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Effects of a 2-year exercise training on neuromuscular system health in older individuals with low muscle function.
Monti, E, Tagliaferri, S, Zampieri, S, Sarto, F, Sirago, G, Franchi, MV, Ticinesi, A, Longobucco, Y, Adorni, E, Lauretani, F, et al
Journal of cachexia, sarcopenia and muscle. 2023;14(2):794-804
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Ageing is accompanied by a progressive decline in muscle mass and functionality, associated with an increased likelihood of adverse outcomes including falls, fractures, physical disability and mortality, possibly leading to a clinical syndrome known as sarcopenia. Among the causes of sarcopenia, motoneuron and neuromuscular junction (NMJ) degeneration have been proposed as key determinants. The aim of this study was to investigate the effects of a 2-year multimodal training intervention involving aerobic, strength and balance exercises on muscle mass and function, motoneuronal and NMJ health in a population of older individuals classified as sarcopenic. This study was a randomised controlled trial which enrolled 45 sarcopenic participants (34 females and 11 males) who were randomly assigned to one of the two groups: intervention or control group. Results show that the 2-year multimodal training intervention seemingly preserved NMJ stability, preventing serum C-terminal agrin fragment (CAF) [a biomarker of muscle wasting and weakness] concentration rise in the intervention group, although this biomarker increased significantly only in the control group. Conversely, neurofilament light chain (NfL) [clinical biomarker of many neurodegenerative diseases] concentration did not change in either group. Finally, improvements of physical performance were correlated with changes of serum biomarkers of NMJ stability. Authors conclude that a 2-year multimodal training intervention including aerobic, strength and balance exercises is effective for preventing CAF concentration increments, suggesting a positive effect on NMJ stability.
Abstract
BACKGROUND Ageing is accompanied by a progressive loss of skeletal muscle mass and strength, potentially determining the insurgence of sarcopenia. Evidence suggests that motoneuron and neuromuscular junction (NMJ) degeneration contribute to sarcopenia pathogenesis. Seeking for strategies able to slow down sarcopenia insurgence and progression, we investigated whether a 2-year mixed-model training involving aerobic, strength and balance exercises would be effective for improving or preserving motoneuronal health and NMJ stability, together with muscle mass, strength and functionality in an old, sarcopenic population. METHODS Forty-five sarcopenic elderly (34 females; 11 males) with low dual-energy X-ray absorptiometry (DXA) lean mass and Short Physical Performance Battery (SPPB) score <9 were randomly assigned to either a control group [Healthy Aging Lifestyle Education (HALE), n = 21] or an intervention group [MultiComponent Intervention (MCI), n = 24]. MCI trained three times per week for 2 years with a mix of aerobic, strength and balance exercises matched with nutritional advice. Before and after the intervention, ultrasound scans of the vastus lateralis (VL), SPPB and a blood sample were obtained. VL architecture [pennation angle (PA) and fascicle length (Lf)] and cross-sectional area (CSA) were measured. As biomarkers of neuronal health and NMJ stability status, neurofilament light chain (NfL) and C-terminal agrin fragment (CAF) concentrations were measured in serum. Differences in ultrasound parameters, NfL and CAF concentration and physical performance between baseline and follow-up were tested with mixed ANOVA or Wilcoxon test. The relationship between changes in physical performance and NfL or CAF concentration was assessed through correlation analyses. RESULTS At follow-up, MCI showed preserved VL architecture (PA, Lf) despite a reduced CSA (-8.4%, P < 0.001), accompanied by maintained CAF concentration and ameliorated overall SPPB performance (P = 0.007). Conversely, HALE showed 12.7% decrease in muscle CSA (P < 0.001), together with 5.1% and 5.5% reduction in PA and Lf (P < 0.001 and P = 0.001, respectively), and a 6.2% increase in CAF (P = 0.009) but improved SPPB balance score (P = 0.007). NfL concentration did not change in either group. In the population, negative correlations between changes in CAF concentration and SPPB total score were found (P = 0.047), whereas no correlation between NfL and SPPB variations was observed. CONCLUSIONS The present findings suggest that our 2-year mixed aerobic, strength and balance training seemed effective for preventing the age and sarcopenia-related increases in CAF concentration, preserving NMJ stability as well as muscle structure (PA and Lf) and improving physical performance in sarcopenic older individuals.
