The superiority of supervised center-based training programs compared with unsupervised home-based ones in older adults remains unclear, and no evidence exists on whether including a motivational component could moderate these differences. The present randomized controlled trial aims to determine the role of supervision and motivational strategies on the safety, adherence, efficacy, and cost-effectiveness of different training programs for improving physical and mental health in older adults. Participants (n=120, aged 60-75 years old) will be randomly divided into five groups: 1- Control group, 2- Unsupervised home-based exercise group without motivational intervention (UNSUP), 3- Unsupervised home-based exercise group with motivational intervention (UNSUP+), 4- Supervised center-based exercise group without motivational intervention (SUP) and 5- Supervised center-based exercise group with motivational intervention (SUP+). Participants assigned to the exercise groups will participate in a 24-week multicomponent exercise program (3 sessions/week, 60 min/session), while participants in the control group will be asked to maintain their usual lifestyle. Physical and mental health outcomes will be assessed, including lower and upper-body muscular function, physical function, cardiorespiratory function, anthropometry and body composition, health-related quality of life, cognitive performance, anxiety and depression status, physical activity and sedentary behavior, sleep, biochemical markers, motivators and barriers to exercise, individual's psychological needs, and level of self-determination. Assessments will be conducted at baseline (week 0), mid-intervention (week 12), at the end of the intervention period (week 25), and 24 weeks after the exercise intervention (week 48).
Life expectancy for the Spanish population has increased to 85 years for women and 79 years for men, and it is estimated that Spain will be the second oldest country in the world by 2050. This fact contains an inevitable economic and public health challenge. Physical exercise is an effective intervention to attenuate the aging-related decline in physical function and well-being as well as for reducing morbidity and mortality risk. Current guidelines on physical activity (PA) by the World Health Organization (WHO) recommend that older adults perform at least 150-300 min/week of moderate-intensity aerobic PA, 75-150 min/week of vigorous-intensity aerobic PA, or a combination of both, as well as at least 3 days of strength and balance exercise. However, a large part of the older adult population does not meet the general recommendations for PA. This could be at least partly due to the fact that this type of population may have some limitations when starting a supervised center-based physical training program. In this regard, evidence overall shows that supervised center-based training programs are usually limited by issues such as economic constraints, convenience, and access or time commitments. Moreover, there are unpopulated areas comprising a large percentage of older people without direct access to facilities and qualified professionals to engage in effective physical activity. Besides that, the COVID-19 pandemic has opened an opportunity to carry out training programs from home without the supervision of a professional. If effective and safe, these interventions would represent an alternative to increasing the accessibility of physical exercise for older adults. To date, there is a lack of consensus on the effectiveness, safety, and adherence of unsupervised home-based training programs. Several investigations have shown greater effectiveness on different health variables in exercise programs conducted under the supervision of a professional compared to those performed autonomously at home. However, some studies suggest that a home-based exercise intervention could be as effective as a supervised one. Furthermore, meta-analytical evidence recently published by the research team of this project found that the adherence rate to unsupervised physical exercise programs was low, and the intensity applied was not adequately prescribed. It is important to note that the lack of motivation in unsupervised programs might play an important role in these findings. Thus, the use of motivational strategies that foster autonomous motivation might help increase adherence to unsupervised exercise programs, with this adherence being a key factor for achieving health adaptations. Therefore, studies analyzing how to cover all these limitations of unsupervised physical exercise are warranted to answer this research question. Along these lines, an adequate prescription of exercise dose and the implementation of motivational techniques could compensate for the lack of physiological stimulus and low adherence typically observed with this type of training program. Furthermore, there is no evidence comparing the cost-effectiveness, safety, and adherence of supervised face-to-face intervention vs online supervised intervention with and without motivational strategies. Under this context, the aim of this randomized controlled trial (RCT) will be to determine the efficacy, cost-effectiveness, safety, and adherence of different exercise training programs with or without supervision and the inclusion of motivational techniques in older adults. Participants (n= 120; men and women aged 60-75 years old) will be divided into 5 groups: 1- Control group, 2- Unsupervised home-based exercise group without motivational intervention (UNSUP), 3- Unsupervised home-based exercise group with motivational intervention (UNSUP+), 4- Supervised center-based exercise group without motivational intervention (SUP) and 5- Supervised center-based exercise group with motivational intervention (SUP+). Exercise groups will perform physical exercise 3 days a week (1-hour sessions) for 24 weeks, with these sessions being performed from home (with the help of a mobile application that will be developed for this purpose) or at a center with the direct supervision of an exercise professional, according to the assigned group. The primary outcome will be lower-body muscular function. Secondary outcomes will be upper-body muscular function, physical function, cardiorespiratory function, anthropometry and body composition, health-related quality of life, cognitive performance, anxiety and depression status, physical activity and sedentary behavior, sleep, biochemical markers, motivators and barriers to exercise, individual's psychological needs, and level of self-determination. Further, an analysis of the costs of the programs (cost-effectiveness and cost-utility), adherence (rate of adherence to the exercise program), and safety (falls and adverse events) will be carried out.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
120
UNSUP will receive a non-supervised physical exercise intervention using a mobile app at home. The UNSUP training program comprises the same exercise structure and is based on the same muscle groups and movements as the supervised groups, but is adapted to be performed at home with the use of elastic bands and the participant's own body weight. The exercise program will be divided into 3 different levels. Each level will contain 3 different sessions including 10 warm-up and joint mobility exercises, 1 balance exercise, 7 strength exercises, 2 aerobic exercises, and 6 flexibility exercises. This multicomponent training will be performed 3 times per week (60 min/session) for 24 weeks.
