Blood-flow restriction resistance training improves skeletal muscle mitochondrial capacity and cardiovascular risk factors in type 2 diabetes

Nina Trinks; Sofiya Gancheva; Jennifer Pützer; Martin Schön; Maximilian Huttasch; Kalliopi Pafili; Lucia Mastrototaro; Bedair Dewidar; Yuliya Kupriyanova; Christian Herder; Klaus Strassburger; Oana P Zaharia; Philip M M Ruppert; Sander Kersten; Joris Hoeks; Sandra Trenkamp; Vera Schrauwen-Hinderling; Patrick Schrauwen; Michael Roden; Dominik H Pesta

doi:10.1016/j.cmet.2025.12.016

Blood-flow restriction resistance training improves skeletal muscle mitochondrial capacity and cardiovascular risk factors in type 2 diabetes

Nina Trinks
, Sofiya Gancheva
, Jennifer Pützer
, Martin Schön
, Maximilian Huttasch
, Kalliopi Pafili
, Lucia Mastrototaro
, Bedair Dewidar
, Yuliya Kupriyanova
, Christian Herder
, Klaus Strassburger
, Oana P Zaharia
, Philip M M Ruppert
, Sander Kersten
, Joris Hoeks
, Sandra Trenkamp
, Vera Schrauwen-Hinderling
, Patrick Schrauwen
, Michael Roden
, Dominik H Pesta

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

Abstract

Impaired muscle strength and mitochondrial functionality are hallmarks of type 2 diabetes (T2D). Conventional combined resistance/endurance exercise training has limited efficacy to simultaneously improve muscle function and metabolism. We examined whether low-load blood-flow restriction training (BFRT) increases both muscle strength and mitochondrial oxidative capacity in T2D. Over 12 weeks, BFRT and conventional resistance training (CREST) similarly improved muscle strength despite lower workload in BFRT. Uniquely, BFRT enhanced muscle and adipose tissue oxidative capacity and increased muscle mitochondrial content. Transcriptomic profiling revealed more pronounced changes, particularly in angiogenesis-linked pathways, upon BFRT. BFRT also preferentially led to reductions in visceral adipose tissue volume and waist circumference, whereas CREST more effectively decreased subcutaneous adipose tissue volume. Both interventions lowered resting heart rate and diastolic blood pressure. These findings position BFRT as a promising low-load exercising strategy to simultaneously improve mitochondrial oxidative capacity, muscle strength, and body composition in individuals with T2D.

Original language	English
Pages (from-to)	812-823.e6
Journal	Cell Metabolism
Volume	38
Issue number	4
Early online date	28 Jan 2026
DOIs	https://doi.org/10.1016/j.cmet.2025.12.016 https://doi.org/10.1016/j.cmet.2025.12.016
Publication status	Published - 7 Apr 2026
Externally published	Yes

Keywords

adipose tissue distribution
angiogenesis
blood-flow restriction training
cardiovascular function
mitochondrial respiration
resistance training
skeletal muscle function
type 2 diabetes
Mitochondria, Muscle/metabolism
Mitochondria/metabolism
Humans
Middle Aged
Muscle Strength/physiology
Cardiovascular Diseases/metabolism
Muscle, Skeletal/metabolism
Male
Regional Blood Flow
Resistance Training/methods
Diabetes Mellitus, Type 2/metabolism
Female
Heart Disease Risk Factors

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Trinks, N., Gancheva, S., Pützer, J., Schön, M., Huttasch, M., Pafili, K., Mastrototaro, L., Dewidar, B., Kupriyanova, Y., Herder, C., Strassburger, K., Zaharia, O. P., Ruppert, P. M. M., Kersten, S., Hoeks, J., Trenkamp, S., Schrauwen-Hinderling, V., Schrauwen, P., Roden, M., & Pesta, D. H. (2026). Blood-flow restriction resistance training improves skeletal muscle mitochondrial capacity and cardiovascular risk factors in type 2 diabetes. Cell Metabolism, 38(4), 812-823.e6. https://doi.org/10.1016/j.cmet.2025.12.016, https://doi.org/10.1016/j.cmet.2025.12.016

