The aim of this thesis was to further develop the microdialysis technique for studies of glucose metabolism and insulin resistance in human skeletal muscle in vivo and to use this technique to explore the effect of exercise on muscle glucose metabolism and insulin action. The first two studies were conducted to explore the possibility of using a perfusion flow rate low enough to obtain complete equilibrium between the interstitial and perfusion fluids and if the colloid included in the perfusion fluid for this purpose affected the metabolite concentrations in the dialysate. The following three studies focus on glucose metabolism and insulin resistance by examining the extent to which insulin and/or the insulin-mimetic trace el...
Skeletal muscle microvascular (capillary) blood flow increases in the postprandial state or during i...
Running title: Exercise and insulin action on muscle membrane permeability to glucos
Hyperglycaemia and exercise oppositely regulate human glucose metabolism, but whether these two oppo...
The general aim of the present thesis was to explore the possibility of using rnicrodialysis in vivo...
All previously published papers and papers in press were reproduced with permission from the publish...
Insulin resistance is a disease characterised by an inability of the body to effectively respond to ...
Applications of Microdialysis in Studies of the Adrenergic Regulation of Lipolysis in Human Skeletal...
Diabetes complications are the result of impaired metabolic control. A continuous glucose monitoring...
We have developed an in vitro muscle preparation suitable for metabolic studies with human muscle ti...
In the field of microvascular blood flow, particularly to the skeletal muscle, there has been a con...
Insulin resistance, mainly located to the skeletal muscle tissue, is one prominent feature in thedev...
It has been well established that both insulin and muscle contraction increase total blood flow to ...
Insulin resistance is a central feature of type 2 diabetes and obesity and is associated with cardio...
Skeletal muscle is an important site for insulin to regulate blood glucose levels. It is estimated t...
Intramuscular triglyceride deposits are a significant energy source, and are considered to be of imp...
Skeletal muscle microvascular (capillary) blood flow increases in the postprandial state or during i...
Running title: Exercise and insulin action on muscle membrane permeability to glucos
Hyperglycaemia and exercise oppositely regulate human glucose metabolism, but whether these two oppo...
The general aim of the present thesis was to explore the possibility of using rnicrodialysis in vivo...
All previously published papers and papers in press were reproduced with permission from the publish...
Insulin resistance is a disease characterised by an inability of the body to effectively respond to ...
Applications of Microdialysis in Studies of the Adrenergic Regulation of Lipolysis in Human Skeletal...
Diabetes complications are the result of impaired metabolic control. A continuous glucose monitoring...
We have developed an in vitro muscle preparation suitable for metabolic studies with human muscle ti...
In the field of microvascular blood flow, particularly to the skeletal muscle, there has been a con...
Insulin resistance, mainly located to the skeletal muscle tissue, is one prominent feature in thedev...
It has been well established that both insulin and muscle contraction increase total blood flow to ...
Insulin resistance is a central feature of type 2 diabetes and obesity and is associated with cardio...
Skeletal muscle is an important site for insulin to regulate blood glucose levels. It is estimated t...
Intramuscular triglyceride deposits are a significant energy source, and are considered to be of imp...
Skeletal muscle microvascular (capillary) blood flow increases in the postprandial state or during i...
Running title: Exercise and insulin action on muscle membrane permeability to glucos
Hyperglycaemia and exercise oppositely regulate human glucose metabolism, but whether these two oppo...