Contribution of abnormal muscle and liver glucose metabolism to postprandial hyperglycemia in NIDDM

Contribution of abnormal muscle and liver glucose metabolism to postprandial hyperglycemia in NIDDM. A Mitrakou , D Kelley , T Veneman , T Jenssen , T Pangburn , J Reilly and J Gerich Department of Medicine, University of Pittsburgh School of Medicine, PA. Abstract To assess the role of muscle and l...

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Published in	Diabetes (New York, N.Y.) Vol. 39; no. 11; pp. 1381 - 1390
Main Authors	Mitrakou, A., Kelley, D., Veneman, T., Jenssen, T., Pangburn, T., Reilly, J., Gerich, J.
Format	Journal Article
Language	English
Published	United States American Diabetes Association 01.11.1990
Subjects	550501 - Metabolism- Tracer Techniques 550901 - Pathology- Tracer Techniques ALANINES ALDEHYDES AMINO ACIDS BASIC BIOLOGICAL SCIENCES BODY CARBOHYDRATES CARBON 14 COMPOUNDS CARBON COMPOUNDS CARBON DIOXIDE CARBON OXIDES CARBOXYLIC ACID SALTS CARBOXYLIC ACIDS CHALCOGENIDES DIABETES MELLITUS DIGESTIVE SYSTEM DISEASES ELEMENTS ENDOCRINE DISEASES GLANDS GLUCOSE HEXOSES HYPERGLYCEMIA ISOTOPE APPLICATIONS LABELLED COMPOUNDS LACTATES LIVER METABOLIC DISEASES METABOLISM MONOSACCHARIDES MUSCLES NONMETALS ORGANIC ACIDS ORGANIC COMPOUNDS ORGANS OXIDES OXYGEN OXYGEN COMPOUNDS PATHOGENESIS SACCHARIDES TRACER TECHNIQUES
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ISSN	0012-1797 1939-327X 0012-1797
DOI	10.2337/diabetes.39.11.1381