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The effect of weight loss following 18 months of lifestyle intervention on brain age assessed with resting-state functional connectivity.
Levakov, G, Kaplan, A, Yaskolka Meir, A, Rinott, E, Tsaban, G, Zelicha, H, Blüher, M, Ceglarek, U, Stumvoll, M, Shelef, I, et al
eLife. 2023;12
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Obesity is linked to premature brain ageing and subsequent development of diseases such as dementia and Alzheimer’s disease. Weight loss through lifestyle modifications may be able to attenuate brain ageing. This sub-study of 102 individuals from a randomised control trial known as the Dietary Intervention Randomised Controlled Trial Polyphenols Unprocessed Study (DIRECT-PLUS), aimed to determine the effect of 18 months lifestyle modifications and weight loss on brain age. The results showed that a decrease in BMI attenuated brain ageing and that 1% body weight loss reduced brain ageing by 8.9 months. Reduced brain age was also associated with decreased waist circumference and fat mass. Interestingly, reduced consumption of processed foods was also associated with reduced brain age. It was concluded that weight loss can be of benefit to brain health. This study could be used by healthcare professionals to understand that people with obesity are at a higher risk of brain related diseases, and that weight loss may be an effective way to prevent their development.
Abstract
BACKGROUND Obesity negatively impacts multiple bodily systems, including the central nervous system. Retrospective studies that estimated chronological age from neuroimaging have found accelerated brain aging in obesity, but it is unclear how this estimation would be affected by weight loss following a lifestyle intervention. METHODS In a sub-study of 102 participants of the Dietary Intervention Randomized Controlled Trial Polyphenols Unprocessed Study (DIRECT-PLUS) trial, we tested the effect of weight loss following 18 months of lifestyle intervention on predicted brain age based on magnetic resonance imaging (MRI)-assessed resting-state functional connectivity (RSFC). We further examined how dynamics in multiple health factors, including anthropometric measurements, blood biomarkers, and fat deposition, can account for changes in brain age. RESULTS To establish our method, we first demonstrated that our model could successfully predict chronological age from RSFC in three cohorts (n=291;358;102). We then found that among the DIRECT-PLUS participants, 1% of body weight loss resulted in an 8.9 months' attenuation of brain age. Attenuation of brain age was significantly associated with improved liver biomarkers, decreased liver fat, and visceral and deep subcutaneous adipose tissues after 18 months of intervention. Finally, we showed that lower consumption of processed food, sweets and beverages were associated with attenuated brain age. CONCLUSIONS Successful weight loss following lifestyle intervention might have a beneficial effect on the trajectory of brain aging. FUNDING The German Research Foundation (DFG), German Research Foundation - project number 209933838 - SFB 1052; B11, Israel Ministry of Health grant 87472511 (to I Shai); Israel Ministry of Science and Technology grant 3-13604 (to I Shai); and the California Walnuts Commission 09933838 SFB 105 (to I Shai). Obesity is linked with the brain aging faster than would normally be expected. Researchers are able to capture this process by calculating a person’s ‘brain age’ – how old their brain appears on detailed scans, regardless of chronological age. This approach also helps to monitor how certain factors, such as lifestyle, can influence brain aging over relatively short time scales. It is not clear whether lifestyle interventions that promote weight loss can help to slow obesity-driven brain aging. To answer this question, Levakov et al. studied 102 individuals who met the criteria for obesity and took part in a lifestyle intervention aimed to improve diet and physical activity levels over 18 months. The participants received a brain scan at the beginning and the end of the program; additional tests and measurements were also conducted at these times to capture other biological processes impacted by obesity, such as liver health. Levakov et al. used the brain scans taken at the start and end of the study to examine the impact of the lifestyle intervention on the aging trajectory. The results revealed that a reduction in body weight of 1% led to the participants’ brain age being nearly 9 months younger than the expected brain age after 18 months. This attenuated aging was associated with changes in other biological measures, such as decreased liver fat and liver enzymes. Increases in liver fat and production of specific liver enzymes were previously shown to negatively impact brain health in Alzheimer’s disease. Finally, examining more closely the food consumption reports completed by participants showed that reduced consumption of processed food, sweets and beverages were linked to attenuated brain aging. The findings show that lifestyle interventions which promote weight loss can have a beneficial impact on the aging trajectory of the brain observed with obesity. The next steps will include determining whether slowing down obesity-driven brain aging results in better clinical outcomes for patients. In addition, the work by Levakov et al. demonstrates a potential strategy to evaluate the success of lifestyle changes on brain health. With global rates of obesity rising, identifying interventions that have a positive impact on brain health could have important clinical, educational and social impacts.
