Maximal Fat Oxidation Rate Is Higher in Fit Women and Unfit Women With Obesity, Compared to Normal-weight Unfit Women

Jacob Frandsen; Ida Marie Dahlgaard Hansen; Julie Fensmark Wismann; Maria Høyer Olsen; Morten Runge Brage-Andersen; Ronni Eg Sahl; Maria Hansen; Arthur Ingersen; Johanne Louise Modvig; Malte Schmücker; Camilla Honoré Grauslund; Flemming Dela; Steen Larsen; Jørn Wulff Helge

doi:10.1210/clinem/dgab473

Maximal Fat Oxidation Rate Is Higher in Fit Women and Unfit Women With Obesity, Compared to Normal-weight Unfit Women

Jacob Frandsen, Ida Marie Dahlgaard Hansen, Julie Fensmark Wismann, Maria Høyer Olsen, Morten Runge Brage-Andersen, Ronni Eg Sahl, Maria Hansen, Arthur Ingersen, Johanne Louise Modvig, Malte Schmücker, Camilla Honoré Grauslund, Flemming Dela, Steen Larsen, Jørn Wulff Helge

Geriatrisk og Palliativ Afdeling BFH

14 Citationer (Scopus)

Abstract

CONTEXT: The maximal fat oxidation rate (MFO) is higher in aerobically fit vs unfit young men, but this training-related increase in MFO is attenuated in middle-aged men. Further, it has also been found that unfit men with obesity may have an elevated MFO compared to unfit normal-weight men.

OBJECTIVE: Based hereupon, we aimed to investigate whether a fitness-related higher MFO were attenuated in middle-aged women compared to young women. Also, we aimed to investigate if unfit women with obesity have a higher MFO compared to unfit normal-weight women. We hypothesized that the training-related elevated MFO was attenuated in middle-aged women, but that unfit women with obesity would have an elevated MFO compared to unfit normal-weight women.

METHODS: We recruited 70 women stratified into 6 groups: young fit (n = 12), young unfit (n = 12) middle-aged fit (n = 12), middle-aged unfit (n = 12), unfit young women with obesity (n = 12), and unfit middle-aged women with obesity (n = 10). Body composition and resting blood samples were obtained and MFO was measured by a graded exercise test on a cycle ergometer via indirect calorimetry. Subsequently, a maximal exercise test was performed to establish peak oxygen uptake (V̇O2peak).

RESULTS: Young and middle-aged fit women had a higher MFO compared to age-matched unfit women, and young fit women had a higher MFO compared to fit middle-aged women. Unfit women with obesity, independent of age, had a higher MFO compared to their normal-weight and unfit counterparts.

CONCLUSION: The training-related increase in MFO seems maintained in middle-aged women, and we find that unfit women with obesity, independent of age, have a higher MFO compared to unfit normal-weight women.

Originalsprog	Engelsk
Tidsskrift	The Journal of clinical endocrinology and metabolism
Vol/bind	106
Udgave nummer	11
Sider (fra-til)	e4389-e4399
ISSN	0021-972X
DOI	https://doi.org/10.1210/clinem/dgab473
Status	Udgivet - nov. 2021

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10.1210/clinem/dgab473

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Frandsen, J., Hansen, I. M. D., Wismann, J. F., Olsen, M. H., Brage-Andersen, M. R., Sahl, R. E., Hansen, M., Ingersen, A., Modvig, J. L., Schmücker, M., Grauslund, C. H., Dela, F., Larsen, S., & Helge, J. W. (2021). Maximal Fat Oxidation Rate Is Higher in Fit Women and Unfit Women With Obesity, Compared to Normal-weight Unfit Women. The Journal of clinical endocrinology and metabolism, 106(11), e4389-e4399. https://doi.org/10.1210/clinem/dgab473

Maximal Fat Oxidation Rate Is Higher in Fit Women and Unfit Women With Obesity, Compared to Normal-weight Unfit Women. / Frandsen, Jacob; Hansen, Ida Marie Dahlgaard; Wismann, Julie Fensmark et al.
I: The Journal of clinical endocrinology and metabolism, Bind 106, Nr. 11, 11.2021, s. e4389-e4399.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Frandsen, J, Hansen, IMD, Wismann, JF, Olsen, MH, Brage-Andersen, MR, Sahl, RE, Hansen, M, Ingersen, A, Modvig, JL, Schmücker, M, Grauslund, CH, Dela, F, Larsen, S & Helge, JW 2021, 'Maximal Fat Oxidation Rate Is Higher in Fit Women and Unfit Women With Obesity, Compared to Normal-weight Unfit Women', The Journal of clinical endocrinology and metabolism, bind 106, nr. 11, s. e4389-e4399. https://doi.org/10.1210/clinem/dgab473

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title = "Maximal Fat Oxidation Rate Is Higher in Fit Women and Unfit Women With Obesity, Compared to Normal-weight Unfit Women",

abstract = "CONTEXT: The maximal fat oxidation rate (MFO) is higher in aerobically fit vs unfit young men, but this training-related increase in MFO is attenuated in middle-aged men. Further, it has also been found that unfit men with obesity may have an elevated MFO compared to unfit normal-weight men.OBJECTIVE: Based hereupon, we aimed to investigate whether a fitness-related higher MFO were attenuated in middle-aged women compared to young women. Also, we aimed to investigate if unfit women with obesity have a higher MFO compared to unfit normal-weight women. We hypothesized that the training-related elevated MFO was attenuated in middle-aged women, but that unfit women with obesity would have an elevated MFO compared to unfit normal-weight women.METHODS: We recruited 70 women stratified into 6 groups: young fit (n = 12), young unfit (n = 12) middle-aged fit (n = 12), middle-aged unfit (n = 12), unfit young women with obesity (n = 12), and unfit middle-aged women with obesity (n = 10). Body composition and resting blood samples were obtained and MFO was measured by a graded exercise test on a cycle ergometer via indirect calorimetry. Subsequently, a maximal exercise test was performed to establish peak oxygen uptake ({\.V}O2peak).RESULTS: Young and middle-aged fit women had a higher MFO compared to age-matched unfit women, and young fit women had a higher MFO compared to fit middle-aged women. Unfit women with obesity, independent of age, had a higher MFO compared to their normal-weight and unfit counterparts.CONCLUSION: The training-related increase in MFO seems maintained in middle-aged women, and we find that unfit women with obesity, independent of age, have a higher MFO compared to unfit normal-weight women.",

