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Mediterranean Style Dietary Pattern with High Intensity Interval Training in Men with Prostate Cancer Treated with Androgen Deprivation Therapy: A Pilot Randomised Control Trial.
Baguley, BJ, Adlard, K, Jenkins, D, Wright, ORL, Skinner, TL
International journal of environmental research and public health. 2022;19(9)
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The use of androgen deprivation therapy (ADT) has coincided with improvements in disease control and improved overall survivorship in many men treated for prostate cancer. Exercise and nutrition interventions during and/or after ADT are strongly recommended to mitigate or improve body composition and reduce cardiometabolic side effects. The aim of this study was to examine the combined effects of a Mediterranean diet (MED-diet) and high intensity interval training (HIIT) on cardiorespiratory fitness, body composition and quality of life, compared to usual care, in men with prostate cancer treated with ADT. This study is a two-arm randomised controlled trial. Participants (n = 23) were randomly allocated to either an intervention or usual care group in a 1:1 ratio. Results show that for men with prostate cancer undergoing ADT, a MED-diet with HIIT compared to usual care at 20 weeks (i) significantly improved cardiorespiratory fitness relative; (ii) reduced body weight; (iii) maintained lean body mass despite achieving weight loss; (iv) significantly improved vitality and mental health composite, and clinical improvements were seen in prostate-cancer specific quality of life and cancer-related fatigue. Authors conclude that future larger-scale trials examining the MED-diet with HIIT on cardiorespiratory fitness, body composition and quality of life would help to extend the findings of their study.
Abstract
Background: Androgen deprivation therapy (ADT) in prostate cancer has been shown to deteriorate body composition (reduced lean mass and increased body and fat mass) and increase the risk of cardiovascular morbidity. The Mediterranean style dietary pattern (MED-diet) and high intensity interval training (HIIT) may synergistically alleviate these side effects and improve quality of life in men treated with ADT. Methods: Twenty-three men (65.9 ± 7.8 years; body mass index: 29.6 ± 2.7 kg/m2; ADT duration: 33.8 ± 35.6 months) receiving ADT for ≥3 months were randomly assigned (1:1) to 20 weeks of usual care or the MED-diet (10 nutrition consults) with HIIT (4 × 4 min 85−95% heart rate peak, 3× week, starting at 12 weeks). Results: The MED-diet with HIIT significantly improved cardiorespiratory fitness (+4.9 mL·kg−1·min, p < 0.001), and body mass (−3.3 kg, p < 0.001) compared to the usual care group at 20 weeks. Clinically meaningful (≥3 points) improvements were seen in quality of life and cancer-related fatigue after 20 weeks. Conclusions: The MED-diet with HIIT increased cardiorespiratory fitness and reduced body weight in men with prostate cancer treated with ADT. Larger trials determining whether the MED-diet with HIIT translates to cardiovascular benefits are warranted.
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Mitochondria-targeted antioxidant supplementation improves 8 km time trial performance in middle-aged trained male cyclists.
Broome, SC, Braakhuis, AJ, Mitchell, CJ, Merry, TL
Journal of the International Society of Sports Nutrition. 2021;18(1):58
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Oxygen-derived radical and non-radical species, collectively referred to as reactive oxygen species (ROS), are continuously produced by skeletal muscle. High levels of ROS production in cells may overwhelm the endogenous antioxidant defence network resulting in damage to cellular proteins, lipids and DNA and impaired cellular function. The aim of this study was to investigate whether Mitochondria-targeted coenzyme Q10 (MitoQ), supplementation could improve the time taken to complete an 8 km cycling time trial. This study is a double-blind, placebo-controlled crossover design trial. Twenty-two healthy middle-aged, recreationally trained male cyclists were recruited via advertisements. They were randomised by an independent researcher to two groups, which would determine the order in which they received MitoQ and an identical placebo. Results show that oral supplementation of the mitochondria-targeted antioxidant MitoQ can improve cycling time trial performance in middle-aged, recreationally trained male cyclists. In fact, MitoQ may improve performance above the aerobic threshold by allowing for increased use of anaerobic metabolism, or by improving tolerance to lower pH in muscle. Authors conclude that further research is required to determine the mechanisms responsible for the ergogenic effect of MitoQ, understand the important factors that determine an individual’s response to MitoQ supplementation, and identify optimal dosing strategies.
