scholarly journals Effects of hyperbaric environment on endurance and metabolism are exposure time-dependent in well-trained mice

2020 ◽  
Author(s):  
Junichi Suzuki

AbstractHyperbaric exposure (1.3 atmospheres absolute with 20.9% O2) for 1 h a day was shown to improve exercise capacity. The present study was designed to reveal whether the daily exposure time affects exercise performance and metabolism in skeletal and cardiac muscles. Male mice in the training group were housed in a cage with a wheel activity device for 7 weeks from 5 weeks old. Trained mice were then subjected to hybrid training (HT, endurance exercise for 30 min followed by sprint interval exercise for 30 min). Hyperbaric exposure was applied following daily HT for 15 min (15HT), 30 min (30HT), or 60 min (60HT) for 4 weeks (each group, n = 10). In the endurance capacity test, maximal work values were significantly increased by 30HT and 60HT. In the left ventricle (LV), activity levels of 3-hydroxyacyl-CoA-dehydrogenase, citrate synthase, and carnitine palmitoyl transferase (CPT) 2 were significantly increased by 60HT. CPT2 activity levels were markedly increased by 60HT in the plantaris muscle (PL). Pyruvate dehydrogenase complex (PDHc) activity values in PL were enhanced more by 30HT and 60HT than by HT. In both 30HT and 60HT groups, lactate dehydrogenase activity levels were significantly increased and decreased, respectively, in the gastrocnemius muscle and LV. These results indicate that hyperbaric exposure for 30 min or longer has beneficial effects on endurance, and 60-min exposure has the potential to further increase performance by facilitating fatty acid metabolism in skeletal and cardiac muscles in highly-trained mice.

2005 ◽  
Vol 98 (6) ◽  
pp. 1985-1990 ◽  
Author(s):  
Kirsten A. Burgomaster ◽  
Scott C. Hughes ◽  
George J. F. Heigenhauser ◽  
Suzanne N. Bradwell ◽  
Martin J. Gibala

Parra et al. ( Acta Physiol. Scand 169: 157–165, 2000) showed that 2 wk of daily sprint interval training (SIT) increased citrate synthase (CS) maximal activity but did not change “anaerobic” work capacity, possibly because of chronic fatigue induced by daily training. The effect of fewer SIT sessions on muscle oxidative potential is unknown, and aside from changes in peak oxygen uptake (V̇o2 peak), no study has examined the effect of SIT on “aerobic” exercise capacity. We tested the hypothesis that six sessions of SIT, performed over 2 wk with 1–2 days rest between sessions to promote recovery, would increase CS maximal activity and endurance capacity during cycling at ∼80% V̇o2 peak. Eight recreationally active subjects [age = 22 ± 1 yr; V̇o2 peak = 45 ± 3 ml·kg−1·min−1 (mean ± SE)] were studied before and 3 days after SIT. Each training session consisted of four to seven “all-out” 30-s Wingate tests with 4 min of recovery. After SIT, CS maximal activity increased by 38% (5.5 ± 1.0 vs. 4.0 ± 0.7 mmol·kg protein−1·h−1) and resting muscle glycogen content increased by 26% (614 ± 39 vs. 489 ± 57 mmol/kg dry wt) (both P < 0.05). Most strikingly, cycle endurance capacity increased by 100% after SIT (51 ± 11 vs. 26 ± 5 min; P < 0.05), despite no change in V̇o2 peak. The coefficient of variation for the cycle test was 12.0%, and a control group ( n = 8) showed no change in performance when tested ∼2 wk apart without SIT. We conclude that short sprint interval training (∼15 min of intense exercise over 2 wk) increased muscle oxidative potential and doubled endurance capacity during intense aerobic cycling in recreationally active individuals.


2020 ◽  
Vol 41 (Supplement_2) ◽  
Author(s):  
O Trubnikova ◽  
I Tarasova ◽  
E Moskin ◽  
Y Argunova ◽  
D Kupriyanova ◽  
...  

