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University of Texas Rio Grande Valley
Health & Human Performance Faculty Publications and Presentations
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Postprandial Microvascular Blood Flow In Skeletal Muscle: Similarities And Disparities To The Hyperinsulinaemic-Euglycaemic Clamp, Katherine M. Roberts-Thomson, Andrew C. Betik, Dino Premilovac, Stephen Rattigan, Stephen M. Richards, Renee M. Ross, Ryan D. Russell, Gunveen Kaur, Lewan Parker, Michelle A. Keske
Postprandial Microvascular Blood Flow In Skeletal Muscle: Similarities And Disparities To The Hyperinsulinaemic-Euglycaemic Clamp, Katherine M. Roberts-Thomson, Andrew C. Betik, Dino Premilovac, Stephen Rattigan, Stephen M. Richards, Renee M. Ross, Ryan D. Russell, Gunveen Kaur, Lewan Parker, Michelle A. Keske
Health & Human Performance Faculty Publications and Presentations
Skeletal muscle contributes to ~40% of total body mass and has numerous important mechanical and metabolic roles in the body. Skeletal muscle is a major site for glucose disposal following a meal. Consequently, skeletal muscle plays an important role in postprandial blood glucose homeostasis. Over the past number of decades, research has demonstrated that insulin has an important role in vasodilating the vasculature in skeletal muscle in response to an insulin infusion (hyperinsulinaemic-euglycaemic clamp) or following the ingestion of a meal. This vascular action of insulin is pivotal for glucose disposal in skeletal muscle, as insulin-stimulated vasodilation increases the delivery …