keywords = "aging, fat oxidation, obesity, women",

author = "Jacob Frandsen and Hansen, {Ida Marie Dahlgaard} and Wismann, {Julie Fensmark} and Olsen, {Maria H{\o}yer} and Brage-Andersen, {Morten Runge} and Sahl, {Ronni Eg} and Maria Hansen and Arthur Ingersen and Modvig, {Johanne Louise} and Malte Schm{\"u}cker and Grauslund, {Camilla Honor{\'e}} and Flemming Dela and Steen Larsen and Helge, {J{\o}rn Wulff}",

year = "2021",

month = nov,

doi = "10.1210/clinem/dgab473",

language = "English",

volume = "106",

pages = "e4389--e4399",

journal = "The Journal of clinical endocrinology and metabolism",

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T1 - Maximal Fat Oxidation Rate Is Higher in Fit Women and Unfit Women With Obesity, Compared to Normal-weight Unfit Women

AU - Frandsen, Jacob

AU - Hansen, Ida Marie Dahlgaard

AU - Wismann, Julie Fensmark

AU - Olsen, Maria Høyer

AU - Brage-Andersen, Morten Runge

AU - Sahl, Ronni Eg

AU - Hansen, Maria

AU - Ingersen, Arthur

AU - Modvig, Johanne Louise

AU - Schmücker, Malte

AU - Grauslund, Camilla Honoré

AU - Dela, Flemming

AU - Larsen, Steen

AU - Helge, Jørn Wulff

PY - 2021/11

Y1 - 2021/11

N2 - CONTEXT: The maximal fat oxidation rate (MFO) is higher in aerobically fit vs unfit young men, but this training-related increase in MFO is attenuated in middle-aged men. Further, it has also been found that unfit men with obesity may have an elevated MFO compared to unfit normal-weight men.OBJECTIVE: Based hereupon, we aimed to investigate whether a fitness-related higher MFO were attenuated in middle-aged women compared to young women. Also, we aimed to investigate if unfit women with obesity have a higher MFO compared to unfit normal-weight women. We hypothesized that the training-related elevated MFO was attenuated in middle-aged women, but that unfit women with obesity would have an elevated MFO compared to unfit normal-weight women.METHODS: We recruited 70 women stratified into 6 groups: young fit (n = 12), young unfit (n = 12) middle-aged fit (n = 12), middle-aged unfit (n = 12), unfit young women with obesity (n = 12), and unfit middle-aged women with obesity (n = 10). Body composition and resting blood samples were obtained and MFO was measured by a graded exercise test on a cycle ergometer via indirect calorimetry. Subsequently, a maximal exercise test was performed to establish peak oxygen uptake (V̇O2peak).RESULTS: Young and middle-aged fit women had a higher MFO compared to age-matched unfit women, and young fit women had a higher MFO compared to fit middle-aged women. Unfit women with obesity, independent of age, had a higher MFO compared to their normal-weight and unfit counterparts.CONCLUSION: The training-related increase in MFO seems maintained in middle-aged women, and we find that unfit women with obesity, independent of age, have a higher MFO compared to unfit normal-weight women.

AB - CONTEXT: The maximal fat oxidation rate (MFO) is higher in aerobically fit vs unfit young men, but this training-related increase in MFO is attenuated in middle-aged men. Further, it has also been found that unfit men with obesity may have an elevated MFO compared to unfit normal-weight men.OBJECTIVE: Based hereupon, we aimed to investigate whether a fitness-related higher MFO were attenuated in middle-aged women compared to young women. Also, we aimed to investigate if unfit women with obesity have a higher MFO compared to unfit normal-weight women. We hypothesized that the training-related elevated MFO was attenuated in middle-aged women, but that unfit women with obesity would have an elevated MFO compared to unfit normal-weight women.METHODS: We recruited 70 women stratified into 6 groups: young fit (n = 12), young unfit (n = 12) middle-aged fit (n = 12), middle-aged unfit (n = 12), unfit young women with obesity (n = 12), and unfit middle-aged women with obesity (n = 10). Body composition and resting blood samples were obtained and MFO was measured by a graded exercise test on a cycle ergometer via indirect calorimetry. Subsequently, a maximal exercise test was performed to establish peak oxygen uptake (V̇O2peak).RESULTS: Young and middle-aged fit women had a higher MFO compared to age-matched unfit women, and young fit women had a higher MFO compared to fit middle-aged women. Unfit women with obesity, independent of age, had a higher MFO compared to their normal-weight and unfit counterparts.CONCLUSION: The training-related increase in MFO seems maintained in middle-aged women, and we find that unfit women with obesity, independent of age, have a higher MFO compared to unfit normal-weight women.

KW - aging

KW - fat oxidation

KW - obesity

KW - women

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DO - 10.1210/clinem/dgab473

M3 - Journal article

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SN - 0021-972X

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JO - The Journal of clinical endocrinology and metabolism

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ER -

Maximal Fat Oxidation Rate Is Higher in Fit Women and Unfit Women With Obesity, Compared to Normal-weight Unfit Women

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