Holmbäck Ulf, Forslund Anders, Forslund Jeanette, Hambraeus Leif, Lennernäs Maria, Lowden Arne, Stridsberg Mats, Akerstedt Torbjörn
Nutrition Unit, Department of Medical Sciences, Uppsala University Hospital, Sweden.
J Nutr. 2002 Jul;132(7):1892-9. doi: 10.1093/jn/132.7.1892.
Because night work is becoming more prevalent, we studied whether feeding at different times of a 24-h period would elicit different metabolic responses and whether dietary macronutrient composition would affect these responses. Seven men (26-43 y, 19.9-26.6 kg/m(2)) consumed two isocaloric diets, in a crossover design. The diets were a high carbohydrate (HC) diet [65 energy % (E%) carbohydrates, 20E% fat] and a high fat (HF) diet (40E% carbohydrates, 45E% fat). After a 6-d diet-adjustment period, the men were kept awake for 24 h and the food (continuation of respective diet) was provided as six isocaloric meals (i.e., every 4 h). Energy and substrate turnover, heart rate, mean arterial pressure (MAP), blood glucose, triacylglycerol (TAG), nonesterified fatty acid (NEFA) and glycerol were measured throughout the 24-h period. Significantly higher energy expenditure and NEFA concentration, and lower blood glucose and TAG concentrations were observed when the men consumed the HF diet than when they consumed the HC diet. Significant circadian patterns were seen in body and skin temperature (nadir, 0400-0500 h). When the men consumed the HF diet, significant circadian patterns were seen in fat oxidation (nadir, 0800-1200 h; plateau, 1200-0800 h), heat release (nadir, 0800-1200 h; plateau, 1600-0800 h), heart rate (nadir, 0000 h), blood glucose (nadir, 0800-1200 h; peak, 0000-0400 h), NEFA (nadir, 0800-1200 h; peak, 1200-2000 h) and TAG (nadir, 0800-1200 h; peak, 0400-0800 h) concentrations. Energy expenditure, carbohydrate oxidation, MAP and glycerol concentration did not display circadian patterns. Unequal variances eradicated most circadian effects in the HC-diet data. The increased TAG concentration in response to feeding at 0400 h might be involved in the higher TAG concentrations seen in shift workers. Distinct macronutrient/circadian-dependent postprandial responses were seen in most studied variables.
由于夜间工作日益普遍,我们研究了在24小时的不同时间段进食是否会引发不同的代谢反应,以及饮食中的常量营养素组成是否会影响这些反应。七名男性(26 - 43岁,体重指数19.9 - 26.6kg/m²)采用交叉设计食用两种等热量饮食。这两种饮食分别是高碳水化合物(HC)饮食[65%能量来自碳水化合物,20%能量来自脂肪]和高脂肪(HF)饮食(40%能量来自碳水化合物,45%能量来自脂肪)。经过6天的饮食调整期后,这些男性保持清醒24小时,并以六顿等热量餐食(即每4小时一顿)的形式提供食物(各自饮食的延续)。在整个24小时期间测量能量和底物周转率、心率、平均动脉压(MAP)、血糖、三酰甘油(TAG)、非酯化脂肪酸(NEFA)和甘油。结果发现,与食用HC饮食相比,男性食用HF饮食时能量消耗和NEFA浓度显著更高,而血糖和TAG浓度更低。体温和皮肤温度呈现出显著的昼夜节律模式(最低点在04:00 - 05:00)。当男性食用HF饮食时,脂肪氧化(最低点在08:00 - 12:00;平稳期在12:00 - 08:00)、热量释放(最低点在08:00 - 12:00;平稳期在16:00 - 08:00)、心率(最低点在00:00)、血糖(最低点在08:00 - 12:00;峰值在00:00 - 04:00)、NEFA(最低点在08:00 - 12:00;峰值在12:00 - 20:00)和TAG(最低点在08:00 - 12:00;峰值在04:00 - 08:00)浓度均呈现出显著的昼夜节律模式。能量消耗、碳水化合物氧化、MAP和甘油浓度未呈现出昼夜节律模式。不等方差消除了HC饮食数据中的大多数昼夜节律效应。04:00进食后TAG浓度升高可能与轮班工作者中较高的TAG浓度有关。在大多数研究变量中都观察到了明显的常量营养素/昼夜节律依赖性餐后反应。
