A5107760917- Advanced Proteomics Techniques and Applications
- Muscle Physiology and Disorders
- Sports injuries and prevention
- Muscle activation and electromyography studies
- Sports Performance and Training
- Adipose Tissue and Metabolism
University of Jyväskylä
2024-2025
Investigating repeated resistance training (RT) separated by a break enables exploration of the potential for proteomic memory RT-induced skeletal muscle growth, i.e. retained protein adaptations from previous RT. Our aim was to examine proteome response 10-week RT (RT1) followed cessation (i.e. detraining, DT), and finally, retraining (RT2). Thirty healthy, untrained participants conducted either periodic (RT1-DT-RT2, n = 17) or no-training control period (n 13) 20 weeks 11). included...
ABSTRACT We aimed to compare the effects of periodic resistance training (RT) and continuous RT on muscle strength size. Fifty‐five healthy, untrained participants (age 32 ± 5 years) were randomized (PRT, n = 20 completed study, 45% females) or (CRT, 22 groups. PRT a 10‐week RT, detraining, second identical RT. CRT began with non‐RT, followed by 20‐week included twice‐weekly supervised whole‐body sessions. Leg press (LP) biceps curl (BC) one repetition maximum (1RM), countermovement jump...
Abstract Investigating repeated resistance training separated by a break enables exploration of the potential for proteomic memory (RT)-induced skeletal muscle growth. Our aim was to examine proteome response 10-week RT (RT1) followed cessation (i.e. detraining, DT), and finally, retraining (RT2). Thirty healthy, untrained participants conducted either periodic (RT1-DT-RT2, n=17) or no-training control period (n=13) 20 weeks (n=11). included twice-weekly supervised whole-body sessions,...