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Precision Medicine Approach to Alzheimer's Disease: Successful Pilot Project.
Toups, K, Hathaway, A, Gordon, D, Chung, H, Raji, C, Boyd, A, Hill, BD, Hausman-Cohen, S, Attarha, M, Chwa, WJ, et al
Journal of Alzheimer's disease : JAD. 2022;88(4):1411-1421
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Neurodegenerative diseases such as Alzheimer’s disease are without effective therapeutics. The aim of this study was to compare the effects of a precision medicine approach to historical controls in patients with mild cognitive impairment or early dementia. This study is a proof-of-concept study which recruited twenty-five patients with Alzheimer’s disease or mild cognitive impairment, aged between 50–76 years. Patients were treated for nine months with a personalised, precision medicine protocol that addressed each patient’s identified potentially contributory factors. Results show that a precision medicine approach to the cognitive decline of Alzheimer’s disease and mild cognitive impairment may be an effective strategy, especially with continued optimization over time. Authors conclude that their findings indicate that it is possible to reverse cognitive decline in mild cognitive impairment and early dementia with a personalised, precision medicine (/systems medicine) protocol. This is a small study that requires larger scale initiatives, including examining the practicalities of integrating this approach into healthcare systems.
Abstract
BACKGROUND Effective therapeutics for Alzheimer's disease are needed. However, previous clinical trials have pre-determined a single treatment modality, such as a drug candidate or therapeutic procedure, which may be unrelated to the primary drivers of the neurodegenerative process. Therefore, increasing data set size to include the potential contributors to cognitive decline for each patient, and addressing the identified potential contributors, may represent a more effective strategy. OBJECTIVE To determine whether a precision medicine approach to Alzheimer's disease and mild cognitive impairment is effective enough in a proof-of-concept trial to warrant a larger, randomized, controlled clinical trial. METHODS Twenty-five patients with dementia or mild cognitive impairment, with Montreal Cognitive Assessment (MoCA) scores of 19 or higher, were evaluated for markers of inflammation, chronic infection, dysbiosis, insulin resistance, protein glycation, vascular disease, nocturnal hypoxemia, hormone insufficiency or dysregulation, nutrient deficiency, toxin or toxicant exposure, and other biochemical parameters associated with cognitive decline. Brain magnetic resonance imaging with volumetrics was performed at baseline and study conclusion. Patients were treated for nine months with a personalized, precision medicine protocol, and cognition was assessed at t = 0, 3, 6, and 9 months. RESULTS All outcome measures revealed improvement: statistically significant improvement in MoCA scores, CNS Vital Signs Neurocognitive Index, and Alzheimer's Questionnaire Change score were documented. No serious adverse events were recorded. MRI volumetrics also improved. CONCLUSION Based on the cognitive improvements observed in this study, a larger, randomized, controlled trial of the precision medicine therapeutic approach described herein is warranted.
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Long-term effects of a three-component lifestyle intervention on emotional well-being in women with Polycystic Ovary Syndrome (PCOS): A secondary analysis of a randomized controlled trial.
