Association of insulin resistance with the accumulation of saturated intramyocellular lipid: a comparison with other fat stores
Association of insulin resistance with the accumulation of saturated intramyocellular lipid: a comparison with other fat stores
It has been shown using proton magnetic resonance spectroscopy (1H MRS) that, in a group of females, whole-body insulin resistance was more closely related to accumulation of saturated intramyocellular lipid (IMCL) than to IMCL concentration alone. This has not been investigated in males. We investigated whether age- and body mass index-matched healthy males differ from the previously reported females in IMCL composition (measured as CH2:CH3) and IMCL concentration (measured as CH3), and in their associations with insulin resistance. We ask whether saturated IMCL accumulation is more strongly associated with insulin resistance than other ectopic and adipose tissue lipid pools and remains a significant predictor when these other pools are taken into account. In this group of males, who had similar overall insulin sensitivity to the females, IMCL was similar between sexes. The males demonstrated similar and even stronger associations of IMCL with insulin resistance, supporting the idea that a marker reflecting the accumulation of saturated IMCL is more strongly associated with whole-body insulin resistance than IMCL concentration alone. However, this marker ceased to be a significant predictor of whole-body insulin resistance after consideration of other lipid pools, which implies that this measure carries no more information in practice than the other predictors we found, such as intrahepatic lipid and visceral adipose tissue. As the marker of saturated IMCL accumulation appears to be related to these two predictors and has a much smaller dynamic range, this finding does not rule out a role for it in the pathogenesis of insulin resistance.
Azhar, Mueed
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Watson, Laura P.E.
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Rolfe, Emanuella De Lucia
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Ferraro, Michele
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Carr, Katherine
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Worsley, Jieniean
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Boesch, Chris
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Hodson, Leanne
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Chatterjee, Krishna K.
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Kemp, Graham J.
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Savage, David B.
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Sleigh, Alison
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9 July 2024
Azhar, Mueed
9941991e-a512-407f-8ce9-93700f384319
Watson, Laura P.E.
3d200513-de0e-4764-8d42-c2123ad4a7a4
Rolfe, Emanuella De Lucia
658cc447-bdfc-429f-8cec-cb233a72f84d
Ferraro, Michele
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Carr, Katherine
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Worsley, Jieniean
d5ac5886-0671-4436-ac69-92b063927768
Boesch, Chris
005ad7b9-d975-466e-b303-b06f01f27e47
Hodson, Leanne
e10e9438-38dc-45c9-8d6b-9afde7cd0c4c
Chatterjee, Krishna K.
9c51250b-7cce-40f8-9a9a-02a2dbe95765
Kemp, Graham J.
e655122f-ff43-49ae-92d3-b569d4cb7707
Savage, David B.
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Sleigh, Alison
b948a8de-00fb-436f-ace2-aa2310964c71
Azhar, Mueed, Watson, Laura P.E., Rolfe, Emanuella De Lucia, Ferraro, Michele, Carr, Katherine, Worsley, Jieniean, Boesch, Chris, Hodson, Leanne, Chatterjee, Krishna K., Kemp, Graham J., Savage, David B. and Sleigh, Alison
(2024)
Association of insulin resistance with the accumulation of saturated intramyocellular lipid: a comparison with other fat stores.
NMR in Biomedicine, 37 (8), [e5117].
(doi:10.1002/nbm.5117).
Abstract
It has been shown using proton magnetic resonance spectroscopy (1H MRS) that, in a group of females, whole-body insulin resistance was more closely related to accumulation of saturated intramyocellular lipid (IMCL) than to IMCL concentration alone. This has not been investigated in males. We investigated whether age- and body mass index-matched healthy males differ from the previously reported females in IMCL composition (measured as CH2:CH3) and IMCL concentration (measured as CH3), and in their associations with insulin resistance. We ask whether saturated IMCL accumulation is more strongly associated with insulin resistance than other ectopic and adipose tissue lipid pools and remains a significant predictor when these other pools are taken into account. In this group of males, who had similar overall insulin sensitivity to the females, IMCL was similar between sexes. The males demonstrated similar and even stronger associations of IMCL with insulin resistance, supporting the idea that a marker reflecting the accumulation of saturated IMCL is more strongly associated with whole-body insulin resistance than IMCL concentration alone. However, this marker ceased to be a significant predictor of whole-body insulin resistance after consideration of other lipid pools, which implies that this measure carries no more information in practice than the other predictors we found, such as intrahepatic lipid and visceral adipose tissue. As the marker of saturated IMCL accumulation appears to be related to these two predictors and has a much smaller dynamic range, this finding does not rule out a role for it in the pathogenesis of insulin resistance.
Text
NMR in Biomedicine - 2024 - Azhar - Association of insulin resistance with the accumulation of saturated intramyocellular
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Accepted/In Press date: 14 January 2024
e-pub ahead of print date: 14 February 2024
Published date: 9 July 2024
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Local EPrints ID: 505660
URI: http://eprints.soton.ac.uk/id/eprint/505660
ISSN: 1099-1492
PURE UUID: 6b5e326c-fba3-4e50-9c37-09e60a4dc121
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Date deposited: 15 Oct 2025 16:56
Last modified: 16 Oct 2025 02:17
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Contributors
Author:
Mueed Azhar
Author:
Laura P.E. Watson
Author:
Emanuella De Lucia Rolfe
Author:
Michele Ferraro
Author:
Katherine Carr
Author:
Jieniean Worsley
Author:
Chris Boesch
Author:
Leanne Hodson
Author:
Krishna K. Chatterjee
Author:
Graham J. Kemp
Author:
David B. Savage
Author:
Alison Sleigh
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