Fetal growth and insulin resistance in adult life: role of skeletal muscle morphology
Fetal growth and insulin resistance in adult life: role of skeletal muscle morphology
1. Thinness at birth is associated with insulin resistance in adult life and an apparent delay in activation of glycolysis/glycogenolysis in exercising skeletal muscle. As developmental abnormalities of skeletal muscle histology or metabolism may explain this association we examined muscle histology, biochemistry and blood flow in a group of 27 adult women whose birth details were known. 2. Subjects were examined by near-infrared spectroscopy to determine forearm muscle oxygen supply, and by muscle biopsy and forearm plethysmography. Those with a ponderal index at birth < 23 kg/m3 were insulin resistant (assessed by the short insulin-tolerance test-mean rate constants for glucose disappearance = 4.14 compared with 4.83%/min, P = 0.045) and had significantly more rapid muscle reoxygenation than the remainder of the subjects (13 compared with 22 s, P = 0.004). 3. Thinness at birth did not influence muscle capillary density, muscle glycogen content, glycogen synthase activity, citrate synthase activity or resting forearm blood flow. 4. Insulin resistance seen after fetal malnutrition was not associated with abnormal muscle histology, resting muscle blood flow, mitochondrial volume or glycogen content. 5. The increase in muscle reoxygenation rate in adult subjects who were thin at birth could occur to promote oxidative ATP synthesis in compensation for the delay in activation of glycolysis/glycogenolysis. It suggests altered regulation rather than structure of the muscle microcirculation. These changes appear to antedate the structural and biochemical changes seen in muscle from patients with established diabetes.
Embryonic and Fetal Development, Female, Forearm/blood supply, Humans, Insulin Resistance, Male, Microscopy, Electron, Middle Aged, Muscle, Skeletal/blood supply, Oxygen/metabolism, Plethysmography, Regional Blood Flow, Spectroscopy, Near-Infrared
291-6
Thompson, C H
ba8014b3-7889-4148-aaaf-f124f9c718e4
Sanderson, A L
ed1cabe7-2165-4ee3-aedd-eb4bcd18956f
Sandeman, D
9a01dfb1-c2b5-46cc-a64c-b76677f4cfd6
Stein, C
274f2eac-1b46-45ac-a61c-9fa79a695953
Borthwick, A
3b0012a0-23cf-470a-851b-bb606ea9b0fd
Radda, G K
3a67afe9-5dd9-46b8-a2d6-9b9c0e7049b1
Phillips, D I
0ff894a0-86ac-4a14-8cc1-b687a90faf25
15 March 1997
Thompson, C H
ba8014b3-7889-4148-aaaf-f124f9c718e4
Sanderson, A L
ed1cabe7-2165-4ee3-aedd-eb4bcd18956f
Sandeman, D
9a01dfb1-c2b5-46cc-a64c-b76677f4cfd6
Stein, C
274f2eac-1b46-45ac-a61c-9fa79a695953
Borthwick, A
3b0012a0-23cf-470a-851b-bb606ea9b0fd
Radda, G K
3a67afe9-5dd9-46b8-a2d6-9b9c0e7049b1
Phillips, D I
0ff894a0-86ac-4a14-8cc1-b687a90faf25
Thompson, C H, Sanderson, A L, Sandeman, D, Stein, C, Borthwick, A, Radda, G K and Phillips, D I
(1997)
Fetal growth and insulin resistance in adult life: role of skeletal muscle morphology.
Clinical Science, 92 (3), .
(doi:10.1042/cs0920291).
Abstract
1. Thinness at birth is associated with insulin resistance in adult life and an apparent delay in activation of glycolysis/glycogenolysis in exercising skeletal muscle. As developmental abnormalities of skeletal muscle histology or metabolism may explain this association we examined muscle histology, biochemistry and blood flow in a group of 27 adult women whose birth details were known. 2. Subjects were examined by near-infrared spectroscopy to determine forearm muscle oxygen supply, and by muscle biopsy and forearm plethysmography. Those with a ponderal index at birth < 23 kg/m3 were insulin resistant (assessed by the short insulin-tolerance test-mean rate constants for glucose disappearance = 4.14 compared with 4.83%/min, P = 0.045) and had significantly more rapid muscle reoxygenation than the remainder of the subjects (13 compared with 22 s, P = 0.004). 3. Thinness at birth did not influence muscle capillary density, muscle glycogen content, glycogen synthase activity, citrate synthase activity or resting forearm blood flow. 4. Insulin resistance seen after fetal malnutrition was not associated with abnormal muscle histology, resting muscle blood flow, mitochondrial volume or glycogen content. 5. The increase in muscle reoxygenation rate in adult subjects who were thin at birth could occur to promote oxidative ATP synthesis in compensation for the delay in activation of glycolysis/glycogenolysis. It suggests altered regulation rather than structure of the muscle microcirculation. These changes appear to antedate the structural and biochemical changes seen in muscle from patients with established diabetes.
This record has no associated files available for download.
More information
Published date: 15 March 1997
Keywords:
Embryonic and Fetal Development, Female, Forearm/blood supply, Humans, Insulin Resistance, Male, Microscopy, Electron, Middle Aged, Muscle, Skeletal/blood supply, Oxygen/metabolism, Plethysmography, Regional Blood Flow, Spectroscopy, Near-Infrared
Identifiers
Local EPrints ID: 480378
URI: http://eprints.soton.ac.uk/id/eprint/480378
ISSN: 0143-5221
PURE UUID: 5dfb7eee-e281-444f-8c26-96c6f7ca678f
Catalogue record
Date deposited: 01 Aug 2023 17:55
Last modified: 17 Mar 2024 00:46
Export record
Altmetrics
Contributors
Author:
C H Thompson
Author:
A L Sanderson
Author:
D Sandeman
Author:
C Stein
Author:
A Borthwick
Author:
G K Radda
Author:
D I Phillips
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics