Your search keyword '"Wernbom, Mathias"' showing total 10 results

1. Risk of Muscle Damage With Blood Flow-Restricted Exercise Should Not Be Overlooked.

Author

Wernbom M, Paulsen G, Bjørnsen T, Cumming K, and Raastad T

Subjects

Humans, Muscles, Exercise, Resistance Training

Abstract

Competing Interests: The authors report no conflicts of interest.

Published

2021

2. Muscle fibre activation and fatigue with low-load blood flow restricted resistance exercise-An integrative physiology review.

Author

Wernbom M and Aagaard P

Subjects

Humans, Exercise physiology, Muscle Contraction physiology, Muscle Fatigue physiology, Muscle, Skeletal blood supply

Abstract

Blood flow-restricted resistance exercise (BFRRE) has been shown to induce increases in muscle size and strength, and continues to generate interest from both clinical and basic research points of view. The low loads employed, typically 20%-50% of the one repetition maximum, make BFRRE an attractive training modality for individuals who may not tolerate high musculoskeletal forces (eg, selected clinical patient groups such as frail old adults and patients recovering from sports injury) and/or for highly trained athletes who have reached a plateau in muscle mass and strength. It has been proposed that achieving a high degree of muscle fibre recruitment is important for inducing muscle hypertrophy with BFRRE, and the available evidence suggest that fatiguing low-load exercise during ischemic conditions can recruit both slow (type I) and fast (type II) muscle fibres. Nevertheless, closer scrutiny reveals that type II fibre activation in BFRRE has to date largely been inferred using indirect methods such as electromyography and magnetic resonance spectroscopy, while only rarely addressed using more direct methods such as measurements of glycogen stores and phosphocreatine levels in muscle fibres. Hence, considerable uncertainity exists about the specific pattern of muscle fibre activation during BFRRE. Therefore, the purpose of this narrative review was (1) to summarize the evidence on muscle fibre recruitment during BFRRE as revealed by various methods employed for determining muscle fibre usage during exercise, and (2) to discuss reported findings in light of the specific advantages and limitations associated with these methods., (© 2019 Scandinavian Physiological Society. Published by John Wiley & Sons Ltd.)

Published

2020

3. Commentaries on Viewpoint: Distinct modalities of eccentric exercise: different recipes, not the same dish

Author

Coratella G, Longo S, Cè E, Esposito F, de Almeida Costa Campos Y, Pereira Guimarães M, Fernandes da Silva S, Dufour SP, Hureau TJ, Lemire M, Favret F, Elmer SJ, LaStayo PC, Wernbom M, Seynnes O, Paulsen G, Bontemps B, Vercruyssen F, Gruet M, Louis J, Mourot L, Rakobowchuk M, Pageaux B, Tremblay J, Peñailillo L, Nosaka K, Hahn D, Raiteri BJ, Škarabot J, Valenzuela PL, Walsh JA, McAndrew DJ, Lepers R, Stapley PJ, Baumert P, Erskine RM, and Clos P

Subjects

Exercise, Muscle, Skeletal

Published

2019

4. Delayed myonuclear addition, myofiber hypertrophy, and increases in strength with high-frequency low-load blood flow restricted training to volitional failure.

Author

Bjørnsen T, Wernbom M, Løvstad A, Paulsen G, D'Souza RF, Cameron-Smith D, Flesche A, Hisdal J, Berntsen S, and Raastad T

Subjects

Adult, Female, Humans, Hypertrophy metabolism, Male, Muscle Fibers, Skeletal metabolism, RNA, Messenger metabolism, Resistance Training methods, Young Adult, Exercise physiology, Hypertrophy physiopathology, Muscle Fibers, Skeletal physiology, Muscle Strength physiology, Regional Blood Flow physiology

