In an era marked by an aging global population, the preservation of functional independence among older adults has emerged as a paramount concern. At the heart of this pursuit lies the critical role of muscular power—a facet of physical fitness that holds the key to fall prevention, enhanced autonomy, and the ability to engage in everyday activities with vigor and confidence. This research paper explores the profound significance of power training for older individuals, highlighting its multifaceted benefits. It also spotlights the use of a dynamic and promising training tool, the medicine ball, as a dedicated means to elevate muscular power among older populations.
Aging often brings with it a gradual decline in physical capabilities, and among these, the loss of muscular power stands as a formidable adversary to independence. Muscular power, denoting the capacity to generate force rapidly, is pivotal in executing fundamental daily tasks like standing from a chair, climbing stairs, and swiftly regaining balance after an unexpected stumble. Diminished power impedes these essential functions and heightens the risk of falls—a grave concern among older adults, leading to injuries, hospitalization, and a diminished sense of self-sufficiency.
Recognizing the far-reaching consequences of age-related muscle decline and waning power, researchers and healthcare professionals have turned to power training as a potential panacea. Power training, characterized by the execution of strength-based movements at high speed, aims to restore and safeguard muscle mass and amplify the explosiveness and efficiency of muscle contractions. This approach is relevant for older adults, as it targets the attributes underpinning their mobility, reactivity, and independence. This paper investigates whether medicine ball training is an effective means to increase power for older people.
Thompson, C. J. (2016). Medicine ball power training exercises for older adults. ACSM'S Health & Fitness Journal, 20(5), 41-43. https://doi.org/10.1249/fit.0000000000000242
The author discusses the positive effects and advantages of power training for older adults. He emphasizes the contrast between existing research, which highlights the benefits of power training for older individuals, and the reluctance to implement it due to concerns about potential injuries, cardiovascular problems, and falls.
In the article, the author presents evidence that engaging in upper body power training with medicine balls can enhance the ability to perform everyday activities and reduce the risk of falls and other health issues among older adults. It's important to note that the author's credibility in this matter stems from his role as a co-chair of the ACSM Interest Group on Aging and his involvement in a senior fitness training company. This positions him as a reliable source of practical information that effectively bridges the gap between research findings and their real-world application.
Lee, Y., Goyal, N., Luna, G., & Aruin, A. S. (2019). Role of a single session of ball throwing exercise on postural control in older adults with mild cognitive impairment. European Journal of Applied Physiology, 120(2), 443-451. https://doi.org/10.1007/s00421-019-04289-1
This study aimed to explore the impact of upper power training using a medicine ball on enhancing balance control among older adults experiencing mild cognitive impairment (MCI). The research delved into the concept of anticipatory postural adjustments (APAs) generated by the central nervous system before external disturbances and compensatory postural adjustments (CPAs) enacted to restore balance post-disturbance. The primary objective was to assess if individuals with MCI could effectively generate and apply APAs to manage their posture. In the experiment, both the control and experimental groups were tasked with executing five sets of self-initiated double shoulder flexion swings lasting five seconds each. Participants were instructed to stand with their feet shoulder-width apart and throw a medicine ball, held in both hands, at shoulder level toward an experimenter positioned 3 meters away. The training session consisted of three sets of 40 repetitions of ball throwing, with a 2-minute rest interval between sets, and additional rest breaks were permitted as needed. Electromyography (EMG) data were collected from various trunk and leg muscles before and after the training session.
The results revealed that individuals with MCI demonstrated significantly earlier muscle activations and reduced co-contraction of muscles following a single training session involving ball-throwing exercises. This finding bears significant implications as older individuals are more susceptible to falls, which can lead to musculoskeletal injuries and hospitalization. While the double-arm swing is not a typical daily activity, the perturbations and sensorimotor responses it triggers are analogous to those required in everyday activities like walking, opening doors, and climbing stairs. Therefore, perturbation-based training, such as medicine ball throws, may enhance balance control for older adults with and without mild cognitive impairment.
Green, B. J., Mang, Z., Ducharme, J., & Kravitz, L. (2022). Benefits of power training for the elderly population. ACSM'S Health & Fitness Journal, 26(6), 12-17. https://doi.org/10.1249/fit.0000000000000816
The article breaks down the essential elements needed in a senior training program for them to benefit from power training. The authors start by explaining what neuromuscular power is and outline the key aspects of exercise that contribute to positive results. These include factors like the force-velocity curve, how to assess power, the amount of weight needed, the importance of speed, and different exercise methods.
The authors emphasize that seniors can increase their muscular power over time through resistance training using various weights, speeds, and exercise methods. They note that using lighter weights and faster speeds generally leads to better results compared to heavier weights and slower speeds. Additionally, they discuss the usefulness of the medicine ball throw test as an effective way to assess power because it allows participants to put in their full effort without having to slow down the object after the initial push.
Although the article doesn't specifically mention using the medicine ball as a training tool to enhance power, its use for assessment highlights its value in training programs. Finally, the article reminds us that improving power over time can be achieved through a structured program that starts with stability and skill-building, progresses to building lean body mass and strength, and culminates in a phase that optimizes power development.
