J Acad Nutr Diet. 2020 Apr;120(4):500-516.e10. doi: 10.1016/j.jand.2019.12.009.
Higher protein intakes may help reduce sarcopenia and facilitate recovery from illness and injury in older adults. However, high-protein diets (HPDs) including animal-sourced foods may negatively perturb the microbiota, and provision of probiotics and prebiotics may mitigate these effects.
The aim of this study was to examine the effects of HPD, with and without a probiotic and/or prebiotic, on gut microbiota and wellness in older women.
We conducted an 18-week, double-blind, placebo-controlled, crossover study.
PARTICIPANTS/SETTING: Participants were healthy, older women (mean age±standard deviation=73.7±5.6 years; n=26) recruited from Florida.
Participants received a weight-maintenance HPD for 2-week periods and the following, in random order: HPD alone (1.5 to 2.2 g/kg/day protein); HPD plus multistrain probiotic formulation (1.54×10Bifidobacterium bifidum HA-132, 4.62×10Bifidobacterium breve HA-129, 4.62×10Bifidobacterium longum HA-135, 4.62×10Lactobacillus acidophilus HA-122, and 4.62×10Lactobacillus plantarum HA-119), HPD plus prebiotic (5.6 g inulin), and HPD plus synbiotic (probiotic plus inulin), separated by 2-week washouts. Stools were collected per period for quantitative polymerase chain reaction (strain recovery) and 16S ribosomal RNA gene amplicon sequencing analyses (microbiota profile). Measures of gastrointestinal and general wellness were assessed.
Microbiota composition and probiotic strain recovery were measured.
Microbiota composition was analyzed by Wilcoxon signed-rank test and t test. Secondary outcomes were analyzing using generalized linear mixed models.
The microbiota profile demonstrated relative stability with the HPD; representation of Lactobacillus, Lactococcus, and Streptococcus were enhanced, whereas butyrate producers, Roseburia and Anaerostipes, were suppressed. Lactococcus was suppressed with synbiotic vs other HPD periods. Recovery was confirmed for all probiotic strains. Indicators of wellness were unchanged, with the exception of a minimal increase in gastrointestinal distress with inulin. Fat-free mass increased from baseline to study end.
An HPD adhering to the recommended acceptable macronutrient distribution ranges maintains wellness in healthy older women and exerts minor perturbations to the microbiome profile, a group that may benefit from a higher protein intake. ClinicalTrials.gov ID: NCT #02445560.
较高的蛋白质摄入量可能有助于减少老年人的肌肉减少症,并促进疾病和损伤的康复。然而,高蛋白饮食(HPD)包括动物源食品可能会对微生物群产生负面影响,而提供益生菌和益生元可能会减轻这些影响。
本研究旨在研究 HPD,以及是否添加益生菌和/或益生元,对老年女性肠道微生物群和健康的影响。
我们进行了一项为期 18 周的、双盲、安慰剂对照、交叉研究。
参与者/设置:参与者是来自佛罗里达州的健康老年女性(平均年龄±标准差=73.7±5.6 岁;n=26)。
参与者接受了为期 2 周的维持体重的 HPD,随后按随机顺序接受以下治疗:HPD 单独(1.5 至 2.2 g/kg/天蛋白质);HPD 加多菌株益生菌配方(1.54×10双歧杆菌双歧杆菌 HA-132、4.62×10短双歧杆菌 HA-129、4.62×10长双歧杆菌 HA-135、4.62×10嗜酸乳杆菌 HA-122 和 4.62×10植物乳杆菌 HA-119)、HPD 加益生元(5.6 克菊粉)和 HPD 加合生元(益生菌加菊粉),每个治疗期之间有 2 周的洗脱期。每个治疗期都收集粪便进行定量聚合酶链反应(菌株恢复)和 16S 核糖体 RNA 基因扩增子测序分析(微生物群谱)。评估胃肠道和整体健康的措施。
微生物群组成和益生菌菌株恢复情况。
采用 Wilcoxon 符号秩检验和 t 检验分析微生物群组成。使用广义线性混合模型分析次要结局。
HPD 使微生物群谱相对稳定;乳杆菌、乳球菌和链球菌的代表增加,而丁酸产生菌罗斯伯里氏菌和厌氧链球菌受到抑制。与其他 HPD 期相比,合生元抑制了乳球菌。所有益生菌菌株的恢复情况均得到证实。除了菊粉会轻微增加胃肠道不适外,其他健康指标均无变化。脂肪量从基线增加到研究结束。
符合推荐的可接受宏量营养素分布范围的 HPD 可维持健康老年女性的健康,并对微生物组谱产生微小干扰,而这群人可能受益于更高的蛋白质摄入量。临床试验注册号:NCT #02445560。