Jiskoot, G, Dietz de Loos, A, Beerthuizen, A, Timman, R, Busschbach, J, Laven, J
PloS one. 2020;15(6):e0233876
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Polycystic Ovary Syndrome (PCOS) is a common endocrine disorder affecting women in their reproductive years. The condition is often associated with higher rates of depression and anxiety, particularly with a Body Mass Index (BMI) of >30. As weight-loss has shown to improve a host of symptoms experienced in PCOS, the authors sought to investigate whether weight-loss would also lead to a reduction in depressive symptoms. This secondary analysis of a longitudinal, randomised trial of 155 women, compared a combined lifestyle intervention of diet advice, eating behaviour, exercise and standardised Cognitive Behaviour Therapy (CBT) to standard advice for weight reduction. Over a 12-months the chosen lifestyle interventions demonstrated a sustained improvement in self-assessed depression scores, though independent of weight-loss. However, weight-loss itself was closely linked with improved body image and self-esteem. Additional monitoring of hormones (androgens, insulin, cortisol) and calculations for insulin sensitivity (HOMA-IR ) did not show any direct link with depressive scores. This study affirms the benefit of integrative lifestyle approaches on emotional well-being in women with PCOS. Practitioners might find it of interest that improvements in emotional well-being can occur independent of weight loss in individuals experiencing depressive symptoms with PCOS.
Abstract
Many women with Polycystic Ovary Syndrome (PCOS) report high depression rates. The relationship between PCOS and these high depression rates is unclear. Two-component lifestyle interventions have revealed short-term effects on depression scores in this group of women. In general, 3-component interventions including diet, exercise, and cognitive behavioral therapy (CBT) are more effective in the long-term to improve emotional well-being. This has not yet been studied in women with PCOS. This study examined the effect of 20 CBT lifestyle (LS) sessions combined with a healthy diet and physical therapy with or without 9 months additional feedback through Short Message Service (SMS) via mobile phone, compared to care as usual (CAU, involving advice to lose weight). In this secondary analysis, 155 women with PCOS and a BMI above 25 kg/m2 were eligible. Depression scores decreased significantly in the LS programme compared to CAU (P = 0.045). In both the LS programme without SMS (P = 0.036) and the LS programme with SMS (P = 0.011) depression scores decreased while no change was observed in CAU (P = 0.875). Self-esteem scores improved significantly in the LS programme compared to CAU (P = 0.027). No differences in body image scores were observed in LS participants compared to CAU (P = 0.087), although body image improved significantly in both the LS without SMS (P = 0.001) and with SMS (P = 0.008) study arms. We found no significant mediating role by androgens in the relationship between LS participants and emotional well-being. Only weight-loss mediated the relationship between LS and self-esteem. To conclude, a three-component lifestyle intervention programme with or without additional SMS resulted in significant improvements in depression and self-esteem compared to CAU, in women with PCOS, obesity, and a wish to achieve a pregnancy. Testosterone, androstenedione, DHEA, insulin, HOMA-IR, and cortisol did not mediate this effect. Weight loss mediated the effects on self-esteem but not on depression and body-image. This suggests that lifestyle treatment independent of weight loss can reduce depression and body-image, but both lifestyle treatment and weight loss can improve self-esteem. Thus, a three-component lifestyle intervention based on CBT could prove successful in improving mood in women with PCOS who are overweight or obese and attempting to become pregnant.
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Effects of aquatic exercise on mental health, functional autonomy and oxidative stress in depressed elderly individuals: A randomized clinical trial.
Silva, LAD, Tortelli, L, Motta, J, Menguer, L, Mariano, S, Tasca, G, Silveira, GB, Pinho, RA, Silveira, PCL
Clinics (Sao Paulo, Brazil). 2019;74:e322
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Decreased physical activity can contribute significantly to increased levels of depression. Whereas, regular physical activity positively alters the symptoms of depression thereby promoting mental health. The aim of this study was to investigate the effects of aquatic exercise on mental health, functional autonomy and oxidative stress parameters in depressed elderly individuals. The study is a longitudinal clinical study, conducted over a period of 12 weeks. Forty participants were recruited: 20 elderly individuals (men n = 9 men) with depression formed the depression group and another 20 (n = 13 men) individuals without depression formed the non-depression group. Both groups were subjected to the same aquatic physical training program. Results showed that a low-intensity aerobic training program in the aquatic environment can contribute to the treatment of depression by reducing anxiety and depression scores, improving functional autonomy and decreasing oxidative stress. Authors conclude that an intermittent aquatic physical exercise program improves the functional capacity of depressed elderly individuals.