Abstract

The purpose of the present study was to investigate muscle hypertrophy, strength, and myonuclear and satellite cell (SC) responses to high-frequency blood flow-restricted resistance exercise (BFRRE). Thirteen individuals [24 ± 2 yr (mean ± SD), 9 men] completed two 5-day blocks of 7 BFRRE sessions, separated by a 10-day rest period. Four sets of unilateral knee extensions to voluntary failure at 20% of one repetition maximum (1RM) were conducted with partial blood flow restriction (90-100 mmHg). Muscle samples obtained before, during, 3 days, and 10 days after training were analyzed for muscle fiber area (MFA), myonuclei, SC, and mRNA and miRNA expression. Muscle size was measured by ultrasonography and magnetic resonance imaging and strength with 1RM knee extension. With the first block of BFRRE, SC number increased in both fiber types (70%-80%, P < 0.05), whereas type I and II MFA decreased by 6 ± 7% and 15 ± 11% ( P < 0.05), respectively. With the second block of training, muscle size increased by 6%-8%, whereas the number of SCs (type I: 80 ± 63%, type II: 147 ± 95%), myonuclei (type I: 30 ± 24%, type II: 31 ± 28%), and MFA (type I: 19 ± 19%, type II: 11 ± 19%) peaked 10 days after the second block of BFRRE, whereas strength peaked after 20 days of detraining (6 ± 6%, P < 0.05). Pax7- and p21 mRNA expression were elevated during the intervention, whereas myostatin, IGF1R, MyoD, myogenin, cyclinD1 and -D2 mRNA did not change until 3-10 days postintervention. High-frequency low-load BFRRE induced robust increases in SC, myonuclei, and muscle size but modest strength gains. Intriguingly, the responses were delayed and peaked 10-20 days after the training intervention, indicating overreaching. NEW & NOTEWORTHY In line with previous studies, we demonstrate that high-frequency low-load blood flow-restricted resistance exercise (HF-BFRRE) can elicit robust increases in satellite cell and myonuclei numbers, along with gains in muscle size and strength. However, our results also suggest that these processes can be delayed and that with very strenuous HF-BFRRE, there may even be transient muscle fiber atrophy, presumably because of accumulated stress responses. Our findings have implications for the prescription of BFR exercise.

Published

2019

5. Non-failure blood flow restricted exercise induces similar muscle adaptations and less discomfort than failure protocols.

Author

Sieljacks P, Degn R, Hollaender K, Wernbom M, and Vissing K

Subjects

Adult, Humans, Magnetic Resonance Imaging, Male, Muscle Strength, Myalgia, Physical Exertion, Quadriceps Muscle diagnostic imaging, Regional Blood Flow, Young Adult, Constriction, Exercise, Quadriceps Muscle physiology, Resistance Training methods

Abstract

Low-load blood flow restricted resistance exercise (BFRE) performed to volitional failure is suggested to constitute an effective method for producing increases in muscle size and function. However, BFRE to failure may entail high levels of perceived exertion, discomfort, and/or delayed onset of muscle soreness (DOMS). The aim of the study was to compare BFRE performed to volitional failure (F-BFRE) vs non-failure BFRE (NF-BFRE) on changes in muscle size, function and perceptual responses. Fourteen young untrained males had one leg randomized to knee extension F-BFRE while the contralateral leg performed NF-BFRE. The training consisted of 22 exercise bouts over an 8-week period. Whole-muscle cross-sectional area (CSA) of quadriceps components, muscle function, and DOMS were assessed before and after the training period. Perceived exertion and discomfort were registered during each exercise bout. Both F-BFRE and NF-BFRE produced regional increases in muscle CSA in the range of: quadriceps (2.5%-3.8%), vastus lateralis (8.1%-8.5%), and rectus femoris (7.9%-25.0%). All without differences between leg. Muscle strength (6.8%-11.5%) and strength-endurance capacity (13.9%-18.6%) also increased to a similar degree in both legs. Less perceived exertion, discomfort, and DOMS were reported with NF-BFRE compared to F-BFRE. In conclusion, non-failure BFRE enables increases in muscle size and muscle function, while involving reduced perceptions of exertion, discomfort, and DOMS. Non-failure BFRE may be a more feasible approach in clinical settings., (© 2018 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2019

6. Body position influences arterial occlusion pressure: implications for the standardization of pressure during blood flow restricted exercise.

Author

Sieljacks P, Knudsen L, Wernbom M, and Vissing K

Subjects

Adult, Blood Pressure Determination instrumentation, Blood Pressure Determination standards, Blood Pressure Monitors, Female, Humans, Male, Middle Aged, Patient Positioning methods, Regional Blood Flow, Ultrasonography, Doppler instrumentation, Ultrasonography, Doppler standards, Blood Pressure, Blood Pressure Determination methods, Exercise, Posture, Ultrasonography, Doppler methods

Abstract

Purpose: Arterial occlusion pressure (AOP) measured in a supine position is often used to set cuff pressures for blood flow restricted exercise (BFRE). However, supine AOP may not reflect seated or standing AOP, thus potentially influencing the degree of occlusion. The primary aim of the study was to investigate the effect of body position on AOP. A secondary aim was to investigate predictors of AOP using wide and narrow cuffs., Methods: Twenty-four subjects underwent measurements of thigh circumference, skinfold and blood pressure, followed by assessments of thigh AOP in supine and seated positions with a wide and a narrow cuff, respectively, using Doppler ultrasound., Results: In the supine position, AOP was 148 ± 19 and 348 ± 94 mmHg with the wide and narrow cuff, respectively. This increased to 177 ± 20 and 409 ± 101 mmHg in the seated position, with correlations between supine and seated AOP of R 2  = 0.81 and R 2  = 0.50 for the wide and narrow cuff, respectively. For both cuff widths, thigh circumference constituted the strongest predictor of AOP, with diastolic blood pressure explaining additional variance with the wide cuff. The predictive strength of these variables did not differ between body positions., Conclusion: Our results indicate that body position strongly influences lower limb AOP, especially with narrow cuffs, yielding very high AOP (≥ 500-600 mmHg) in some subjects. This should be taken into account in the standardization of cuff pressures used during BFRE to better control the physiological effects of BFRE.