Abstract Background and aim The cardiac surgery patients have an increased risk of postoperative cognitive dysfunction (POCD). The positive healing effects of physical exercise was demonstrated early in patients with cognitive impairment. The aim of the study was to evaluate the effect of physical preoperative and postoperative training for the cognitive function in patients undergoing on-pump coronary artery bypass grafting (CABG). Methods We analyzed the neurophysiological data from 125 male coronary artery disease (CAD) patients who participated in two sub-studies: the patients with a short preoperative course of treadmill training (n=33) and with postoperative aerobic exercise training (n=92). The study of preoperative physical training included CABG-candidates, which were divided into 2 groups: with (n=17) and without training (n=16). The preoperative physical training consisted of a 5–7 day course of intensive training on a treadmill. The study with postoperative aerobic exercise training enrolled CAD patients, undergoing on-pump CABG, which were divided into 2 groups: with supervised cycling training (n=39) and without training (n=53). Three-week trainings course began on the 14-th day after CABG. The patients with and without preoperative and postoperative physical training were comparable in terms of preoperative characteristics and intraoperative parameters. The patients were underwent the neuropsychological and EEG examination to assess postoperative changes in neurophysiological performance. Results The patients with preoperative treadmill training had the POCD incidence at 7–10 days after GABG in 44% cases vs. 74% - in the group without training. The relative risk of POCD developing in the patients with preoperative training was: OR=0.24, 95% CI: 0.07–0.81, Z=2.297, p=0.02. Additionally, the patients with preoperative training demonstrated a lower power in the theta (4–6 Hz) and beta1 (13–20 Hz) frequency ranges 7–10 days after CABG. The patients with postoperative cycling training also demonstrated better cognitive function at 1 month after CABG compared to the patients without training. The incidence of POCD was 21% in the cycling training group vs. 44% – in the group without training. The relative risk of POCD developing was: OR=0.23, 95% CI: 0.09–0.60, Z=3.041, p=0.0024. Also, it was found that the postoperative cycling training group showed a lower percentage theta power increase at 1 month after CABG. Conclusion Both the short preoperative and three-week postoperative physical training course can produce beneficial effects on the postoperative neurophysiological status in CABG patients. The engagement of physical training in the rehabilitation program of CABG patients can improve cognitive functioning after cardiac surgery. Funding Acknowledgement Type of funding source: Foundation. Main funding source(s): RFBR and Kemerovskaya region


1995 ◽  
Vol 269 (1) ◽  
pp. R64-R72 ◽  
Author(s):  
C. M. Bishop ◽  
P. J. Butler ◽  
S. Egginton ◽  
A. J. el Haj ◽  
G. W. Gabrielsen

Preflight development of the goslings was typified by rapid increases in the mitochondrial enzymes of the semimembranosus and heart ventricular muscles resulting in near-adult values by 3 wk of age. In contrast, aerobic capacity of the pectoralis muscle initially developed slowly but showed a rapid increase between 5 and 7 wk of age, in preparation for becoming airborne. Activities of glycolytic enzymes in the pectoralis muscle showed similar patterns of development as those found for the aerobic enzymes, except for hexokinase, which was low at all ages, indicating an adaptation for catabolism of both intracellular glycogen and plasma fatty acids in preference to plasma glucose. Muscle mass specific activity of citrate synthase in the pectoralis increased by only 33% from goslings during the first few days of flight, compared with premigratory geese. Activities of anaerobic glycolytic enzymes in the ventricles were low, but values for hexokinase, which is involved in the phosphorylation of plasma glucose, developed rapidly. Values for lactate dehydrogenase were also high, reflecting the capacity of the heart to catabolize plasma lactate. Substrate flux supplied by carnitine palmitoyltransferase and oxoglutarate dehydrogenase (OGD), in the pectoralis muscles of the premigratory geese, appears to have the smallest excess capacities to meet the requirements of sustained aerobic flight. The average maximum oxygen uptake for premigratory geese during flight, as indicated by values for OGD, is calculated to be 484 ml O2/min (or 208 ml O2.min-1.kg-1).


2014 ◽  
Vol 94 (4) ◽  
pp. 499-510 ◽  
Author(s):  
Nicole E. Andrews ◽  
Jenny Strong ◽  
Pamela J. Meredith ◽  
Rachel G. D'Arrigo

BackgroundIndividuals with chronic pain consider improved sleep to be one of the most important outcomes of treatment. Physical activity has been shown to have beneficial effects on sleep in the general population. Despite these findings, the physical activity–sleep relationship has not been directly examined in a sample of people with chronic pain.ObjectiveThis study aimed to examine the association between objective daytime physical activity and subsequent objective sleep for individuals with chronic pain while controlling for pain and psychosocial variables.DesignAn observational, prospective, within-person study design was used.MethodsA clinical sample of 50 adults with chronic pain was recruited. Participation involved completing a demographic questionnaire followed by 5 days of data collection. Over this period, participants wore a triaxial accelerometer to monitor their daytime activity and sleep. Participants also carried a handheld computer that administered a questionnaire measuring pain, mood, catastrophizing, and stress 6 times throughout the day.ResultsThe results demonstrated that higher fluctuations in daytime activity significantly predicted shorter sleep duration. Furthermore, higher mean daytime activity levels and a greater number of pain sites contributed significantly to the prediction of longer periods of wakefulness at night.LimitationsThe small sample size used in this study limits the generalizability of the findings. Missing data may have led to overestimations or underestimations of effect sizes, and additional factors that may be associated with sleep (eg, medication usage, environmental factors) were not measured.ConclusionsThe results of this study suggest that engagement in high-intensity activity and high fluctuations in activity are associated with poorer sleep at night; hence, activity modulation may be a key treatment strategy to address sleep complaints in individuals with chronic pain.