UNSUP+ will receive a non-supervised physical exercise intervention using a mobile app at home. The UNSUP+ training program comprises the same exercise structure and is based on the same muscle groups and movements as the supervised groups, but is adapted to be performed at home with the use of elastic bands and the participant's own body weight. The exercise program will be divided into 3 different levels. Each level will contain 3 different sessions including 10 warm-up and joint mobility exercises, 1 balance exercise, 7 strength exercises, 2 aerobic exercises, and 6 flexibility exercises. This multicomponent training will be performed 3 times per week (60 min/session) for 24 weeks. Further, motivational strategies will be applied based on self-determination theory.
SUP will attend the university facilities and will perform training in small groups, being supervised by an exercise professional. The SUP training program comprises the same exercise structure and is based on the same muscle groups and movements as the unsupervised groups, but is performed in a center using the equipment available at the facility (weight machines, free weight, stationary bikes, etc.). The exercise program will be divided into 3 different levels, progressing the difficulty every 8 weeks. Each level will contain 3 different sessions including 10 warm-up and joint mobility exercises, 1 balance exercise, 7 strength exercises (for upper and lower limbs), 2 aerobic exercises, and 6 flexibility exercises. This multicomponent training will be performed 3 times per week (60 min/session) for 24 weeks.
SUP+ will attend the university facilities and will perform training in small groups, being supervised by an exercise professional. The SUP+ training program comprises the same exercise structure and is based on the same muscle groups and movements as the unsupervised groups, but is performed in a center using the equipment available at the facility (weight machines, free weight, stationary bikes, etc.). The exercise program will be divided into 3 different levels, progressing the difficulty every 8 weeks. Each level will contain 3 different sessions including 10 warm-up and joint mobility exercises, 1 balance exercise, 7 strength exercises (for upper and lower limbs), 2 aerobic exercises, and 6 flexibility exercises. This multicomponent training will be performed 3 times per week (60 min/session) for 24 weeks. Further, motivational strategies will be applied based on self-determination theory.
University of Castilla-La Mancha
Toledo, Castilla-La Mancha/Toledo, Spain
RECRUITINGLower-body muscular function
The force-velocity relationship and the rate of force development (RFD) will be assessed on a horizontal leg press device (Technogym, Element, Italy) instrumented with a force plate (Type 9286BA, Kistler, Switzerland) and a linear position transducer device (TForce System, Ergotech, Spain). A familiarization session will be performed in session one before the evaluation day in session number three.
Time frame: Baseline (week 0), mid-intervention (week 12), post-intervention (week 25), and follow-up (week 48).
Costs
Researchers will calculate total costs and costs per participant for each of the intervention groups. Mean difference in quality-adjusted life-year (QALY) scores at the end of the intervention will be assessed to analyze the cost-utility. Furthermore, an incremental cost-effectiveness ratio (ICER) will be assessed. Data on health-related quality of life measured by EQ-5D will be used for the calculations.
Time frame: Through intervention completion, that is 24 weeks.
Adherence to physical training program
Adherence to physical training program will be recorded in the unsupervised training groups using the mobile app. Trainers will record adherence to physical training program in the supervised training groups. It will be calculated as a percentage (\[sessions completed/total sessions expected\] x 100), where 0 % indicates total non-adherence and 100 % indicates full adherence to the exercise prescription. During the 24-week follow-up, we will assess through an ad-hoc self-reported questionnaire whether or not participants exercised, the exercise modality performed (supervised center-based and/or unsupervised home-based), and the number of weekly exercise sessions performed. The questionnaire will be administered on a weekly basis in written form.
Time frame: Through study completion, that is 48 weeks.
Falls and adverse events
Participants in the unsupervised and control groups will record in a diary their falls and adverse events during and outside exercise sessions. In the supervised groups, supervisors will register the incidence of falls during exercise sessions and participants will register them outside the exercise sessions using the diary.
Time frame: Through intervention completion, that is 24 weeks.
Upper-body muscular function
Grip strength will be measured with a standard hydraulic hand-held dynamometer on both arms (Takei TKK5401, Tokyo, Japan).
Time frame: Baseline (week 0), mid-intervention (week 12), post-intervention (week 25), and follow-up (week 48).
Maximum walking speed (10-m)
Time the participant takes to walk 10 meters at maximum speed without running.
Time frame: Baseline (week 0), mid-intervention (week 12), post-intervention (week 25), and follow-up (week 48).
