, Bifidobacterium breve BB02 and Streptococcus salivarius thermophilus BT01, with a total dose of 4.5 × 1011 CFU) during dinner, while the CAS group consumed 20 grams of casein powder 45 minutes before bed. The PRO+CAS group was given one probiotic capsule during dinner and 20 grams of casein powder 45 minutes before bed. The participants in the PLA group were given one red capsule (containing 5 grams of starch) during dinner. All participants were instructed to take the supplements only on training days, three times a week for four weeks. The maximal oxygen consumption (VO2max), Ventilatory Threshold (VT), Time-to-exhaustion (TTE), Respiratory Compensation Point (RCP), Isocapnic area Time (Time-IC), Isocapnic area oxygen consumption (VO2-IC), and Hypocapnic Hyperventilation area Time (Time-HHV), after the Bruce test were Measured. All data were analyzed using SPSS Windows software, mixed repeated measure ANOVA, and Bonferroni post hoc test at p < 0.05 level.

Results: The current study's findings illustrated that, after the intervention, TTE (p = 0.01) and RCP (p = 0.01) were significantly improved in PRO+CAS compared to the PLA group. No significant difference was observed between PRO and PLA (p = 0.52), PRO and CAS (p = 0.999), PRO and PRO+CAS (p = 0.9), CAS and PLA (p = 0.65), CAS and PRO+CAS (p = 0.73) in TTE. In addition, no significant difference was observed between PRO and CAS (p = 0.999), PRO and PLA (p = 0.40), PRO and PRO+CAS (p = 0.999), CAS and PLA (p = 0.263), CAS and PRO+CAS (p = 0.999) in RCP. Time-HHV was significantly higher in PRO+CAS (p = 0.000) and CAS (p = 0.047) compared to the PLA group. However, no significant difference was observed in the Time-HHV between PRO and CAS (p = 0.999), PRO and PRO+CAS (p = 0.25), PRO and PLA (p = 0.12), and CAS and PRO+CAS (p = 0.57). Additionally, all the groups had no significant differences in VO2max, VT1, VO2-IC and Time-IC.

Conclusion: The findings showed that consuming probiotics and casein could relatively improve the aerobic capacity of male soccer players. Nevertheless, simultaneous consumption of probiotics and casein had a more pronounced effect on aerobic capacity indicators, especially TTE and Time-HHV.

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补充益生菌和酪蛋白对男子足球运动员有氧能力参数的影响
背景:在运动科学领域,营养是运动员训练、表现和运动后恢复的一个公认支柱。然而,肠道微生物群的作用往往被忽视,这是一个新颖而有趣的方面,可对运动表现产生重大影响。有鉴于此,我们的研究进入了一个未知领域,调查补充益生菌和酪蛋白对男子足球运动员有氧能力的影响:我们对 44 名男性足球运动员(年龄:22.81 ± 2.76 岁;身高:177.90 ± 6.75 厘米;体重:67.42 ± 8.44 千克)进行了双盲安慰剂对照研究。参与者首先接受布鲁斯测试,然后被随机分为四组,每组 11 人:益生菌组(PRO)、酪蛋白组(CAS)、益生菌加酪蛋白组(PRO+CAS)和安慰剂组(PLA)。益生菌胶囊组(含植物乳杆菌 BP06、酪酸乳杆菌 BP07、嗜酸乳杆菌 BA05、保加利亚乳杆菌 BD08、婴儿双歧杆菌 BI04、长双歧杆菌 BL03、乳酸双歧杆菌 BB02 和嗜热唾液链球菌 BT01,总剂量为 4.5×1011CFU),而 CAS 组则在睡前 45 分钟摄入 20 克酪蛋白粉。PRO+CAS组在晚餐时服用一粒益生菌胶囊,睡前45分钟服用20克酪蛋白粉。PLA 组的参与者在晚餐时服用一粒红色胶囊(含 5 克淀粉)。所有参与者都被要求只在训练日服用补充剂,每周三次,持续四周。测量布鲁斯测试后的最大耗氧量(VO2max)、通气阈值(VT)、耗尽时间(TTE)、呼吸补偿点(RCP)、等会氧区时间(Time-IC)、等会氧区耗氧量(VO2-IC)和低会氧过度通气区时间(Time-HHV)。所有数据均采用 SPSS Windows 软件、混合重复测量方差分析和 Bonferroni 后检验进行分析:本研究结果表明,与 PLA 组相比,干预后 PRO+CAS 组的 TTE(p = 0.01)和 RCP(p = 0.01)明显改善。在 TTE 方面,PRO 组和 PLA 组(p = 0.52)、PRO 组和 CAS 组(p = 0.999)、PRO 组和 PRO+CAS 组(p = 0.9)、CAS 组和 PLA 组(p = 0.65)、CAS 组和 PRO+CAS 组(p = 0.73)均无明显差异。此外,在 RCP 中,PRO 与 CAS(p = 0.999)、PRO 与 PLA(p = 0.40)、PRO 与 PRO+CAS (p = 0.999)、CAS 与 PLA(p = 0.263)、CAS 与 PRO+CAS (p = 0.999)之间未观察到明显差异。与 PLA 组相比,PRO+CAS 组(p = 0.000)和 CAS 组(p = 0.047)的时间-HHV 明显更高。然而,PRO 组和 CAS 组(p = 0.999)、PRO 组和 PRO+CAS 组(p = 0.25)、PRO 组和 PLA 组(p = 0.12)以及 CAS 组和 PRO+CAS 组(p = 0.57)的时间-HHV 均无明显差异。此外,各组的最大氧排量、VT1、VO2-IC 和 Time-IC 均无显著差异:结论:研究结果表明,摄入益生菌和酪蛋白可相对提高男子足球运动员的有氧运动能力。结论:研究结果表明,摄入益生菌和酪蛋白能相对提高男足运动员的有氧运动能力,但同时摄入益生菌和酪蛋白对有氧运动能力指标的影响更为明显,尤其是 TTE 和 Time-HHV。
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来源期刊
Journal of the International Society of Sports Nutrition
Journal of the International Society of Sports Nutrition NUTRITION & DIETETICS-SPORT SCIENCES
CiteScore
8.80
自引率
3.90%
发文量
34
审稿时长
6-12 weeks
期刊介绍: Journal of the International Society of Sports Nutrition (JISSN) focuses on the acute and chronic effects of sports nutrition and supplementation strategies on body composition, physical performance and metabolism. JISSN is aimed at researchers and sport enthusiasts focused on delivering knowledge on exercise and nutrition on health, disease, rehabilitation, training, and performance. The journal provides a platform on which readers can determine nutritional strategies that may enhance exercise and/or training adaptations leading to improved health and performance.
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