In vitro and in vivo muscle mass and strength during the first week of critical illness

Wout J. Claassen; Isabel M. van Ruijven; Marloes van den Berg; Rianne J. Baelde; Alexcia Fortes Monteiro; Rajvi M.N. Balesar; Sylvia W. Hania; Donald L. van der Peet; Peter J.M. Weijs; Coen A.C. Ottenheijm; Sandra N. Stapel

doi:10.1186/s40635-025-00755-7

In vitro and in vivo muscle mass and strength during the first week of critical illness

Wout J. Claassen
, Isabel M. van Ruijven
, Marloes van den Berg
, Rianne J. Baelde
, Alexcia Fortes Monteiro
, Rajvi M.N. Balesar
, Sylvia W. Hania
, Donald L. van der Peet
, Peter J.M. Weijs
, Coen A.C. Ottenheijm
, Sandra N. Stapel

Research output: Contribution to journal › Article › peer-review

Abstract

Background: Loss of muscle mass and strength is provoked by critical illness. Our primary aim was to study the development of muscle atrophy and weakness in vitro in isolated myofibers and in vivo muscle mass and in vitro muscle strength during the first week of critical illness. Furthermore, we explored how in vitro muscle strength compares to healthy controls. Finally, we studied correlations between in vitro muscle mass and strength and in vivo muscle mass in critically ill patients. Methods: We performed a secondary analysis using data from a randomized controlled trial. We studied contractile force of single myofibers isolated from muscle biopsies around admission (day 1–3) and around 1 week after inclusion (day 8–10). Furthermore, we studied myofiber cross-sectional area (CSA), proportion of fast-twitch myofibers, bio-electrical impedance analysis-derived fat-free mass index (FFMI), ultrasound-derived quadriceps muscle layer thickness (QMLT) and diaphragm thickness. In the control group, only contractile force outcomes were available. Results: In total, ten ICU patients had two muscle biopsies taken. Maximum force of both fast and slow-twitch myofibers was reduced at day 8–10 compared to day 1–3, even though there were no differences in normalized force and calcium sensitivity. FFM and QMLT did not change over time, nor were there differences between groups. Compared to healthy controls, maximum force of myofibers was lower in the ICU group at day 8–10 in both slow and fast-twitch myofibers, while the calcium sensitivity of force was lower in slow-twitch myofibers. We found a significant correlation between myofiber CSA vs. FFMI (r = 0.68) and maximum force of the fast-twitch fibers vs. QMLT (r = 0.72). Conclusions: During the first week of critical illness, maximum force declined over time, while no other in vitro parameters changed. We found a moderate correlation between myofiber CSA vs. FFMI and maximum force of the fast-twitch fibers vs. QMLT.

Original language	English (US)
Article number	57
Journal	Intensive Care Medicine Experimental
Volume	13
Issue number	1
DOIs	https://doi.org/10.1186/s40635-025-00755-7
State	Published - Dec 2025
Externally published	Yes

Keywords

ICU
Muscle mass
Muscle strength

ASJC Scopus subject areas

Emergency Medicine
Critical Care and Intensive Care Medicine
Physiology (medical)

Access to Document

10.1186/s40635-025-00755-7

Cite this

Claassen, W. J., van Ruijven, I. M., van den Berg, M., Baelde, R. J., Fortes Monteiro, A., Balesar, R. M. N., Hania, S. W., van der Peet, D. L., Weijs, P. J. M., Ottenheijm, C. A. C., & Stapel, S. N. (2025). In vitro and in vivo muscle mass and strength during the first week of critical illness. Intensive Care Medicine Experimental, 13(1), Article 57. https://doi.org/10.1186/s40635-025-00755-7

@article{b1ab44b5aab94a2abde328a3f381b8d1,

title = "In vitro and in vivo muscle mass and strength during the first week of critical illness",

abstract = "Background: Loss of muscle mass and strength is provoked by critical illness. Our primary aim was to study the development of muscle atrophy and weakness in vitro in isolated myofibers and in vivo muscle mass and in vitro muscle strength during the first week of critical illness. Furthermore, we explored how in vitro muscle strength compares to healthy controls. Finally, we studied correlations between in vitro muscle mass and strength and in vivo muscle mass in critically ill patients. Methods: We performed a secondary analysis using data from a randomized controlled trial. We studied contractile force of single myofibers isolated from muscle biopsies around admission (day 1–3) and around 1 week after inclusion (day 8–10). Furthermore, we studied myofiber cross-sectional area (CSA), proportion of fast-twitch myofibers, bio-electrical impedance analysis-derived fat-free mass index (FFMI), ultrasound-derived quadriceps muscle layer thickness (QMLT) and diaphragm thickness. In the control group, only contractile force outcomes were available. Results: In total, ten ICU patients had two muscle biopsies taken. Maximum force of both fast and slow-twitch myofibers was reduced at day 8–10 compared to day 1–3, even though there were no differences in normalized force and calcium sensitivity. FFM and QMLT did not change over time, nor were there differences between groups. Compared to healthy controls, maximum force of myofibers was lower in the ICU group at day 8–10 in both slow and fast-twitch myofibers, while the calcium sensitivity of force was lower in slow-twitch myofibers. We found a significant correlation between myofiber CSA vs. FFMI (r = 0.68) and maximum force of the fast-twitch fibers vs. QMLT (r = 0.72). Conclusions: During the first week of critical illness, maximum force declined over time, while no other in vitro parameters changed. We found a moderate correlation between myofiber CSA vs. FFMI and maximum force of the fast-twitch fibers vs. QMLT.",