Abstract
BACKGROUND Exercise increases skeletal muscle reactive oxygen species (ROS) production, which may contribute to the onset of muscular fatigue and impair athletic performance. Mitochondria-targeted antioxidants such as MitoQ, which contains a ubiquinone moiety and is targeted to mitochondria through the addition of a lipophilic triphenylphosphonium cation, are becoming popular amongst active individuals as they are designed to accumulate within mitochondria and may provide targeted protection against exercise-induced oxidative stress. However, the effect of MitoQ supplementation on cycling performance is currently unknown. Here, we investigate whether MitoQ supplementation can improve cycling performance measured as time to complete an 8 km time trial. METHOD In a randomized, double-blind, placebo-controlled crossover study, 19 middle-aged (age: 44 ± 4 years) recreationally trained (VO2peak: 58.5 ± 6.2 ml·kg- 1·min- 1, distance cycled per week during 6 months prior to study enrollment: 158.3 ± 58.4 km) male cyclists completed 45 min cycling at 70% VO2peak followed by an 8 km time trial after 28 days of supplementation with MitoQ (20 mg·day- 1) and a placebo. Free F2-isoprostanes were measured in plasma samples collected at rest, after 45 min cycling at 70% VO2peak and after completion of the time trial. Respiratory gases and measures of rating of perceived exertion (RPE) were also collected. RESULTS Mean completion time for the time trial was 1.3% faster with MitoQ (12.91 ± 0.94 min) compared to placebo (13.09 ± 0.95 min, p = 0.04, 95% CI [0.05, 2.64], d = 0.2). There was no difference in RPE during the time trial between conditions (p = 0.82) despite there being a 4.4% increase in average power output during the time trial following MitoQ supplementation compared to placebo (placebo; 270 ± 51 W, MitoQ; 280 ± 53 W, p = 0.04, 95% CI [0.49, 8.22], d = 0.2). Plasma F2-isoprostanes were lower on completion of the time trial following MitoQ supplementation (35.89 ± 13.6 pg·ml- 1) compared to placebo (44.7 ± 16.9 pg·ml- 1 p = 0.03). CONCLUSION These data suggest that MitoQ supplementation may be an effective nutritional strategy to attenuate exercise-induced increases in oxidative damage to lipids and improve cycling performance.
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The Effects of Menstrual Cycle Phase on Elite Athlete Performance: A Critical and Systematic Review.
Meignié, A, Duclos, M, Carling, C, Orhant, E, Provost, P, Toussaint, JF, Antero, J
Frontiers in physiology. 2021;12:654585
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A one size fits all approach is impossible as athletes often respond differently to a given training stimulus, and the training load required for adaptation may differ significantly between sexes. Ideally, any individualized approach to preparation necessitates methods suited to each athlete’s needs in addition to technical and scientific expertise and resources. In fact, there is substantial interindividual variability leading to menstrual disturbance and it seems to be more frequent among elite athletes. This study is a review which focuses on research studies in elite athletes directly investigating the effects of menstrual cycle (MC) phases on performance parameters such as endurance or power resistance, symptoms linked to MC, ligament stiffness, decision making skills, and/or competitiveness (desire to compete and training motivation). Seven studies were included in the review with a total of 314 females. Results show that links between exercise performance and MC cannot be consistently identified from the present findings. The limited number of studies (including their study design) make these available studies challenging to transpose to the elite field. Authors conclude that there is a clear lack of evidence-based recommendations on training individualisation according to the menstrual cycle. Thus, solid conclusions regarding the impact of the MC for elite athletes cannot be formulated.