Usual walking speed (3, 6 and 10-m)
Time the participant spends walking 3, 6 and 10 meters at their usual pace.
Time frame: Baseline (week 0), mid-intervention (week 12), post-intervention (week 25), and follow-up (week 48).
Short Physical Performance Battery (SPPB)
To assess the ability to stand with feet together in side-to-side, semi-tandem, and tandem positions (balance), 4-meters walk test (speed), and 5 times sit-to-stand (muscle power).
Time frame: Baseline (week 0), mid-intervention (week 12), post-intervention (week 25), and follow-up (week 48).
Senior Fitness Test (SFT)
SFT battery includes 30-second chair stand test (lower-body strength), 30-second arm curl test (upper-body strength), 6-minute walk test (aerobic endurance), Chair sit-and-reach test (lower-body flexibility), Back scratch test (upper-body flexibility) and 8-foot up-and-go test (agility and dynamic balance).
Time frame: Baseline (week 0), mid-intervention (week 12), post-intervention (week 25), and follow-up (week 48).
Cardiorespiratory function
Cardiorespiratory function will be assessed by a maximal incremental cycloergometer test using a gas analyzer (Cosmed QUARK, Italy). An electrocardiogram will be performed both at rest and during exercise to evaluate the electrical activity of the heart.
Time frame: Baseline (week 0), post-intervention (week 25), and follow-up (week 48).
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Blood pressure
Systolic and diastolic blood pressure and heart rate will be assessed at rest using a digital upper arm blood pressure monitor (OMRON M2, Spain).
Time frame: Baseline (week 0), mid-intervention (week 12), post-intervention (week 25), and follow-up (week 48).
Anthropometry
Height and body mass will be measured with a stadiometer and scale (Seca 711, Hamburg, Germany) without shoes to the nearest 0.1 cm and 0.1 kg, respectively, and body mass index will be calculated. In addition, the perimeters of the neck, waist, and hip will be measured.
Time frame: Baseline (week 0), mid-intervention (week 12), post-intervention (week 25), and follow-up (week 48).
Body composition
Four bone densitometry tests will be performed on each subject (whole body, forearm, lumbar spine, and femoral neck) using bone densitometry (Hologic Series Horizon-A, Bedford, United States). For the determination of muscle, fat, and bone mass, the results of the whole-body test will be used. For regional analysis, values from all tests will be used.
Time frame: Baseline (week 0), post-intervention (week 25), and follow-up (week 48).
Health-related quality of life
The EuroQol-5D questionnaire will be used for assessing the health status of the participants, including a descriptive system formed by five dimensions and a visual analogue scale.
Time frame: Baseline (week 0), mid-intervention (week 12), post-intervention (week 25), and follow-up (week 48).
Cognitive Performance
The Trail-Making Test Part A and B, the Montreal Cognitive Assessment (MoCA) and the Digital Symbol Substitution test will be administered in the cognitive evaluation.
Time frame: Baseline (week 0), mid-intervention (week 12), post-intervention (week 25), and follow-up (week 48).
Anxiety
The Zung Anxiety Self-Assessment Scale will be used.
Time frame: Baseline (week 0), post-intervention (week 25), and follow-up (week 48).
Depression
The short form of the Yesavage Geriatric Depression Scale will be used.
Time frame: Baseline (week 0), post-intervention (week 25), and follow-up (week 48).
Physical activity and sedentary behavior patterns
Physical activity and sedentary behavior will be assessed by accelerometry (GeneActiv Original, Activinsights, UK). The devices will be placed on the subject's non-dominant wrist using a watch strap for 8 days.
Time frame: Baseline (week 0), post-intervention (week 25), and follow-up (week 48).
Sleep
The number of hours of sleep will be assessed by accelerometry (GeneActiv Original, Activinsights, UK). In addition, the Pittsburgh Sleep Quality Index will be used as an additional instrument.
Time frame: Baseline (week 0), post-intervention (week 25), and follow-up (week 48).
Biochemical markers
Blood samples will be collected at rest after an overnight fast (\>12 h). Samples will be collected at least 72-96 h apart from any exercise or testing session. Samples will be analyzed immediately for routine clinical chemistry measurements and then, they will be put into 500-µL aliquots and frozen at -80ºC for later analysis.
Time frame: Baseline (week 0), post-intervention (week 25), and follow-up (week 48).
Motivators and barriers to exercise
Motivators and barriers to exercise will be measured using the Exercise Benefits/Barriers Scale.
Time frame: Baseline (week 0), post-intervention (week 25), and follow-up (week 48).
Motivation to exercise according to self-determination theory
For the evaluation of motivation according to the self-determination theory, the Behavioral Regulation during Exercise Questionnaire (BREQ-3) will be used.
Time frame: Baseline (week 0), mid-intervention (week 12), post-intervention (week 25), and follow-up (week 48).
Basic Psychological Needs in Exercise
The Basic Psychological Needs in Exercise Scale (BPNES) will be used to assess the satisfaction of the three needs autonomy, competence, and relatedness in the exercise domain.
Time frame: Post-intervention (week 25) and follow-up (week 48).