keywords = "ICU, Muscle mass, Muscle strength",

author = "Claassen, \{Wout J.\} and \{van Ruijven\}, \{Isabel M.\} and \{van den Berg\}, Marloes and Baelde, \{Rianne J.\} and \{Fortes Monteiro\}, Alexcia and Balesar, \{Rajvi M.N.\} and Hania, \{Sylvia W.\} and \{van der Peet\}, \{Donald L.\} and Weijs, \{Peter J.M.\} and Ottenheijm, \{Coen A.C.\} and Stapel, \{Sandra N.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

doi = "10.1186/s40635-025-00755-7",

language = "English (US)",

volume = "13",

journal = "Intensive Care Medicine Experimental",

issn = "2197-425X",

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TY - JOUR

T1 - In vitro and in vivo muscle mass and strength during the first week of critical illness

AU - Claassen, Wout J.

AU - van Ruijven, Isabel M.

AU - van den Berg, Marloes

AU - Baelde, Rianne J.

AU - Fortes Monteiro, Alexcia

AU - Balesar, Rajvi M.N.

AU - Hania, Sylvia W.

AU - van der Peet, Donald L.

AU - Weijs, Peter J.M.

AU - Ottenheijm, Coen A.C.

AU - Stapel, Sandra N.

PY - 2025/12

Y1 - 2025/12

N2 - Background: Loss of muscle mass and strength is provoked by critical illness. Our primary aim was to study the development of muscle atrophy and weakness in vitro in isolated myofibers and in vivo muscle mass and in vitro muscle strength during the first week of critical illness. Furthermore, we explored how in vitro muscle strength compares to healthy controls. Finally, we studied correlations between in vitro muscle mass and strength and in vivo muscle mass in critically ill patients. Methods: We performed a secondary analysis using data from a randomized controlled trial. We studied contractile force of single myofibers isolated from muscle biopsies around admission (day 1–3) and around 1 week after inclusion (day 8–10). Furthermore, we studied myofiber cross-sectional area (CSA), proportion of fast-twitch myofibers, bio-electrical impedance analysis-derived fat-free mass index (FFMI), ultrasound-derived quadriceps muscle layer thickness (QMLT) and diaphragm thickness. In the control group, only contractile force outcomes were available. Results: In total, ten ICU patients had two muscle biopsies taken. Maximum force of both fast and slow-twitch myofibers was reduced at day 8–10 compared to day 1–3, even though there were no differences in normalized force and calcium sensitivity. FFM and QMLT did not change over time, nor were there differences between groups. Compared to healthy controls, maximum force of myofibers was lower in the ICU group at day 8–10 in both slow and fast-twitch myofibers, while the calcium sensitivity of force was lower in slow-twitch myofibers. We found a significant correlation between myofiber CSA vs. FFMI (r = 0.68) and maximum force of the fast-twitch fibers vs. QMLT (r = 0.72). Conclusions: During the first week of critical illness, maximum force declined over time, while no other in vitro parameters changed. We found a moderate correlation between myofiber CSA vs. FFMI and maximum force of the fast-twitch fibers vs. QMLT.

AB - Background: Loss of muscle mass and strength is provoked by critical illness. Our primary aim was to study the development of muscle atrophy and weakness in vitro in isolated myofibers and in vivo muscle mass and in vitro muscle strength during the first week of critical illness. Furthermore, we explored how in vitro muscle strength compares to healthy controls. Finally, we studied correlations between in vitro muscle mass and strength and in vivo muscle mass in critically ill patients. Methods: We performed a secondary analysis using data from a randomized controlled trial. We studied contractile force of single myofibers isolated from muscle biopsies around admission (day 1–3) and around 1 week after inclusion (day 8–10). Furthermore, we studied myofiber cross-sectional area (CSA), proportion of fast-twitch myofibers, bio-electrical impedance analysis-derived fat-free mass index (FFMI), ultrasound-derived quadriceps muscle layer thickness (QMLT) and diaphragm thickness. In the control group, only contractile force outcomes were available. Results: In total, ten ICU patients had two muscle biopsies taken. Maximum force of both fast and slow-twitch myofibers was reduced at day 8–10 compared to day 1–3, even though there were no differences in normalized force and calcium sensitivity. FFM and QMLT did not change over time, nor were there differences between groups. Compared to healthy controls, maximum force of myofibers was lower in the ICU group at day 8–10 in both slow and fast-twitch myofibers, while the calcium sensitivity of force was lower in slow-twitch myofibers. We found a significant correlation between myofiber CSA vs. FFMI (r = 0.68) and maximum force of the fast-twitch fibers vs. QMLT (r = 0.72). Conclusions: During the first week of critical illness, maximum force declined over time, while no other in vitro parameters changed. We found a moderate correlation between myofiber CSA vs. FFMI and maximum force of the fast-twitch fibers vs. QMLT.

KW - ICU

KW - Muscle mass

KW - Muscle strength

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UR - https://www.scopus.com/pages/publications/105007195488#tab=citedBy

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DO - 10.1186/s40635-025-00755-7

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JO - Intensive Care Medicine Experimental

JF - Intensive Care Medicine Experimental

IS - 1

M1 - 57

ER -

In vitro and in vivo muscle mass and strength during the first week of critical illness

Abstract

Keywords

ASJC Scopus subject areas

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