2020 ◽  
Author(s):  
Ali osali ◽  
Alireza Rostami

Abstract BackgroundThe purpose of this study was to investigate the effect of 12 months of aerobic exercise combining stachys lavandulifolia (S. lavandulifolia) consumption on anxiety, Metabolic Syndrome profiles and antioxidant defense (Glutathione) and lipid peroxidation (Malondialdehyde) in 50-65 years old women with syndrome metabolic.Methods48 women with syndrome Metabolic were randomly divided into four groups: exercise (n=12), exercise+S. lavandulifolia (n=12), S. lavandulifolia (n=12) and control group (n=12). S. lavandulifolia groups consumed 3 g aerial parts of S. lavandulifolia daily. Training groups performed an exercise protocol of aerobic exercise for 12 months (three sessions per week). Blood samples were obtained before and after training period for antioxidant indicators and lipid degradation measurement. Also, Beck anxiety questionnaire used for evaluating levels of anxiety. T-test and one-way analysis of variance were used for the evaluation of within-group and between-group differences, respectively.ResultsA significant increase was observed in serum levels of Malondialdehyde (P =0.004), Catalase indexes (Pvalue= 0.01), and Glutathione (P=0.001) in the training group and S. lavandulifolia groups after 12 months. Body weight, BMI, and SBP and Anexiety was decreased significantly greater in exercise +S. lavandulifolia group compared to control, exercise and S. lavandulifolia groups (P=0.001)ConclusionAnxiolytic effect and Anti-Oxidative Stress Activity was seen, so taking S. lavandulifolia along with exercises may have beneficial effects on reinforcement the antioxidant system and prevention of anxiety and The negative effects of indicators related to cardiovascular disease in women with metabolic syndrome.


Author(s):  
Mostafa Farhadi ◽  
Hasan Homaee ◽  
Parvin Farzanegi Arkhazlou

Objective: The beneficial effects of exercise and ginger extract have been reported to improve obesity-related indicators. The aim of this study was to evaluate the effect of aerobic training and ginger extract on lipid profiles, body composition and selected liver enzymes in obese menopausal women. Materials and Methods: In this semi-experimental trial, 48 obese menopause women (age; 53-58 yr) were randomly divided into 4 groups including control, ginger extract, aerobic training and aerobic training -ginger extract. Aerobic training was performed 3 sessions a week, 60 minutes, with 50-70% maximum heart rate and for 24 weeks. The subjects consumed ginger extract three times a day in 500 mg capsule for 24 weeks. For analyzing the data, twoway ANOVA and Tukey's post hoc test was used with SPSS–23 and the significance level was P-value≤ 0.05. Results: The results showed that 12 and 24 weeks of training, ginger and ginger - training significantly decreased ALT and AST in obese menopausal women (P-value= 0.001). Also, 12- and 24- weeks’ ginger- training resulted to improve of body composition and lipid profile in obese menopausal women (P-value= 0.001). Conclusion: According to the findings, regular aerobic training and ginger supplementation have a beneficial effect on body composition and improvement of some liver enzymes and lipid profiles in obese menopausal women. These changes were higher in the Ginger-training group after six months of intervention.


PLoS ONE ◽  
2021 ◽  
Vol 16 (2) ◽  
pp. e0247039
Author(s):  
Viviana Aya ◽  
Alberto Flórez ◽  
Luis Perez ◽  
Juan David Ramírez