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Abstract	Contribution of abnormal muscle and liver glucose metabolism to postprandial hyperglycemia in NIDDM. A Mitrakou , D Kelley , T Veneman , T Jenssen , T Pangburn , J Reilly and J Gerich Department of Medicine, University of Pittsburgh School of Medicine, PA. Abstract To assess the role of muscle and liver in the pathogenesis of postprandial hyperglycemia in non-insulin-dependent diabetes mellitus (NIDDM), we administered an oral glucose load enriched with [14C]glucose to 10 NIDDM subjects and 10 age- and weight-matched nondiabetic volunteers and compared muscle glucose disposal by measuring forearm balance of glucose, lactate, alanine, O2, and CO2 (with forearm calorimetry). In addition, we used the dual-lable isotope method to compare overall rates of glucose appearance (Ra) and disappearance (Rd), suppression of endogenous glucose output, and splanchnic glucose sequestration. During the initial 1-1.5 h after glucose ingestion, plasma glucose increased by approximately 8 mM in NIDDM vs. approximately 3 mM in nondiabetic subjects (P less than 0.01); overall glucose Ra was nearly 11 g greater in NIDDM than nondiabetic subjects (45.1 +/- 2.3 vs. 34.4 +/- 1.5 g, P less than 0.01), but glucose Rd was not significantly different in NIDDM (35.1 +/- 2.4 g) and nondiabetic (33.3 +/- 2.7 g) subjects. The greater overall glucose Ra of NIDDM subjects was due to 6.8 g greater endogenous glucose output (13.7 +/- 1.1 vs. 6.8 +/- 1.0 g, P less than 0.01) and 3.8 g less oral glucose splanchnic sequestration of the oral load (31.4 +/- 1.5 vs. 27.5 +/- 0.9 g, P less than 0.05). Although glucose taken up by muscle was not significantly different in NIDDM and nondiabetic subjects (39.3 +/- 3.5 vs. 41.0 +/- 2.5 g/5 h), a greater amount of the glucose taken up by muscle in NIDDM was released as lactate and alanine (11.7 +/- 1.0 vs. 5.2 +/- 0.3 g in nondiabetic subjects, P less than 0.01), and less was stored (11.7 +/- 1.3 vs. 16.9 +/- 1.5 g, P less than 0.05). We conclude that increased systemic glucose delivery, due primarily to reduced suppression of endogenous hepatic glucose output and, to a lesser extent, reduced splanchnic glucose sequestration, is the predominant factor responsible for postprandial hyperglycemia in NIDDM.
AbstractList	Abstract only Contribution of abnormal muscle and liver glucose metabolism to postprandial hyperglycemia in NIDDM. A Mitrakou , D Kelley , T Veneman , T Jenssen , T Pangburn , J Reilly and J Gerich Department of Medicine, University of Pittsburgh School of Medicine, PA. Abstract To assess the role of muscle and liver in the pathogenesis of postprandial hyperglycemia in non-insulin-dependent diabetes mellitus (NIDDM), we administered an oral glucose load enriched with [14C]glucose to 10 NIDDM subjects and 10 age- and weight-matched nondiabetic volunteers and compared muscle glucose disposal by measuring forearm balance of glucose, lactate, alanine, O2, and CO2 (with forearm calorimetry). In addition, we used the dual-lable isotope method to compare overall rates of glucose appearance (Ra) and disappearance (Rd), suppression of endogenous glucose output, and splanchnic glucose sequestration. During the initial 1-1.5 h after glucose ingestion, plasma glucose increased by approximately 8 mM in NIDDM vs. approximately 3 mM in nondiabetic subjects (P less than 0.01); overall glucose Ra was nearly 11 g greater in NIDDM than nondiabetic subjects (45.1 +/- 2.3 vs. 34.4 +/- 1.5 g, P less than 0.01), but glucose Rd was not significantly different in NIDDM (35.1 +/- 2.4 g) and nondiabetic (33.3 +/- 2.7 g) subjects. The greater overall glucose Ra of NIDDM subjects was due to 6.8 g greater endogenous glucose output (13.7 +/- 1.1 vs. 6.8 +/- 1.0 g, P less than 0.01) and 3.8 g less oral glucose splanchnic sequestration of the oral load (31.4 +/- 1.5 vs. 27.5 +/- 0.9 g, P less than 0.05). Although glucose taken up by muscle was not significantly different in NIDDM and nondiabetic subjects (39.3 +/- 3.5 vs. 41.0 +/- 2.5 g/5 h), a greater amount of the glucose taken up by muscle in NIDDM was released as lactate and alanine (11.7 +/- 1.0 vs. 5.2 +/- 0.3 g in nondiabetic subjects, P less than 0.01), and less was stored (11.7 +/- 1.3 vs. 16.9 +/- 1.5 g, P less than 0.05). We conclude that increased systemic glucose delivery, due primarily to reduced suppression of endogenous hepatic glucose output and, to a lesser extent, reduced splanchnic glucose sequestration, is the predominant factor responsible for postprandial hyperglycemia in NIDDM. To assess the role of muscle and liver in the pathogenesis of postprandial hyperglycemia in non-insulin-dependent diabetes mellitus (NIDDM), we administered an oral glucose load enriched with (14C)glucose to 10 NIDDM subjects and 10 age- and weight-matched nondiabetic volunteers and compared muscle glucose disposal by measuring forearm balance of glucose, lactate, alanine, O2, and CO2. In addition, we used the dual-lable isotope method to compare overall rates of glucose appearance (Ra) and disappearance (Rd), suppression of endogenous glucose output, and splanchnic glucose sequestration. During the initial 1-1.5 h after glucose ingestion, plasma glucose increased by approximately 8 mM in NIDDM vs. approximately 3 mM in nondiabetic subjects (P less than 0.01); overall glucose Ra was nearly 11 g greater in NIDDM than nondiabetic subjects, but glucose Rd was not significantly different in NIDDM and nondiabetic subjects. The greater overall glucose Ra of NIDDM subjects was due to 6.8 g greater endogenous glucose output (13.7 +/- 1.1 vs. 6.8 +/- 1.0 g, P less than 0.01) and 3.8 g less oral glucose splanchnic sequestration of the oral load (31.4 +/- 1.5 vs. 27.5 +/- 0.9 g, P less than 0.05). Although glucose taken up by muscle was not significantly different in NIDDM and nondiabetic subjects (39.3 +/- 3.5 vs. 41.0 +/- 2.5 g/5 h), a greater amount of the glucose taken up by muscle in NIDDM was released as lactate and alanine (11.7 +/- 1.0 vs. 5.2 +/- 0.3 g in nondiabetic subjects, P less than 0.01), and less was stored (11.7 +/- 1.3 vs. 16.9 +/- 1.5 g, P less than 0.05). We conclude that increased systemic glucose delivery, due primarily to reduced suppression of endogenous hepatic glucose output and, to a lesser extent, reduced splanchnic glucose sequestration, is the predominant factor responsible for postprandial hyperglycemia in NIDDM.
Author	T Veneman T Jenssen T Pangburn J Reilly A Mitrakou J Gerich D Kelley
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Title	Contribution of abnormal muscle and liver glucose metabolism to postprandial hyperglycemia in NIDDM
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