Abstract
Background: In elite athletes, training individualization is widely recommended to optimize competitive performance. Previous studies have evidenced the impact of hormonal fluctuations on different performance parameters among female athletes. While consideration of menstrual cycle (MC) phases as a parameter in training individualization strategies is necessary, systematic evidence identifying such impacts in elite athletes should be evaluated. Objective: Systematically review publications that have investigated the link between MC phases and performance in elite female athletes. The overarching aim is to identify whether a consensus across studies exists enabling evidence-based recommendations for training individualization depending on menstrual cycle phases. Methods: This review followed the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Three major scientific publication databases were searched from inception until November 3, 2020. Studies included focused on the influence of physiological or psychological parameters throughout at least one phase of the menstrual cycle of elite athletes. Results: A total of 780 search results were yielded and 26 references from a past bibliography were added manually. About 662 papers were reviewed of which 218 studies were assessed for eligibility. Of these, only seven (1%) precisely investigated the influence of a performance or physical parameter during at least one menstrual cycle phase. These seven studies included a total of 314 elite female participants (20.58 ± 1.91 years). Three used interviews, questionnaires or prospective analyses of reports. Four conducted several performance tests or included physical measures although only two performed tests during training or before/during competition. Among the seven studies, five performed hormonal testing through sampling of blood, saliva, or urine. The remaining relied on athletes' menstruation diaries. The current evidence suggests a variable association between menstrual cycle and a few performance-related outcomes, such as endurance or power resistance, ligament stiffness, decision making skills, psychology, or competitiveness. Conclusion: Different sports performance-related parameters are affected during the menstrual cycle among elite athletes, but the parameters themselves and the magnitude and the direction of the effects are inconclusive. Additional longitudinal and prospective studies to systematically monitor on-field performance parameters are urgently required in order to enable recommendations and training individualization in female elite athletes.
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Acute effect of high-definition and conventional tDCS on exercise performance and psychophysiological responses in endurance athletes: a randomized controlled trial.
da Silva Machado, DG, Bikson, M, Datta, A, Caparelli-Dáquer, E, Unal, G, Baptista, AF, Cyrino, ES, Li, LM, Morya, E, Moreira, A, et al
Scientific reports. 2021;11(1):13911
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Exercise-induced fatigue can be associated with a limited descending command from the central nervous system to the muscle which may affect muscle contraction and its ability to generate force. Transcranial direct current stimulation (tDCS) is the application of weak electrical current to stimulate different areas of the brain to influence exercise performance and perception. High-definition transcranial direct current stimulation (HD-tDCS) is a modification of conventional tDCS to increase the focality, precision, long-lasting effects and greater neuronal excitability change. This single-centre, randomised, crossover, single-blinded, sham-controlled trial compared the effects of HD-tDCS and conventional tDCS on exercise performance and psychophysiological responses in healthy young male endurance athletes. The study found no effect of HD-tDCS or conventional tDCS on exercise performance and psychophysiological responses to exhaustive exercise. Further robust studies are required to evaluate the effects of both forms of tDCS in athletes compared to non-athletes and its effects when tDCS is applied to other areas of the central nervous system. Healthcare professionals can use the results of this study to understand that there is no evidence currently to support the utilisation of tDCS in improving exercise performance in athletes.
Abstract
Transcranial direct current stimulation (tDCS) has been used aiming to boost exercise performance and inconsistent findings have been reported. One possible explanation is related to the limitations of the so-called "conventional" tDCS, which uses large rectangular electrodes, resulting in a diffuse electric field. A new tDCS technique called high-definition tDCS (HD-tDCS) has been recently developed. HD-tDCS uses small ring electrodes and produces improved focality and greater magnitude of its aftereffects. This study tested whether HD-tDCS would improve exercise performance to a greater extent than conventional tDCS. Twelve endurance athletes (29.4 ± 7.3 years; 60.15 ± 5.09 ml kg-1 min-1) were enrolled in this single-center, randomized, crossover, and sham-controlled trial. To test reliability, participants performed two time to exhaustion (TTE) tests (control conditions) on a cycle simulator with 80% of peak power until volitional exhaustion. Next, they randomly received HD-tDCS (2.4 mA), conventional (2.0 mA), or active sham tDCS (2.0 mA) over the motor cortex for 20-min before performing the TTE test. TTE, heart rate (HR), associative thoughts, peripheral (lower limbs), and whole-body ratings of perceived exertion (RPE) were recorded every minute. Outcome measures were reliable. There was no difference in TTE between HD-tDCS (853.1 ± 288.6 s), simulated conventional (827.8 ± 278.7 s), sham (794.3 ± 271.2 s), or control conditions (TTE1 = 751.1 ± 261.6 s or TTE2 = 770.8 ± 250.6 s) [F(1.95; 21.4) = 1.537; P = 0.24; η2p = 0.123]. There was no effect on peripheral or whole-body RPE and associative thoughts (P > 0.05). No serious adverse effect was reported. A single session of neither HD-tDCS nor conventional tDCS changed exercise performance and psychophysiological responses in athletes, suggesting that a ceiling effect may exist.