Abstract
OBJECTIVES The aim of this study was to investigate the effects of aquatic exercise on mental health, functional autonomy and oxidative stress parameters in depressed elderly individuals. METHODS Initially, ninety-two elderly individuals were included in the study and were allocated into the depression group (n=16) and nondepression group (n=14). Both groups engaged in the aquatic exercise program for 12 weeks, including two weekly sessions (45 min/session) at a low intensity (between 50% and 60% of maximal heart rate or Borg scale scores of 13 to 14) throughout the intervention. All outcomes were evaluated at baseline and 12 weeks later. RESULTS The patients were 63.5±8.8 years old. The following scores were decreased after training in the depressed group: depression (53%), anxiety (48%), and Timed Up & Go (33%). The following scores increased: Berg Balance Scale (9%) and flexibility (44%). Regarding the blood-based parameters, there were decreases in protein carbonylation (46%) and nitric oxide (60%) and increases in glutathione (170%) and superoxide dismutase (160%) in the depression group (p<0.005). CONCLUSIONS The aquatic exercise program reduces depression and anxiety, improves functional autonomy and decreases oxidative stress in depressed elderly individuals.
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Influence of combined functional resistance and endurance exercise over 12 weeks on matrix metalloproteinase-2 serum concentration in persons with relapsing-remitting multiple sclerosis - a community-based randomized controlled trial.
Proschinger, S, Joisten, N, Rademacher, A, Schlagheck, ML, Walzik, D, Metcalfe, AJ, Oberste, M, Warnke, C, Bloch, W, Schenk, A, et al
BMC neurology. 2019;19(1):314
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Multiple Sclerosis (MS) is a degenerative autoimmune neuroinflammatory disease where the blood-brain barrier is compromised, causing inflammation. Regular exercise has been shown to support psychomotor symptoms and improve mobility. This trial examines the effects of resistance and endurance exercise in 64 patients, aged 18-45 years, with relapsing-remitting MS (RRMS). The patients are divided into an exercise group and a passive group. The exercise group will perform 60 min of combined functional resistance and endurance exercises 3x per week over a period of 12 weeks. Blood samples will be taken to measure proteolytic matrix metalloproteinases (MMP) as an indicator of neurological inflammation. Secondary measures will also be taken to evaluate patient-reported outcomes regarding gait, sleep, depression, anxiety, fatigue, and quality of life. The study is currently ongoing, so the results are not yet published. From an ethical perspective the passive group will also be offered the opportunity to perform the same exercises at the end of the trial.
Abstract
BACKGROUND The relevance of regular moderate to intense exercise for ameliorating psychomotor symptoms in persons with multiple sclerosis (pwMS) is becoming increasingly evident. Over the last two decades, emerging evidence from clinical studies and animal models indicate immune regulatory mechanisms in both periphery and the central nervous system that may underlie these beneficial effects. The integrity of the blood-brain barrier as the main structural interface between periphery and brain seems to play an important role in MS. Reducing the secretion of proteolytic matrix metalloproteinases (MMP), i.e. MMP-2, as disruptors of blood-brain barrier integrity could have profound implications for MS. METHODS In this two-armed randomized controlled trial 64 participants with relapsing-remitting MS (RRMS) (EDSS 0-4.0) will be allocated to either an intervention group or a passive wait list control group. The intervention group will perform 60 min of combined functional resistance and endurance exercises 3x per week over a period of 12 weeks in a community-based and publicly available setting. Changes in serum concentration of MMP-2 will be the primary outcome. Secondary outcomes are numbers of immune cell subsets, soluble (anti-) inflammatory factors, physical capacity, cognitive performance, physical activity behavior, gait performance, and patient-reported outcomes. All outcome measures will be assessed at baseline and after week 12 with an additional blood sampling before, during and immediately after a single training session in week 6. DISCUSSION To our knowledge, this will be the first RCT to investigate both the acute and chronic effects of a community-based intense functional resistance and endurance exercise regimen in persons with RRMS. Combining analysis of biological and cognitive or psychological outcomes may provide a better understanding of the MS-specific symptomology. TRIAL REGISTRATION DRKS00017091; 05th of April, 2019; International Clinical Trials Registry Platform.
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Ketone ester supplementation blunts overreaching symptoms during endurance training overload.