Introduction The intestinal microbiota comprises bacteria, fungi, archaea, protists, helminths and viruses that symbiotically inhabit the digestive system. To date, research has provided limited data on the possible association between an active lifestyle and a healthy composition of human microbiota. This review was aimed to summarize the results of human studies comparing the microbiome of healthy individuals with different physical activity amounts. Methods We searched Medline/Ovid, NIH/PubMed, and Academic Search Complete between August–October 2020. Inclusion criteria comprised: (a) cross-sectional studies focused on comparing gut microbiome among subjects with different physical activity levels; (b) studies describing human gut microbiome responses to any type of exercise stimulus; (c) studies containing healthy adult women and men. We excluded studies containing diet modifications, probiotic or prebiotic consumption, as well as studies focused on diabetes, hypertension, cancer, hormonal dysfunction. Methodological quality and risk of bias for each study were assessed using the Risk Of Bias In Non-randomized Studies—of Interventions tool. The results from cross-sectional and longitudinal studies are shown independently. Results A total of 17 articles were eligible for inclusion: ten cross-sectional and seven longitudinal studies. Main outcomes vary significantly according to physical activity amounts in longitudinal studies. We identified discrete changes in diversity indexes and relative abundance of certain bacteria in active people. Conclusion As literature in this field is rapidly growing, it is important that studies incorporate diverse methods to evaluate other aspects related to active lifestyles such as sleep and dietary patterns. Exploration of other groups such as viruses, archaea and parasites may lead to a better understanding of gut microbiota adaptation to physical activity and sports and its potentially beneficial effects on host metabolism and endurance.


Author(s):  
Mark Hargreaves

Since ancient times, the health benefits of regular physical activity/exercise have been recognised and the classic studies of Morris and Paffenbarger provided the epidemiological evidence in support of such an association. Cardiorespiratory fitness, often measured by maximal oxygen uptake, and habitual physical activity levels are inversely related to mortality. Thus, studies exploring the biological bases of the health benefits of exercise have largely focused on the cardiovascular system and skeletal muscle (mass and metabolism), although there is increasing evidence that multiple tissues and organ systems are influenced by regular exercise. Communication between contracting skeletal muscle and multiple organs has been implicated in exercise benefits, as indeed has other inter-organ "cross-talk". The application of molecular biology techniques and 'omics' approaches to questions in exercise biology has opened new lines of investigation to better understand the beneficial effects of exercise and, in so doing, inform the optimisation of exercise regimens and the identification of novel therapeutic strategies to enhance health and well-being.


Author(s):  
Stefano Palermi ◽  
Olimpia Iacono ◽  
Felice Sirico ◽  
Michele Modestino ◽  
Carlo Ruosi ◽  
...  

Abstract Diabetes mellitus (DM) is a widespread condition, representing a challenging disease to manage. Exercise is being increasingly recommended as part of the therapeutic regimen for DM but the management of different forms of physical activity is difficult for individuals with diabetes, trainers, and physicians. Regular exercise can improve health and well-being, helping individuals to achieve their target lipid profile, body composition, cardio-respiratory fitness, and glycemic goals. People with diabetes tend to be as inactive as the general population, with a large percentage of individuals not achieving the minimum amount of recommended physical activity levels. Indeed, several barriers to exercise exist for persons with diabetes, including sports eligibility, multi-modality management of diabetic athletes, and inadequate knowledge about adequate type and intensity of exercise. The aim of the present review is to provide the current understanding of mechanisms, recommendations, and beneficial effects of different modalities of exercise for the treatment of DM.


2019 ◽  
Vol 2019 ◽  
pp. 1-9 ◽  
Author(s):  
Kalee L. Larsen ◽  
Lorrie R. Brilla ◽  
Wren L. McLaughlin ◽  
Ying Li

This study evaluated the effect of a six-week deep slow breathing (DSB) program on pain, physical function, and heart rate variability (HRV) in subjects with lower extremity joint pain. Twenty subjects were assigned into training (n = 10) and control (n = 10) groups. The training group participated in a six-week DSB program consisting of weekly training sessions and at-home breathing exercises. DSB exercises focused on prolonging the exhalation and the pause following exhalation. The Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC) was used to assess pain and physical function, and HRV data were obtained before and after intervention. Results revealed no significant interactions between group and time for any of the variables. There was no significant main effect for group, but there was a significant main effect (p<0.025) and a large effect size for time on both pain (ηp2 = 0.454) and physical function (ηp2 = 0.506). There were no significant main effects (p>0.017) for group and time on LF power (group ηp2 = 0.039, time ηp2 = 0.061), HF power (group ηp2 = 0.039, time ηp2 = 0.039), and LF/HF ratio (group ηp2 = 0.036, time ηp2 = 0.169). Results indicated that the six-week DSB program was not sufficient to alleviate pain or improve physical function in subjects with lower extremity joint pain. Although the pain was not alleviated, other beneficial effects such as better coping with the pain were reported in the majority of training subjects. As this is the first study to examine the use of DSB for lower extremity joint pain and dysfunction, further research is needed to investigate the efficacy and applicability of DSB.


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