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Physical activity and nutrition interventions for older adults with cancer: a systematic review.
Forbes, CC, Swan, F, Greenley, SL, Lind, M, Johnson, MJ
Journal of cancer survivorship : research and practice. 2020;14(5):689-711
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Physical activity (PA) benefits people living with or beyond cancer by improving physical function and quality of life (QoL) during and after cancer treatment, and cancer-related outcomes. Furthermore, poor nutritional status is associated with worse overall survival and QoL in patients receiving chemotherapy than those with better nutritional status. The aim of this study was to summarize the current literature regarding activity and nutritional based interventions on health-related quality of life (HRQoL) in older adults with cancer delivered before, during or after active cancer treatments, or as part of best supportive care. This study is a systematic review and meta-analysis of 14 randomised-controlled studies. Results show that effects on QoL outcomes were mixed since most studies were not designed to test effectiveness; however, the evaluation phase trials showed positive trends in QoL related to lifestyle interventions. Authors conclude that activity/nutrition programmes targeting older adults should include candidate intervention components; the need to use a holistic and tailored approach with functional goals and some personal professional contact.
Abstract
PURPOSE The aim of this review was to summarize the current literature for the effectiveness of activity and nutritional based interventions on health-related quality of life (HRQoL) in older adults living with and beyond cancer (LWBC). METHODS We conducted systematic structured searches of CINAHL, Embase, Medline, Cochrane CENTRAL databases, and bibliographic review. Two independent researchers selected against inclusion criteria: (1) lifestyle nutrition and/or activity intervention for people with any cancer diagnosis, (2) measured HRQoL, (3) all participants over 60 years of age and (4) randomized controlled trials. RESULTS Searches identified 5179 titles; 114 articles had full text review, with 14 studies (participant n = 1660) included. Three had nutrition and activity components, one, nutrition only and ten, activity only. Duration ranged from 7 days to 1 year. Interventions varied from intensive daily prehabilitation to home-based gardening interventions. Studies investigated various HRQoL outcomes including fatigue, general and cancer-specific quality of life (QoL), distress, depression, global side-effect burden and physical functioning. Eight studies reported significant intervention improvements in one or more QoL measure. Seven studies reported using a psychosocial/theoretical framework. There is a gap in tailored nutrition advice. CONCLUSIONS Among the few studies that targeted older adults with cancer, most were activity-based programmes with half reporting improvements in QoL. Future research should focus on or include tailored nutrition components and consider appropriate behaviour change techniques to maximize potential QoL improvement. IMPLICATIONS FOR CANCER SURVIVORS More research is needed to address the research gap regarding older adults as current recommendations are derived from younger populations.
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The Long Haul of COVID-19 Recovery: Immune Rejuvenation versus Immune Support.
Bland, JS
Integrative medicine (Encinitas, Calif.). 2020;19(6):18-22
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Following Covid-19 infection, sufferers have reported various residual symptoms, which have been likened to those experienced by chronic fatigue sufferers and those with Gulf War syndrome. This review paper aimed to assess whether the body has a similar immune response to these diseases during Covid-19, and if so, what therapies could be used. It also reviewed any diet and lifestyle factors that may be affecting the immune response. The paper stated that Covid-19 infection is associated with inflammation, which can damage immune cells and inflammation prior to Covid-19 infection may contribute to severity of the infection. Prior research in seemingly healthy individuals indicates that environment, diet, and lifestyle factors can all contribute to differing “immune identities” and eliminating immune cells which carry the imprint of memories should be a therapy focus in Covid-19 patients. Fasting, diets low in refined sugars and high in omega-3 and plant chemicals were discussed as ways for the body to clear out immune cells. It was concluded that personalising therapy strategies based on an individual’s immune identity to reduce inflammation could ultimately support the immune system. This paper could be used by healthcare professionals to understand the importance of diet and lifestyle changes to reduce inflammation and support the immune system.
