Aging Clinical Trial
Official title:
Maximizing Mechanisms of Muscle Hypertrophy to Combat Sarcopenia in Older Adults
Resistance training has shown the most promise among interventions aimed to combat aging muscle atrophy as it enhances strength, power, and mobility function, but induces varying degrees of skeletal muscle hypertrophy as the investigators demonstrated in the initial 5-year funding period of this award (2001-2006). In the subsequent 5-year funding period (2007-2012), the investigators built on this prior work by using a dose-response approach in older adults - ultimately to optimize the treatment of age-related muscle atrophy. The investigators tested four, long-term resistance training prescriptions in older (60-75 yr) women and men to determine which prescription maximizes mechanisms driving muscle regrowth. One of the innovations in this project was the use of a 4-wk pre-training program to reach a plateau in the early, non-muscle mass adaptations, thereby establishing a true baseline from which both mechanisms of measurable muscle hypertrophy and functional consequences of hypertrophy could be studied in a tightly integrated fashion without bias in the subsequent experimental period. A randomized design was used to test the overarching hypothesis that a novel program of mixed strength and power training would optimize the anabolic environment to promote muscle hypertrophy and robust gains in performance. This hypothesis was tested with three specific aims.
Resistance training has shown the most promise among interventions aimed to combat aging
muscle atrophy as it enhances strength, power, and mobility function, but induces varying
degrees of skeletal muscle hypertrophy as we demonstrated in the initial 5-year funding
period of this award (2001-2006). In the subsequent 5-year funding period (2007-2012), we
built on this prior work by using a dose-response approach in older adults - ultimately to
optimize the treatment of age-related muscle atrophy. We tested four, long-term resistance
training prescriptions in older (60-75 yr) women and men to determine which prescription
maximizes mechanisms driving muscle regrowth (protein synthesis and myonuclear addition).
One of the innovations in this project was the use of a 4-wk pre-training program to reach a
plateau in the early, non-muscle mass adaptations, thereby establishing a true baseline from
which both mechanisms of measurable muscle hypertrophy and functional consequences of
hypertrophy could be studied in a tightly integrated fashion without bias in the subsequent
experimental period. A randomized design was used to test the overarching hypothesis that a
novel program of mixed strength and power training would optimize the anabolic environment
to promote muscle hypertrophy and robust gains in performance. This hypothesis was tested
with three specific aims.
Specific Aim 1. We determined the effects of manipulating intensity, recovery, and mode of
contraction on rates of muscle hypertrophy and muscle mass-dependent improvements in tests
of in vivo muscle performance among older women and men. In brief, the four training models
were: (1) traditional high-resistance concentric-eccentric training (H) 3 d/wk (HHH3); (2)
high-resistance concentric-eccentric training 2 d/wk (HH2); (3) 3 d/wk mixed model
consisting of high-resistance concentric-eccentric training 2 d/wk separated by 1 bout of
low-resistance, high-velocity, concentric only training (L) (HLH3); and (4) 2 d/wk mixed
model consisting of high-resistance concentric-eccentric training 1 d/wk and low-resistance,
high-velocity, concentric only training 1 d/wk (HL2). For Aim 1, we hypothesized that the
HLH3 prescription would prove optimal overall for combined gains in muscle mass, strength,
power, and fatigue resistance in both women and men, while HL2 would be the least effective
program due to insufficient weekly loading.
Specific Aim 2. Myofiber hypertrophy requires net muscle protein synthesis, and advanced
fiber expansion is facilitated by nuclear addition. We are conducting a comprehensive
evaluation of: (1) key regulatory steps in the protein synthesis/degradation machinery; and
(2) myonuclear addition and satellite cell activation/cell cycle regulation. Quantitative
relationships between metabolic/molecular responses and the magnitude of muscle hypertrophy
among older adults will enable us to identify underlying factors that respond differently to
these four resistance training models, potentially in a gender-specific manner, thus
revealing important processes that drive the hypertrophy adaptation. We hypothesized that
muscle protein synthesis and myonuclear addition, along with key underlying regulatory
processes, would be most favorably affected by the work-recovery cycle of 2 d/wk
high-resistance loading (HLH3 and HH2 models), thereby optimizing the anabolic environment
for muscle hypertrophy in both older women and men.
Specific Aim 3. To translate the findings under Aim 1 to clinically important outcomes, we
determined the degree to which non-traditional resistance training programs lead to
improvements in mobility function and weight-bearing exercise difficulty. We hypothesized
that a less stressful weekly training regimen consisting of fewer high-resistance
contractions (HLH3) and/or fewer training sessions (HH2) while achieving substantial
hypertrophy would promote equal or better improvements in mobility function and
weight-bearing exercise difficulty than the traditionally prescribed HHH3 program.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
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