Poffé, C, Ramaekers, M, Van Thienen, R, Hespel, P
The Journal of physiology. 2019;597(12):3009-3027
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Overload training is often used by endurance athletes to improve endurance performance. Overload training, however, can result in muscle protein breakdown, a catabolic state, and a decrease in muscle performance. Therefore, this randomised, double-blinded, placebo-controlled study examined the protective effects of ketone ester supplementation in reducing the detrimental effects of endurance training-induced overreaching. When compared to the control group, the subjects taking oral ketone ester supplements showed a 15% increase in sustained training load and power output and maintained energy balance. Supplementation with ketones ester inhibited the night-time increase in neurotransmitter noradrenaline and hormone adrenaline and maintained heart rate, suggesting a blunting of cardiovascular, sympathetic and hormonal symptoms caused by the endurance training overload. Growth differentiation factor 15 (GDF15) increased by training overload was negated by ketone ester intake. Further studies should be conducted to establish the long-term effects of ketone esters in training and recovery. These results can help healthcare professionals better understand how elevated blood ketones can enhance exercise performance and reduce the detrimental effects of exercise overload.
Abstract
KEY POINTS Overload training is required for sustained performance gain in athletes (functional overreaching). However, excess overload may result in a catabolic state which causes performance decrements for weeks (non-functional overreaching) up to months (overtraining). Blood ketone bodies can attenuate training- or fasting-induced catabolic events. Therefore, we investigated whether increasing blood ketone levels by oral ketone ester (KE) intake can protect against endurance training-induced overreaching. We show for the first time that KE intake following exercise markedly blunts the development of physiological symptoms indicating overreaching, and at the same time significantly enhances endurance exercise performance. We provide preliminary data to indicate that growth differentiation factor 15 (GDF15) may be a relevant hormonal marker to diagnose the development of overtraining. Collectively, our data indicate that ketone ester intake is a potent nutritional strategy to prevent the development of non-functional overreaching and to stimulate endurance exercise performance. ABSTRACT It is well known that elevated blood ketones attenuate net muscle protein breakdown, as well as negate catabolic events, during energy deficit. Therefore, we hypothesized that oral ketones can blunt endurance training-induced overreaching. Fit male subjects participated in two daily training sessions (3 weeks, 6 days/week) while receiving either a ketone ester (KE, n = 9) or a control drink (CON, n = 9) following each session. Sustainable training load in week 3 as well as power output in the final 30 min of a 2-h standardized endurance session were 15% higher in KE than in CON (both P < 0.05). KE inhibited the training-induced increase in nocturnal adrenaline (P < 0.01) and noradrenaline (P < 0.01) excretion, as well as blunted the decrease in resting (CON: -6 ± 2 bpm; KE: +2 ± 3 bpm, P < 0.05), submaximal (CON: -15 ± 3 bpm; KE: -7 ± 2 bpm, P < 0.05) and maximal (CON: -17 ± 2 bpm; KE: -10 ± 2 bpm, P < 0.01) heart rate. Energy balance during the training period spontaneously turned negative in CON (-2135 kJ/day), but not in KE (+198 kJ/day). The training consistently increased growth differentiation factor 15 (GDF15), but ∼2-fold more in CON than in KE (P < 0.05). In addition, delta GDF15 correlated with the training-induced drop in maximal heart rate (r = 0.60, P < 0.001) and decrease in osteocalcin (r = 0.61, P < 0.01). Other measurements such as blood ACTH, cortisol, IL-6, leptin, ghrelin and lymphocyte count, and muscle glycogen content did not differentiate KE from CON. In conclusion, KE during strenuous endurance training attenuates the development of overreaching. We also identify GDF15 as a possible marker of overtraining.
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Vitamin D Supplementation and Physical Activity of Young Soccer Players during High-Intensity Training.
Skalska, M, Nikolaidis, PT, Knechtle, B, Rosemann, TJ, Radzimiński, Ł, Jastrzębska, J, Kaczmarczyk, M, Myśliwiec, A, Dragos, P, López-Sánchez, GF, et al
Nutrients. 2019;11(2)
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It has been shown that the vitamin D levels in athletes has a significant impact on their neuro-muscular system. The aim of this study was to determine the effect of vitamin D supplementation on physical activity measures among soccer players during small-sided games after an 8-week high-intensity training programme. In this placebo-controlled, double blind study, 36 participants were randomised to receive either placebo or vitamin D (5000 IU) supplementation for 8 weeks. Average distance and intensity was calculated based on four small-sided games. While the supplemented group increased vitamin D levels significantly, improvements in various physical activity measures were not statistically significant. Though the effect size of this trial is low the authors recommend supplementing vitamin D to young soccer players, especially with vitamin D levels are deficient.