@article{fcc23a6806b44dbab522bd6cc9f163df,

title = "Blood-flow restriction resistance training improves skeletal muscle mitochondrial capacity and cardiovascular risk factors in type 2 diabetes",

abstract = "Impaired muscle strength and mitochondrial functionality are hallmarks of type 2 diabetes (T2D). Conventional combined resistance/endurance exercise training has limited efficacy to simultaneously improve muscle function and metabolism. We examined whether low-load blood-flow restriction training (BFRT) increases both muscle strength and mitochondrial oxidative capacity in T2D. Over 12 weeks, BFRT and conventional resistance training (CREST) similarly improved muscle strength despite lower workload in BFRT. Uniquely, BFRT enhanced muscle and adipose tissue oxidative capacity and increased muscle mitochondrial content. Transcriptomic profiling revealed more pronounced changes, particularly in angiogenesis-linked pathways, upon BFRT. BFRT also preferentially led to reductions in visceral adipose tissue volume and waist circumference, whereas CREST more effectively decreased subcutaneous adipose tissue volume. Both interventions lowered resting heart rate and diastolic blood pressure. These findings position BFRT as a promising low-load exercising strategy to simultaneously improve mitochondrial oxidative capacity, muscle strength, and body composition in individuals with T2D.",

keywords = "adipose tissue distribution, angiogenesis, blood-flow restriction training, cardiovascular function, mitochondrial respiration, resistance training, skeletal muscle function, type 2 diabetes, Mitochondria, Muscle/metabolism, Mitochondria/metabolism, Humans, Middle Aged, Muscle Strength/physiology, Cardiovascular Diseases/metabolism, Muscle, Skeletal/metabolism, Male, Regional Blood Flow, Resistance Training/methods, Diabetes Mellitus, Type 2/metabolism, Female, Heart Disease Risk Factors",

author = "Nina Trinks and Sofiya Gancheva and Jennifer P{\"u}tzer and Martin Sch{\"o}n and Maximilian Huttasch and Kalliopi Pafili and Lucia Mastrototaro and Bedair Dewidar and Yuliya Kupriyanova and Christian Herder and Klaus Strassburger and Zaharia, \{Oana P\} and Ruppert, \{Philip M M\} and Sander Kersten and Joris Hoeks and Sandra Trenkamp and Vera Schrauwen-Hinderling and Patrick Schrauwen and Michael Roden and Pesta, \{Dominik H\}",

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

year = "2026",

month = apr,

day = "7",

doi = "10.1016/j.cmet.2025.12.016",

language = "English",

volume = "38",

pages = "812--823.e6",

journal = "Cell Metabolism",

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Trinks, N, Gancheva, S, Pützer, J, Schön, M, Huttasch, M, Pafili, K, Mastrototaro, L, Dewidar, B, Kupriyanova, Y, Herder, C, Strassburger, K, Zaharia, OP, Ruppert, PMM, Kersten, S, Hoeks, J, Trenkamp, S, Schrauwen-Hinderling, V, Schrauwen, P, Roden, M & Pesta, DH 2026, 'Blood-flow restriction resistance training improves skeletal muscle mitochondrial capacity and cardiovascular risk factors in type 2 diabetes', Cell Metabolism, vol. 38, no. 4, pp. 812-823.e6. https://doi.org/10.1016/j.cmet.2025.12.016, https://doi.org/10.1016/j.cmet.2025.12.016

TY - JOUR

T1 - Blood-flow restriction resistance training improves skeletal muscle mitochondrial capacity and cardiovascular risk factors in type 2 diabetes

