饮料渗透压作为维持适当身体水合作用的标志物。

Beverage osmolality as a marker for maintaining appropriate body hydration.

作者信息

Sadowska Anna, Świderski Franciszek, Rakowska Rita, Waszkiewicz-Robak Bożena, Żebrowska-Krasuska Małgorzata, Dybkowska Ewa

机构信息

Warsaw University of Life Sciences (SGGW), Faculty of Human Nutrition and Consumer Sciences, Department of Functional Food, Ecological Food and Commodities, Warsaw, Poland

Lomza State University of Applied Sciences, Institute of Food Technology and Gastronomy, Lomza, Poland

出版信息

Rocz Panstw Zakl Hig. 2017;68(2):167-173.

PMID:28646834

Abstract

BACKGROUND

Osmolalities can be useful markers for determining whether given beverages are suited for maintaining an adequate hydration of the body. Losing 2% of body water relative to body mass reduces the efficiency of body function when undertaking physical effort by around 20%. Deficiencies in water intakes approaching 5-8% of body mass, double the impairment to the body’s physical and mental functioning, whereas at a level of 10% the body becomes incapable of performing any sort of physical effort. For such reasons the body’s hydration status is vital to its functioning.

OBJECTIVES

To asses osmolalities as measured in various types of commercially available mineral waters and non-alcoholic beverages containing different amounts of extracts.

MATERIALS AND METHODS

Test materials were commercially available mineral waters (of low, medium and high mineral content) along with juices, nectars and drinks that are isotonic, energising and those described as being ‘light’ and sparkling. Osmolality was measured by the 800CL Osmometer instrument from TridentMed whilst the RL-type refractometer was used for determining extract values.

RESULTS

Isotonic drinks were found to have the same osmotic pressures as bodily fluids at 275 – 295 mOsm/kg water. The osmotic pressure in mineral waters depended on the extent of mineralisation and ranged from 13 mOsm / kg water (low mineral content) to 119 mOsm/kg water (high mineral content). Low osmolalities were also found in ‘light’ drinks (from 29.3 to 34 mOsm/kg water). Juices, nectars, energising drinks and colas typically have high sugar contents and have high osmolalities ranging 492 – 784 mOsm / kg water. Statistical analysis demonstrated significant associations (p < 0.05) between osmolalities and extract content in beverages as well as between osmolalities and mineral content in mineral waters. Upon factor analysis, it was possible to group the tested drinks according to similar osmolalities and extract content.

CONCLUSIONS

Osmolalities measured in beverages are a marker that permits drinks to be classified into groups according to their tonicity and their ability to ensure that the body is properly hydrated; this becoming vital in cases when the body requires rapid body fluid replenishment.

摘要

背景

渗透压可作为有用的指标，用于确定特定饮料是否适合维持身体的充足水合作用。相对于体重而言，身体水分流失2%会使进行体力活动时身体机能的效率降低约20%。水分摄入量不足接近体重的5-8%时，身体的身心功能损害会加倍，而当达到10%的水平时，身体将无法进行任何形式的体力活动。出于这些原因，身体的水合状态对其功能至关重要。

目的

评估市售各类矿泉水及含有不同提取物量的非酒精饮料的渗透压。

材料与方法

测试材料为市售矿泉水（低、中、高矿物质含量）以及果汁、花蜜饮料，还有等渗饮料、能量饮料以及标注为“低糖”和气泡饮料。渗透压由TridentMed公司的800CL渗透压仪测量，而RL型折射仪用于测定提取物含量。

结果

发现等渗饮料在275 - 295 mOsm/kg水时具有与体液相同的渗透压。矿泉水中的渗透压取决于矿化程度，范围从13 mOsm / kg水（低矿物质含量）到119 mOsm/kg水（高矿物质含量）。“低糖”饮料也具有低渗透压（29.3至34 mOsm/kg水）。果汁、花蜜饮料、能量饮料和可乐通常含糖量高，渗透压范围为492 - 784 mOsm / kg水。统计分析表明，饮料中的渗透压与提取物含量之间以及矿泉水中的渗透压与矿物质含量之间存在显著关联（p < 0.05）。通过因子分析，可以根据相似的渗透压和提取物含量对测试饮料进行分组。