Abstract
The aim of this study was to confirm that vitamin D supplementation of young soccer players during eight-week high-intensity training would have a significant effect on their motion activity. The subjects were divided into two groups: the experimental one, which was supplemented with vitamin D (SG, n = 20), and the placebo group (PG, n = 16), which was not supplemented with vitamin D. All the players were subjected to the same soccer training, described as High-Intensity Interval Training (HIIT). The data of the vitamin D status, time motion parameters and heart rate were collected just before and after the intervention. A significant increase in 25(OH)D concentration (119%) was observed in the supplemented group, while the non-supplemented group showed a decrease of 8.4%. Based on the obtained results, it was found that physical activity indicators in the players were significantly improved during small-sided games at the last stage of the experiment. However, taking into account the effect of supplementation with vitamin D, there were no statistically significant differences between the placebo and the supplemented groups; thus, the effect size of the conducted experiment was trivial.
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Metabolic stress-dependent regulation of the mitochondrial biogenic molecular response to high-intensity exercise in human skeletal muscle.
Fiorenza, M, Gunnarsson, TP, Hostrup, M, Iaia, FM, Schena, F, Pilegaard, H, Bangsbo, J
The Journal of physiology. 2018;596(14):2823-2840
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Endurance exercise stimulates mitochondrial biogenesis in skeletal muscles, a crucial adaptive protective mechanism against various metabolic disorders. Mitochondrial biogenesis is a process that involves the expansion of mitochondrial volume and changes in mitochondrial composition. Continuous moderate‐intensity exercise (CM) may lead to mild but prolonged metabolic disturbances, and low‐volume intense intermittent exercise regimes such as repeated‐sprint (RE) and speed endurance (SE) exercises may lead to a distinct degree of metabolic stress. This randomised counter-balanced crossover trial included 12 healthy trained men to investigate the effect of RE and SE exercise and high‐volume CM on metabolic perturbations and its impact on the regulation of molecular response stimulating mitochondrial biogenesis in human skeletal muscle. Compared to CM, PGC‐1α mRNA (Peroxisome proliferator‐activated receptor gamma coactivator 1‐alpha (PGC‐1α) mRNA) showed elevation in response to RS and SE exercises in well-trained subjects, and this was associated with high accumulation of muscle lactate, greater decline in muscle pH and elevated plasma adrenaline levels. Elevated metabolic perturbations lead to enhanced mitochondrial biogenesis-related mRNA responses. SE was associated with a greater increase in the PGC‐1α mRNA and severe metabolic stress. SE and CM elevated exercise-induced signalling and mRNA content of genes controlling mtDNA. Further robust research is required to elucidate the role of metabolic stress in initiating mitochondrial biogenesis in skeletal muscles in response to acute exercise, regulating genes modulating mtDNA transcription and mitochondrial remodelling dynamics. However, healthcare professionals can use the results of this study to understand that low-volume high-intensity exercise programmes can promote mitochondrial biogenesis in skeletal muscles in healthy trained men and have a similar effect to that of high-volume moderate-intensity exercise programmes.