Published

2018

7. Variable resistance training promotes greater fatigue resistance but not hypertrophy versus constant resistance training.

Author

Walker S, Hulmi JJ, Wernbom M, Nyman K, Kraemer WJ, Ahtiainen JP, and Häkkinen K

Subjects

Adaptation, Physiological physiology, Adult, Cross-Over Studies, Fatigue blood, Humans, Hydrocortisone blood, Hypertrophy blood, Isometric Contraction physiology, Leg physiology, MAP Kinase Signaling System physiology, Male, Muscle, Skeletal physiology, Quadriceps Muscle pathology, Testosterone blood, Exercise physiology, Fatigue pathology, Muscle, Skeletal pathology, Resistance Training methods

Abstract

Loading using variable resistance devices, where the external resistance changes in line with the force:angle relationship, has been shown to cause greater acute neuromuscular fatigue and larger serum hormone responses. This may indicate a greater potential for adaptation during long-term training. Twelve (constant resistance group) and 11 (variable resistance group) men completed 20 weeks of resistance training with 10 men as non-training controls. Training-induced adaptations were assessed by bilateral leg press one repetition maximum, a repetition to failure test using 75 % 1RM, lower limb lean mass and vastus lateralis cross-sectional area. Only the variable resistance training group improved the total number of repetitions (41 ± 46 %) and volume load (52 ± 37 %) during the repetition to failure test (P < 0.05). Similar improvements in maximum strength and hypertrophy of the lower limbs were observed in both training groups. Also, constant and variable resistance 5 × 10RM leg press loadings were performed before and after training in a crossover design. Acute loading-induced responses were assessed by concentric and isometric force, serum hormone concentrations and phosphorylation of intramuscular signalling proteins (0-30 min post-loading). Greater acute decreases in force (P < 0.05-0.01), and greater increases in serum testosterone and cortisol concentration (P < 0.05) and ERK 1/2 phosphorylation (P < 0.05) were observed following variable resistance loadings before and after training. Greater training-induced improvements in fatigue resistance occurred in the variable resistance training group, which may be due to greater acute fatigue and physiological responses during variable versus constant resistance loadings.

Published

2013

8. Contractile function and sarcolemmal permeability after acute low-load resistance exercise with blood flow restriction.

Author

Wernbom M, Paulsen G, Nilsen TS, Hisdal J, and Raastad T

Subjects

Adult, Fatigue metabolism, Fatigue physiopathology, Female, Humans, Knee blood supply, Knee physiology, Knee Joint blood supply, Knee Joint metabolism, Knee Joint physiology, Lectins, C-Type metabolism, Leg blood supply, Leg physiology, Male, Muscle Fibers, Skeletal metabolism, Resistance Training methods, Sarcolemma metabolism, Young Adult, Cell Membrane Permeability physiology, Exercise physiology, Muscle Contraction physiology, Muscle Fibers, Skeletal physiology, Regional Blood Flow physiology, Sarcolemma physiology

Abstract

Conflicting findings have been reported regarding muscle damage with low-intensity resistance exercise with blood flow restriction (BFR) by pressure cuffs. This study investigated muscle function and muscle fibre morphology after a single bout of low-intensity resistance exercise with and without BFR. Twelve physically active subjects performed unilateral knee extensions at 30% of their one repetition maximum (1RM), with partial BFR on one leg and the other leg without occlusion. With the BFR leg, five sets were performed to concentric torque failure, and the free-flow leg repeated the exact same number of repetitions and sets. Biopsies were obtained from vastus lateralis before and 1, 24 and 48 h after exercise. Maximum isometric torque (MVC) and resting tension were measured before and after exercise and at 4, 24, 48, 72, 96 and 168 h post-exercise. The results demonstrated significant decrements in MVC (lasting ≥48 h) and delayed onset muscle soreness in both legs, and increased resting tension for the occluded leg both acutely and at 24 h post-exercise. The percentage of muscle fibres showing elevated intracellular staining of the plasma protein tetranectin, a marker for sarcolemmal permeability, was significantly increased from 9% before exercise to 27-38% at 1, 24 and 48 h post-exercise for the BFR leg. The changes in the free-flow leg were significant only at 24 h (19%). We conclude that an acute bout of low-load resistance exercise with BFR resulted in changes suggesting muscle damage, which may have implications both for safety aspects and for the training stimulus with BFR exercise.