Abstract
With the COVID-19 pandemic still affecting communities all over the world and "Long Haul" chronic health issues emerging, it is time for us to look back at past multi-symptom health conditions that required a different approach to their treatment, beyond just managing symptoms. It is important for us to consider how to apply what we have learned about immune rejuvenation and its impact on conditions associated with chronic immune dysfunction. We know more than we ever have before about how to reduce chronic inflammation at its source through the support of selective immune cell autophagy/mitophagy and improved immune cell mitochondrial activity, followed by remodeling of the immune epigenome, and-ultimately-a reset of immune function.
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Effect of Lactobacillus plantarum TWK10 on Exercise Physiological Adaptation, Performance, and Body Composition in Healthy Humans.
Huang, WC, Lee, MC, Lee, CC, Ng, KS, Hsu, YJ, Tsai, TY, Young, SL, Lin, JS, Huang, CC
Nutrients. 2019;11(11)
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Probiotics are widely used for health promotion. This study specifically looks at one strain of Lactobacillus plantarum TWK10 and its effects on physiology and body composition in 54 healthy participants (50/50 men and women), aged 20-30 years, none of which were professional athletes. The double-blind placebo-controlled experiment divided the participants into groups of placebo, low dose probiotics and high dose probiotics to determine the effects of probiotics on exercise performance over a 6 week period. During this time the participants were required to carry out a series of treadmill exercises and biometric exams including monitoring heart rate, oxygen consumption, body mass, and fatigue parameters measured in blood work (serum lactate, ammonia, glucose, creatine kinase, aspartate transaminase (AST), alanine aminotransferase (ALT), blood urea nitrogen (BUN), creatinine, and uric acid) for physiological adaption. The results showed that the probiotics elevated exercise performance and improved fatigue in a dose-dependent manner. They observed that muscle mass increased and fat mass decreased in the treatment groups compared to the placebo. As such they conclude that Lactobacillus plantarum TWK10 has beneficial physiological effects to improve aerobic performance.
Abstract
Probiotics have been rapidly developed for health promotion, but clinical validation of the effects on exercise physiology has been limited. In a previous study, Lactobacillus plantarum TWK10 (TWK10), isolated from Taiwanese pickled cabbage as a probiotic, was demonstrated to improve exercise performance in an animal model. Thus, in the current study, we attempted to further validate the physiological function and benefits through clinical trials for the purpose of translational research. The study was designed as a double-blind placebo-controlled experiment. A total of 54 healthy participants (27 men and 27 women) aged 20-30 years without professional athletic training were enrolled and randomly allocated to the placebo, low (3 × 1010 colony forming units (CFU)), and high dose (9 × 1010 CFU) TWK10 administration groups (n = 18 per group, with equal sexes). The functional and physiological assessments were conducted by exhaustive treadmill exercise measurements (85% VO2max), and related biochemical indices were measured before and after six weeks of administration. Fatigue-associated indices, including lactic acid, blood ammonia, blood glucose, and creatinine kinase, were continuously monitored during 30 min of exercise and a 90 min rest period using fixed intensity exercise challenges (60% VO2max) to understand the physiological adaptation. The systemic inflammation and body compositions were also acquired and analyzed during the experimental process. The results showed that TWK10 significantly elevated the exercise performance in a dose-dependent manner and improved the fatigue-associated features correlated with better physiological adaptation. The change in body composition shifted in the healthy direction for TWK10 administration groups, especially for the high TWK10 dose group, which showed that body fat significantly decreased and muscle mass significantly increased. Taken together, our results suggest that TWK10 has the potential to be an ergogenic aid to improve aerobic endurance performance via physiological adaptation effects.
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Effects of Low Versus Moderate Glycemic Index Diets on Aerobic Capacity in Endurance Runners: Three-Week Randomized Controlled Crossover Trial.