AU - Trinks, Nina

AU - Gancheva, Sofiya

AU - Pützer, Jennifer

AU - Schön, Martin

AU - Huttasch, Maximilian

AU - Pafili, Kalliopi

AU - Mastrototaro, Lucia

AU - Dewidar, Bedair

AU - Kupriyanova, Yuliya

AU - Herder, Christian

AU - Strassburger, Klaus

AU - Zaharia, Oana P

AU - Ruppert, Philip M M

AU - Kersten, Sander

AU - Hoeks, Joris

AU - Trenkamp, Sandra

AU - Schrauwen-Hinderling, Vera

AU - Schrauwen, Patrick

AU - Roden, Michael

AU - Pesta, Dominik H

PY - 2026/4/7

Y1 - 2026/4/7

N2 - Impaired muscle strength and mitochondrial functionality are hallmarks of type 2 diabetes (T2D). Conventional combined resistance/endurance exercise training has limited efficacy to simultaneously improve muscle function and metabolism. We examined whether low-load blood-flow restriction training (BFRT) increases both muscle strength and mitochondrial oxidative capacity in T2D. Over 12 weeks, BFRT and conventional resistance training (CREST) similarly improved muscle strength despite lower workload in BFRT. Uniquely, BFRT enhanced muscle and adipose tissue oxidative capacity and increased muscle mitochondrial content. Transcriptomic profiling revealed more pronounced changes, particularly in angiogenesis-linked pathways, upon BFRT. BFRT also preferentially led to reductions in visceral adipose tissue volume and waist circumference, whereas CREST more effectively decreased subcutaneous adipose tissue volume. Both interventions lowered resting heart rate and diastolic blood pressure. These findings position BFRT as a promising low-load exercising strategy to simultaneously improve mitochondrial oxidative capacity, muscle strength, and body composition in individuals with T2D.

AB - Impaired muscle strength and mitochondrial functionality are hallmarks of type 2 diabetes (T2D). Conventional combined resistance/endurance exercise training has limited efficacy to simultaneously improve muscle function and metabolism. We examined whether low-load blood-flow restriction training (BFRT) increases both muscle strength and mitochondrial oxidative capacity in T2D. Over 12 weeks, BFRT and conventional resistance training (CREST) similarly improved muscle strength despite lower workload in BFRT. Uniquely, BFRT enhanced muscle and adipose tissue oxidative capacity and increased muscle mitochondrial content. Transcriptomic profiling revealed more pronounced changes, particularly in angiogenesis-linked pathways, upon BFRT. BFRT also preferentially led to reductions in visceral adipose tissue volume and waist circumference, whereas CREST more effectively decreased subcutaneous adipose tissue volume. Both interventions lowered resting heart rate and diastolic blood pressure. These findings position BFRT as a promising low-load exercising strategy to simultaneously improve mitochondrial oxidative capacity, muscle strength, and body composition in individuals with T2D.

KW - adipose tissue distribution

KW - angiogenesis

KW - blood-flow restriction training

KW - cardiovascular function

KW - mitochondrial respiration

KW - resistance training

KW - skeletal muscle function

KW - type 2 diabetes

KW - Mitochondria, Muscle/metabolism

KW - Mitochondria/metabolism

KW - Humans

KW - Middle Aged

KW - Muscle Strength/physiology

KW - Cardiovascular Diseases/metabolism

KW - Muscle, Skeletal/metabolism

KW - Male

KW - Regional Blood Flow

KW - Resistance Training/methods

KW - Diabetes Mellitus, Type 2/metabolism

KW - Female

KW - Heart Disease Risk Factors

UR - https://www.scopus.com/pages/publications/105028971225

U2 - 10.1016/j.cmet.2025.12.016

DO - 10.1016/j.cmet.2025.12.016

M3 - Article

C2 - 41610852

SN - 1550-4131

VL - 38

SP - 812-823.e6

JO - Cell Metabolism

JF - Cell Metabolism

IS - 4

ER -

Blood-flow restriction resistance training improves skeletal muscle mitochondrial capacity and cardiovascular risk factors in type 2 diabetes

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Keywords

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