Published

2012

9. Effects of training, detraining, and retraining on strength, hypertrophy, and myonuclear number in human skeletal muscle.

Author

Psilander, Niklas, Eftestøl, Einar, Toldnes Cumming, Kristoffer, Juvkam, Inga, Ekblom, Maria M., Sunding, Kerstin, Wernbom, Mathias, Holmberg, Hans-Christer, Ekblom, Björn, Bruusgaard, Jo C., Raastad, Truls, and Gundersen, Kristian

Subjects

SKELETAL muscle, STRENGTH training, MUSCLE strength, MOTOR learning, MEMORY

Abstract

Previously trained mouse muscles acquire strength and volume faster than naïve muscles; it has been suggested that this is related to increased myonuclear density. The present study aimed to determine whether a previously strength-trained leg (mem-leg) would respond better to a period of strength training than a previously untrained leg (con-leg). Nine men and 10 women performed unilateral strength training (T1) for 10 wk, followed by 20 wk of detraining (DT) and a 5-wk bilateral retraining period (T2). Muscle biopsies were taken before and after each training period and analyzed for myonuclear number, fiber volume, and cross-sectional area (CSA). Ultrasound and one repetition of maximum leg extension were performed to determine muscle thickness (MT) and strength. CSA (~17%), MT (~10%), and strength (~20%) increased during T1 in the mem-leg. However, the myonuclear number and fiber volume did not change. MT and CSA returned to baseline values during DT, but strength remained elevated (~60%), supporting previous findings of a long-lasting motor learning effect. MT and strength increased similarly in the mem-leg and con-leg during T2, whereas CSA, fiber volume, and myonuclear number remained unaffected. In conclusion, training response during T2 did not differ between the mem-leg and con-leg. However, this does not discount the existence of human muscle memory, since no increase in the number of myonuclei was detected during T1 and no clear detraining effect was observed for cell size during DT; thus, the present data did not allow for a rigorous test of the muscle memory hypothesis. NEW & NOTEWORTHY If a long-lasting intramuscular memory exists in humans, this will affect strength-training advice for both athletes and the public. Based on animal experiments, we hypothesized that such a memory exists and that it is related to the myonuclear number. However, a period of unilateral strength training, followed by detraining, did not increase the myonuclear number. The training response, during a subsequent bilateral retraining period, was not enhanced in the previously trained leg. [ABSTRACT FROM AUTHOR]

Published

2019

10. Body position influences arterial occlusion pressure: implications for the standardization of pressure during blood flow restricted exercise.

Author

Sieljacks, Peter, Knudsen, Louise, Wernbom, Mathias, and Vissing, Kristian

Subjects

BLOOD circulation, DOPPLER ultrasonography, BLOOD pressure, BLOOD pressure measurement, EXERCISE, PATIENT positioning, POSTURE, BLOOD pressure testing machines, EQUIPMENT & supplies

Abstract

Purpose: Arterial occlusion pressure (AOP) measured in a supine position is often used to set cuff pressures for blood flow restricted exercise (BFRE). However, supine AOP may not reflect seated or standing AOP, thus potentially influencing the degree of occlusion. The primary aim of the study was to investigate the effect of body position on AOP. A secondary aim was to investigate predictors of AOP using wide and narrow cuffs.Methods: Twenty-four subjects underwent measurements of thigh circumference, skinfold and blood pressure, followed by assessments of thigh AOP in supine and seated positions with a wide and a narrow cuff, respectively, using Doppler ultrasound.Results: In the supine position, AOP was 148 ± 19 and 348 ± 94 mmHg with the wide and narrow cuff, respectively. This increased to 177 ± 20 and 409 ± 101 mmHg in the seated position, with correlations between supine and seated AOP of R 2 = 0.81 and R 2 = 0.50 for the wide and narrow cuff, respectively. For both cuff widths, thigh circumference constituted the strongest predictor of AOP, with diastolic blood pressure explaining additional variance with the wide cuff. The predictive strength of these variables did not differ between body positions.Conclusion: Our results indicate that body position strongly influences lower limb AOP, especially with narrow cuffs, yielding very high AOP (≥ 500-600 mmHg) in some subjects. This should be taken into account in the standardization of cuff pressures used during BFRE to better control the physiological effects of BFRE. [ABSTRACT FROM AUTHOR]

Published

2017