Durkalec-Michalski, K, Zawieja, EE, Zawieja, BE, Jurkowska, D, Buchowski, MS, Jeszka, J
Nutrients. 2018;10(3)
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During athletic performance, adequate amounts of carbohydrates are required to prolong the onset of fatigue. Research on whether the glycaemic index (GI) of ingested carbohydrates effects performance has been explored but has produced equivocal results. The aim of this randomised crossover study was to assess the effect of low- and moderate- GI diets on the aerobic capacity and endurance performance in 21 runners. Participants consumed a low- and moderate- GI, high carbohydrate and nutrient balanced diets for three weeks each with a two-week washout period. Aerobic capacity and body composition were measured at the beginning and end of each diet period through various athletic performance tests. This study found that after a low-GI, high-carbohydrate diet, improvements were seen in time to exhaustion and running performance. Gas exchange was improved by both diets. The low-GI carbohydrate diet helped athletes to maintain a more stable blood glucose concentration during exertion tests. Based on these results the authors suggest considering GI when planning a diet for performance athletes, and also urge further research be completed to better understand the effects of long-term GI diets with regards to exercise performance.
Abstract
The glycemic index (GI) of ingested carbohydrates may influence substrate oxidation during exercise and athletic performance. Therefore, the aim of this study was to assess the effect of low- and moderate-GI three-week diets on aerobic capacity and endurance performance in runners. We conducted a randomized crossover feeding study of matched diets differing only in GI (low vs. moderate) in 21 endurance-trained runners. Each participant consumed both, low- (LGI) and moderate-GI (MGI) high-carbohydrate (~60%) and nutrient-balanced diets for three weeks each. At the beginning and end of each diet, participants had their aerobic capacity and body composition measured and performed a 12-min running test. After LGI, time to exhaustion during incremental cycling test (ICT) and distance covered in the 12-min run were significantly increased. The MGI diet led to an increase in maximal oxygen uptake ( V ˙ O₂max), but no performance benefits were found after the MGI diet. The LGI and MGI diets improved time and workload at gas exchange threshold (GET) during ICT. The results indicate that a three-week high-carbohydrate LGI diet resulted in a small but significant improvement in athletic performance in endurance runners. Observed increase in V ˙ O₂max on MGI diet did not affect performance.
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Does adapted physical activity‑based rehabilitation improve mental and physical functioning? A randomized trial.
Røe, C, Preede, L, Dalen, H, Bautz-Holter, E, Nyquist, A, Sandvik, L, Saebu, M
European journal of physical and rehabilitation medicine. 2018;54(3):419-427
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Physical and mental functioning is reduced in people with chronic disability. Adapted physical activity (APA) programmes have been developed to facilitate physical activity in this population, but the mental effects have not yet been addressed. The aim of this study was to determine both the physical and mental effects of an APA programme in 202 patients with chronic disability. Participants were randomised to either join an in-patient APA rehabilitation programme or a waitlist control group. Those in the APA programme received 2-5 hours of guided activity every day for 6 days a week, as well as 1-3 hours of a social or cultural activities. Various questionnaires were completed at baseline and at the end of the intervention. This study found participants receiving the APA rehabilitation programme showed improvements in physical functioning, motivation, self-efficacy (a feeling that 'I can do' an action), pain and fatigue compared with the waitlist group. Based on these results, the authors conclude physical activity should be considered during the development of rehabilitation strategies for people with chronic disabilities.
