Humans living at a higher altitude are less prone to suffer from impaired glucose homeostasis and type 2 diabetes mellitus (T2DM), which might at least partly be explained by lower oxygen availability at higher altitudes. The present systematic review aimed to provide an overview of the current literature on the effects of hypoxia exposure on glucose homeostasis in metabolically compromised humans. Several databases were searched up to August 10(th), 2020. The search strategy identified 368 unique records. Following assessment for eligibility based on the selection criteria, 16 studies were included in this review. Six studies (2 controlled studies; 4 uncontrolled studies) demonstrated beneficial effects of hypoxia exposure on glucose homeo...
BACKGROUNDA growing number of subjects with diabetes take part in physical activities at altitude su...
Background : Hypoxia has been shown to increase glucose uptake in skeletal muscle using the contrac...
PURPOSE: Exposure to high altitude has been shown to enhance both glucose and lipid utilization depe...
Humans living at a higher altitude are less prone to suffer from impaired glucose homeostasis and ty...
The obesity epidemic calls for novel strategies to prevent and treat obesity and its comorbidities. ...
The aim of this systematic review is to analyse the current evidence reported in the literature on t...
Abstract Under altitude hypoxia condition, energy reliance on anaerobic glycolysis increases to comp...
Type 2 diabetes is a chronic metabolic disease associated with increase in patient mortality. Exerci...
AIM: Hypoxic exercise (HE) may have more pronounced effects on glucose homeostasis than exercise und...
This study investigated how high-altitude (HA, 4300 m) acclimatization affected exogenous glucose ox...
Abstract Normal blood [glucose] regulation is critical to support metabolism, particularly in contex...
Hypoxia in obese adipose tissue (AT)plays an important role in the de-velopment of whole-body insuli...
Purpose: Exposure to high altitude has been shown to enhance both glucose and lipid utilization depe...
Item does not contain fulltextBACKGROUND: A growing number of subjects with diabetes take part in ph...
BACKGROUND A growing number of subjects with diabetes take part in physical activities at altitude s...
BACKGROUNDA growing number of subjects with diabetes take part in physical activities at altitude su...
Background : Hypoxia has been shown to increase glucose uptake in skeletal muscle using the contrac...
PURPOSE: Exposure to high altitude has been shown to enhance both glucose and lipid utilization depe...
Humans living at a higher altitude are less prone to suffer from impaired glucose homeostasis and ty...
The obesity epidemic calls for novel strategies to prevent and treat obesity and its comorbidities. ...
The aim of this systematic review is to analyse the current evidence reported in the literature on t...
Abstract Under altitude hypoxia condition, energy reliance on anaerobic glycolysis increases to comp...
Type 2 diabetes is a chronic metabolic disease associated with increase in patient mortality. Exerci...
AIM: Hypoxic exercise (HE) may have more pronounced effects on glucose homeostasis than exercise und...
This study investigated how high-altitude (HA, 4300 m) acclimatization affected exogenous glucose ox...
Abstract Normal blood [glucose] regulation is critical to support metabolism, particularly in contex...
Hypoxia in obese adipose tissue (AT)plays an important role in the de-velopment of whole-body insuli...
Purpose: Exposure to high altitude has been shown to enhance both glucose and lipid utilization depe...
Item does not contain fulltextBACKGROUND: A growing number of subjects with diabetes take part in ph...
BACKGROUND A growing number of subjects with diabetes take part in physical activities at altitude s...
BACKGROUNDA growing number of subjects with diabetes take part in physical activities at altitude su...
Background : Hypoxia has been shown to increase glucose uptake in skeletal muscle using the contrac...
PURPOSE: Exposure to high altitude has been shown to enhance both glucose and lipid utilization depe...