Abstract
KEY POINTS Low-volume high-intensity exercise training promotes muscle mitochondrial adaptations that resemble those associated with high-volume moderate-intensity exercise training. These training-induced mitochondrial adaptations stem from the cumulative effects of transient transcriptional responses to each acute exercise bout. However, whether metabolic stress is a key mediator of the acute molecular responses to high-intensity exercise is still incompletely understood. Here we show that, by comparing different work-matched low-volume high-intensity exercise protocols, more marked metabolic perturbations were associated with enhanced mitochondrial biogenesis-related muscle mRNA responses. Furthermore, when compared with high-volume moderate-intensity exercise, only the low-volume high-intensity exercise eliciting severe metabolic stress compensated for reduced exercise volume in the induction of mitochondrial biogenic mRNA responses. The present results, besides improving our understanding of the mechanisms mediating exercise-induced mitochondrial biogenesis, may have implications for applied and clinical research that adopts exercise as a means to increase muscle mitochondrial content and function in healthy or diseased individuals. ABSTRACT The aim of the present study was to examine the impact of exercise-induced metabolic stress on regulation of the molecular responses promoting skeletal muscle mitochondrial biogenesis. Twelve endurance-trained men performed three cycling exercise protocols characterized by different metabolic profiles in a randomized, counter-balanced order. Specifically, two work-matched low-volume supramaximal-intensity intermittent regimes, consisting of repeated-sprint (RS) and speed endurance (SE) exercise, were employed and compared with a high-volume continuous moderate-intensity exercise (CM) protocol. Vastus lateralis muscle samples were obtained before, immediately after, and 3 h after exercise. SE produced the most marked metabolic perturbations as evidenced by the greatest changes in muscle lactate and pH, concomitantly with higher post-exercise plasma adrenaline levels in comparison with RS and CM. Exercise-induced phosphorylation of CaMKII and p38 MAPK was greater in SE than in RS and CM. The exercise-induced PGC-1α mRNA response was higher in SE and CM than in RS, with no difference between SE and CM. Muscle NRF-2, TFAM, MFN2, DRP1 and SOD2 mRNA content was elevated to the same extent by SE and CM, while RS had no effect on these mRNAs. The exercise-induced HSP72 mRNA response was larger in SE than in RS and CM. Thus, the present results suggest that, for a given exercise volume, the initial events associated with mitochondrial biogenesis are modulated by metabolic stress. In addition, high-intensity exercise seems to compensate for reduced exercise volume in the induction of mitochondrial biogenic molecular responses only when the intense exercise elicits marked metabolic perturbations.
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Effect of protein and carbohydrate solutions on running performance and cognitive function in female recreational runners.
Gui, Z, Sun, F, Si, G, Chen, Y
PloS one. 2017;12(10):e0185982
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Research has shown that consuming a carbohydrate-electrolyte solution (CES) during endurance exercise can improve performance, delay fatigue and ameliorate post-exercise cognitive dysfuction when compared with a noncaloric placebo (PLA). The addition of protein to the CES (CPES) has been suggested to increase these benefits however the current data is limited. The aim of this crossover study was to investigate whether the added protein to a CES would improve exercise performance and cognitive function in 11 female recreational marathon runners. Participants were randomised to consume one of the three solutions (CES, CPES or PLA) every 2.5km during a 21km run, with a 28-day interval, and their VO2max and cognitive function were recorded after the run. This study showed that CES improved endurance performance compared with PLA, however adding protein to the CES did not provide any additional performance benefit. The CPES solution did benefit visual motor speed compared to PLA, but no differences were found in the other cognitive function tests.
Abstract
This study compared the effects of a carbohydrate-electrolyte-protein solution (CEPS, 2% protein plus 4% carbohydrate), carbohydrate-electrolyte solution (CES, 6% carbohydrate), and noncaloric sweetened placebo (PLA) on both 21-km running performance and cognitive function. Eleven female recreational endurance runners performed a 21-km time-trial running on three occasions, separated by at least 28 days. In a randomized cross-over design, they ingested CEPS, CES, or PLA at a rate of 150 mL every 2.5 km with no time feedback. A cognitive function test was performed before and after the run. Participants ingested approximately 24 g/h carbohydrate plus 12 g/h protein in CEPS trial, and 36 g/h carbohydrate in CES trial during each 21-km trial. Time to complete the time-trial was slightly shorter (P < 0.05) during CES (129.6 ± 8.8 min) than PLA (134.6 ± 11.5 min), with no differences between CEPS and the other two trials. The CEPS trial showed higher composite of visual motor speed than the PLA trial (P < 0.05). In conclusion, CES feedings might improve 21-km time-trial performance in female recreational runners compared with a PLA. However, adding protein to the CES provided no additional time-trial performance benefit. CEPS feeding during prolonged exercise could benefit visual motor speed compared to PLA alone, but no differences in the performance of the other cognitive function tests were found.