Abstract
BACKGROUND Persons with chronic disabilities face a wide variety of problems with functioning that affect their level of physical activity and participation. We have limited knowledge about the effect of adapted physical activity (APA)-based rehabilitation on perceived mental and physical functioning. AIM: The main aim of this study was to evaluate the effect of APA‑based rehabilitation compared to waiting‑list on perceived mental and physical functioning. Secondly, we wanted to assess whether improvement in self‑efficacy, motivation, pain and fatigue during rehabilitation was related to the effect of the intervention. DESIGN Randomized controlled trial. SETTING In‑patient rehabilitation Center. POPULATION All subjects above 17 years who were referred by their physician to BHC between July 1, 2010 and August 1, 2012 without major cognitive or language problems were eligible for the study (N.=321). METHODS Persons above 17 years (men and women) with chronic disabilities who applied for a rehabilitation stay, were randomized to an adapted physical activity‑based rehabilitation intervention (N.=304) or waiting‑list with delayed rehabilitation. A total of 246 consented and were allocated to four week intervention or a waiting‑list control group. The main outcome was physical and mental functioning evaluated four weeks after rehabilitation using the Medical Outcomes Study 12-Item Short‑Form Health Survey (SF-12). RESULTS Compared to waiting‑list the adapted physical activity‑based intervention improved physical and mental functioning. Improvement in physical functioning during rehabilitation was related to reduced pain, improved motivation and self‑efficacy. CONCLUSIONS The results indicate that an adapted physical activity‑based rehabilitation program improves functioning. Improved efficacy for managing disability may mediate the improvement in mental functioning. CLINICAL REHABILITATION IMPACT Adapted physical activity‑based rehabilitation should be considered during the development of rehabilitation strategies for people with chronic disabilities. Motivational and self‑efficacy aspects must be addressed when organizing and evaluating rehabilitation programs.
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Creatine-electrolyte supplementation improves repeated sprint cycling performance: A double blind randomized control study.
Crisafulli, DL, Buddhadev, HH, Brilla, LR, Chalmers, GR, Suprak, DN, San Juan, JG
Journal of the International Society of Sports Nutrition. 2018;15:21
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Creatine is widely recommended as an aid to improve athletic performance by increasing power and delaying the onset of fatigue. Further research has indicated that creatine absorption is dependent on the presence of electrolytes. Existing literature on creatine-electrolyte supplementation in sprint cycling performance has produced mixed results. The aim of this randomised, double-blind, placebo-controlled trial was to investigate the effect of a creatine-electrolyte (CE) supplementation on short-duration sprint performance in 23 recreational cyclists. Cyclists were randomised to consume CE or placebo powder daily for six-weeks and overall and peak power was measured during 15-second sprints with 2 minutes of passive recovery pre-supplementation and post-supplementation. This study found that CE supplementation led to significant increases in power output during the assigned sprint times. Based on these results, the authors conclude that cyclists wanting to increase their overall and repeated peak and mean power output may benefit from consuming a creatine-electrolyte supplement.
Abstract
BACKGROUND Creatine supplementation is recommended as an ergogenic aid to improve repeated sprint cycling performance. Furthermore, creatine uptake is increased in the presence of electrolytes. Prior research examining the effect of a creatine-electrolyte (CE) supplement on repeated sprint cycling performance, however, did not show post-supplementation improvement. The purpose of this double blind randomized control study was to investigate the effect of a six-week CE supplementation intervention on overall and repeated peak and mean power output during repeated cycling sprints with recovery periods of 2 min between sprints. METHODS Peak and mean power generated by 23 male recreational cyclists (CE group: n = 12; 24.0 ± 4.2 years; placebo (P) group: n = 11; 23.3 ± 3.1 years) were measured on a Velotron ergometer as they completed five 15-s cycling sprints, with 2 min of recovery between sprints, pre- and post-supplementation. Mixed-model ANOVAs were used for statistical analyses. RESULTS A supplement-time interaction showed a 4% increase in overall peak power (pre: 734 ± 75 W; post: 765 ± 71 W; p = 0.040; ηp2 = 0.187) and a 5% increase in overall mean power (pre: 586 ± 72 W; post: 615 ± 74 W; p = 0.019; ηp2 = 0.234) from pre- to post-supplementation for the CE group. For the P group, no differences were observed in overall peak (pre: 768 ± 95 W; post: 772 ± 108 W; p = 0.735) and overall mean power (pre: 638 ± 77 W; post: 643 ± 92 W; p = 0.435) from pre- to post-testing. For repeated sprint analysis, peak (pre: 737 ± 88 W; post: 767 ± 92 W; p = 0.002; ηp2 = 0.380) and mean (pre: 650 ± 92 W; post: 694 ± 87 W; p < 0.001; ηp2 = 0.578) power output were significantly increased only in the first sprint effort in CE group from pre- to post-supplementation testing. For the P group, no differences were observed for repeated sprint performance. CONCLUSION A CE supplement improves overall and repeated short duration sprint cycling performance when sprints are interspersed with adequate recovery periods.