Virgin Grape Seed Oil Alleviates Insulin Resistance and Energy Metabolism Disorder in Mice Fed a High‐Fat Diet

Virgin Grape Seed Oil Alleviates Insulin Resistance and Energy Metabolism Disorder in Mice Fed a High‐Fat Diet

This study aims to investigate the potential of virgin grape seed oil (VGSO) to improve insulin resistance and energy metabolism disorder in mice fed a high‐fat diet. The results show that respiratory exchange rate and energy consumption in mice can be increased by the administration of VGSO. Insuli...

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Bibliographic Details
Published in:European journal of lipid science and technology Vol. 122; no. 4
Main Authors: Li, Xiaojing, Shen, Yingbin, Zhu, Jianhong, Xiao, Junyong, Cong, Renhuai, Zhang, Hui, Wu, Gangcheng, Qi, Xiguang
Format: Journal Article
Language:English
Published: Weinheim Wiley Subscription Services, Inc 01-04-2020
Subjects:
Blood
Blood glucose
Blood levels
Cholesterol
Correlation analysis
Diabetes mellitus
Diet
Edible oils
Energy consumption
Energy metabolism
Foreign exchange rates
Glucose
Glucose tolerance
Glucosidase
Grape oil
Grapes
Grapeseed oil
Hexokinase
High fat diet
Homeostasis
Hyperlipidemia
Insulin
Insulin resistance
Leptin
Lipids
Metabolic disorders
Oils & fats
Polynomials
Resistance factors
Respiration
Seeds
Triglycerides
virgin grape seed oil
α-Glucosidase
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Summary:This study aims to investigate the potential of virgin grape seed oil (VGSO) to improve insulin resistance and energy metabolism disorder in mice fed a high‐fat diet. The results show that respiratory exchange rate and energy consumption in mice can be increased by the administration of VGSO. Insulin resistance is significantly alleviated by VGSO, which can be attributed to its protective effect on hexokinase and α‐glucosidase activities and improvement in leptin resistance. The effect of refined grape seed oil (RGSO), RGSO reinforced with polyphenol, RGSO reinforced with unsaponifiables, and RGSO reinforced with polyphenol and unsaponifiables on oral glucose tolerance, homeostasis model assessment of insulin resistance and quantitative insulin sensitivity check index are determined and compared. The results suggest that polyphenol may be the most critical factor for regulating insulin resistance. Specific linear and polynomial equations are provided to explain the correlation between insulin resistance, energy metabolism, and hyperlipidemia. Practical Applications: The effects of virgin grape seed oil (VGSO) on insulin resistance and energy metabolism disorder in mice fed a high‐fat diet were investigated. In addition, the key component in VGSO for regulating insulin resistance was preliminarily investigated. Furthermore, the correlations among fasting blood glucose, triglyceride/cholesterol concentration, and respiratory exchange rate/energy consumption/activity level were investigated. This research will provide a theoretical basis for the development of functional edible oil for high blood lipid, cholesterol, and diabetes patients. This study aims to investigate the effect of virgin grape seed oil (VGSO) in mice fed a high fat diet. The results show that insulin resistance and energy metabolism disorders of mice are improved by the administering of VGSO. In addition, specific linear and polynomial equations are provided to investigate the correlation between insulin resistance, energy metabolism, and hyperlipidaemia.
ISSN:1438-7697
1438-9312
DOI:10.1002/ejlt.201900158