Parrino, R. L., Strand, K. L., San Ly, A., Barry, S. S., Liscano, J. A., Trebotich, L., Martin-Diala, C., Martin, E., & Signorile, J. F. (2023). Prediction of upper-body power during the seated medicine ball throw in older women. Journal of Strength and Conditioning Research, 37(8), 1679-1686. https://doi.org/10.1519/jsc.0000000000004446
This study focuses on the importance of measuring upper-body power in older individuals to assess their functional independence. The authors acknowledge the challenges associated with evaluating upper-body power due to cost and technical constraints. To address these issues, the researchers propose using the seated medicine ball throw (SMBT) as a practical alternative. They conducted tests on 35 older women, combining SMBT results with pneumatic resistance chest press peak power (CPPP) measurements to create a predictive model. The model, which includes SMBT distance (SMBTD) and medicine ball mass (MBMass) as significant predictors, was validated through cross-validation analysis. It is important to emphasize the importance of participants being well-practiced in the SMBT movements. If individuals aren't familiar with the test, it might affect the results, so proper training is necessary. This research contributes to understanding how upper-body power can serve as a marker for quality of life, functional independence, and the ability to perform daily activities in older women.
Pereira, A., Izquierdo, M., Silva, A. J., Costa, A. M., Bastos, E., González-Badillo, J., & Marques, M. C. (2012). Effects of high-speed power training on functional capacity and muscle performance in older women. Experimental Gerontology, 47(3), 250-255. https://doi.org/10.1016/j.exger.2011.12.010
The authors of this study found that maintaining muscle power in older populations is crucial for daily activities like climbing stairs, getting up from a chair, walking, and reducing the risk of falls, particularly in women. While previous research has examined the impact of heavy resistance training on older individuals, there has been limited investigation into the effects of high-speed power training on indicators of maximal strength, muscle power, and function in older women. This study aimed to assess how a 12-week high-speed power training program affected muscle strength and power development in older women.
The study involved 56 older Caucasian women divided into two groups: the experimental and the control groups. The researchers used medicine ball throwing as a testing method to measure upper body power and other parameters such as upper and lower body strength, walking speed, and functional tasks. The experimental group followed a program that combined mobility exercises, core work targeting spinal flexors and extensors, upper and lower body strength training, and medicine ball throwing for upper body power. Over the 12-week period, the strength training progressed from 3 sets of 10 repetitions at 40% of their one-repetition maximum (1RM) to 3 sets of 4 repetitions at 75% of their 1RM. There were no progressions for the core or power exercises.
The results demonstrated improvements in all assessed parameters among the participants in the experimental group. However, it's important to note that this study has some potential limitations. One limitation is the absence of comparisons with different training programs, such as traditional strength training or endurance training, to determine the specific benefits of each type of training. Additionally, because the exercise program integrated multiple components (strength, core, and power exercises), it's challenging to isolate the contributions of each exercise type to the observed outcomes.
It's worth mentioning that the study received funding from Spanish governmental institutions, universities in Spain, and grants.
Filho, M. M., Venturini, G. R., Moreira, O. C., Leitão, L., Mira, P. A., De Castro, J. B., Aidar, F. J., Novaes, J. D., Vianna, J. M., & Caputo Ferreira, M. E. (2022). Effects of different types of resistance training and detraining on functional capacity, muscle strength, and power in older women: A randomized controlled study. Journal of Strength and Conditioning Research, 36(4), 984-990. https://doi.org/10.1519/jsc.0000000000004195
The authors highlight the well-established benefits of traditional resistance training for older individuals, including developing and maintaining structural and functional capacity, preserving independence, and reducing fall risks, injuries, and comorbidity severity. However, there's limited research on the advantages of strength endurance, power, and absolute strength training in achieving these same benefits. Additionally, the impact of detraining due to factors like falls, illnesses, and travel hasn't been thoroughly explored.
This study compared the effects of twenty weeks of resistance training types (strength endurance, power, absolute, and traditional) and a four-week detraining period on muscle strength, power, and functional capacity in older women. The assessment of upper body power was conducted using the seated medicine ball throw.
The experiment involved 145 females aged 60 to 70, evenly divided into experimental and control groups. The training program included exercises like horizontal leg press, low row, flexor chair, articulated bench press, plantar flexion, and curl-ups. All experimental groups followed the same training standardization, which encompassed the training system, exercise order, recovery intervals, volume of repetitions, and weekly frequency. The power training group executed the same exercises but with maximal voluntary speed. The twenty-week duration was divided into two weeks of familiarization, six weeks of neural adaptation, twelve weeks of specific training, and four weeks of detraining, with performance evaluations conducted after each segment.
Comparing the results with the baseline and intervention periods, all experimental groups displayed significant improvements in functional capacity tests. After the four-week detraining period, there was a decrease in muscle strength across all training configurations, although it remained higher than the pretest levels and was not significantly different from the eighth week of training.
The study demonstrates that power training, when incorporated into a progressive program with a four-week detraining period, can yield improvements in functional capacity like other forms of resistance training. These findings suggest that regardless of the type of resistance training, older individuals should engage in continuous progressive resistance training programs to enhance their functional capacity, which may directly impact their ability to perform daily activities.