Muscle Weakness Clinical Trial
Official title:
Effects of Different Resistance Training Methods on Strength, Motor Control and Executive Functions in Older Adults
It is well documented that both balance and resistance training have the potential to mitigate intrinsic fall risk factors in older adults. Recently, it was shown that a simultaneously executed balance and resistance training, namely resistance training on uneven surfaces is an eligible, effective and safe alternative training program to mitigate intrinsic fall risk factors in older adults. However, knowledge about the effects of specific adductor and abductor training has advantages over traditional resistance training and resistance training on unstable surfaces regarding forward propulsion. Further, the effects of different kinds of resistance training on cognition, especially embodiment is investigated.
Introduction: In the course of ageing, physical abilities decline and consequently there is
an increase in risk of falling and fall incidences. Notwithstanding, the fact that causes of
falls are multifactorial, losses in lower-extremity muscle strength, power and balance seem
to be the most prominent intrinsic (i.e., person-related) fall risk factors in older adults.
Several systematic reviews and meta-analyses highlighted the positive effects of resistance
and balance training when applied as a single means, on measures of leg muscle strength,
power and balance in older adults. Recently, it was shown that a simultaneously executed
balance and resistance training, namely resistance training on uneven surfaces is an
eligible, effective and safe alternative training program to mitigate intrinsic fall risk
factors in older adults. Based on several investigations, it can be safely assumed that
exercises conducted on unstable devices activate smaller muscles and stabilising function of
bigger muscle groups. This facilitates torque and power transfer from lower to upper
extremeties and is possibly responsible for similar effects as compared to stable resistance
training despite lower loads. However, it is unknown if resistance training targeting
adductor and abductor muscles induces similar results as compared to resistance training
conducted on uneven surfaces. Moreover, physical activity has proven to affect cognitive
measures positively, especially executive functions. It has yet to be determined to what
extent different kinds of resistance training affect executive functions.
Methods/Design: This study is a three-arm, 10-week RCT with a 10-week no-contact follow-up.
Participants were randomly allocated (1:1) to either: 1) machine-based stable resistance
training (M-SRT); 2) free-weight unstable resistance training (F-URT); 3) machine-based
adductor and abductor resistance training. The design and reporting of this study follows the
CONSORT (Consolidated Standards of Reporting Trials) 2010 Statement for parallel group
randomised trials.
Setting Participants are recruited from the communities in and around Kassel, Germany.
Screening visits, measurement sessions, and the interventions are held at the Insitute of
Sports and Sports Science / University of Kassel, Germany.
Recruitment strategies: Recruitment is carried out by placing 1) an advertisement in the
local newspaper, 2) during a public information meeting at the local town hall and 3) word of
mouth. Interested individuals contact the study coordinator by phone, where they are provided
with a brief description of the study. If responses suggest study eligibility then interested
individuals are invited to attend a formal in-person screening visit.
Participants:Older adults are eligible if they: 1) are aged between 65 and 80 years old 2)
and able to walk independently for more than 10m. An a priori power analysis using G*Power
3.1 with an assumed type I error of .05 and a type II error of .10 (90% statistical power,
correlation among groups: .5, nonsphericity correction: 1) was computed to determine an
appropriate sample size to detect medium (.50 ≤ d ≤ .79) interaction effects. The
calculations were based on a study assessing the effects of core strength training using
unstable devices on older adults. The analysis revealed the requirement of 54 participants
(18 per group) to obtain medium "time x group" interaction effects. Considering the
likelihood of dropouts, at least 83 participants are going to be recruited to compensate for
a possible dropout rate of ~20%.
Interventions: All intervention groups train for ten weeks, twice per week on non-consecutive
days for 60 minutes each. The 10-week intervention period consistes of a one week
introductory phase and three major training blocks lasting three weeks each. Training
intensity is progressively and individually increased over the 10-week training program by
modulating load and sets for all groups and level of instability for F-URT. After week one
(50 %), four (60%), and seven (70%) the training load (weight) is increased following one
repetition maximum (1-RM) testing for each major exercise. M-SRT followes a 'traditional'
machine-based stable resistance training program, including squats with a smith-machine and a
leg press. F-URT conducts squats and front lunges on unstable devices. M-ART uses adductor
and abductor strength training machines. All three intervention groups conduct a resistance
training program consisting of two main exercises, a preparation and cool-down phase.
Participants perform ten minutes of low-intensity stepping on a stair-walker as a brief
warm-up at the beginning of each training session, followed by the resistance exercises and
walking on a treadmill as cool-down. Training under unstable surface conditions, especially
with additional weight, implies a certain degree of accident risk. Due to this factor, all
instability exercises are observed by instructors and secured with additional aids like
boxes. Training is supervised by skilled instructors at all times. For the first two weeks
the participant to instructor ratio will be 5:1, thereafter 10:1.
Outcome assessment: Outcomes are measured at baseline, 10 weeks (intervention endpoint) and
20 weeks (study endpoint). Measurement sessions are conducted on one day.
Baseline data: Baseline measurements are obtained prior to randomisation. In addition to the
measurements described below, the following are also collected: demographic and general
health characteristics; medical history and medications; anthropometrics and rate of falls /
near falls.
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