BACKGROUND:Hyperbaric oxygen,as one of the emerging means of fatigue elimination,has been increasingly valued and applied in the field of sports.However,there are fewer studies on the effect of hyperbaric oxygen intervention on fatigue elimination after high-intensity interval training shock microcycle.OBJECTIVE:To investigate the effect of hyperbaric oxygen intervention on the elimination of exercise-induced fatigue in the high-intensity interval training shock microcycle,and to study the corresponding mechanisms in terms of blood biochemical markers and metabolomics.METHODS:Twenty male college students were recruited from the Capital University of Physical Education and Sports,and randomly divided into a control group(n=10)and a hyperbaric oxygen group(n=10).Both groups underwent high-intensity interval training shock microcycle training for 2 weeks,a total of 12 sessions,with the following specific training program:warming up at 50%of the maximum heart rate for 10 minutes,and then pedaling at 90%-95%of the maximum heart rate for 4 minutes,repeating the program for 5 sessions,with a rest period of 2.5 minutes in between sessions,and finally pedaling at 50%of the maximum heart rate for 30 minutes.Subjects in the control groups recovered naturally after training,and those in the hyperbaric group recovered from training with hyperbaric oxygen,60 minutes each,at a pressure of 131.722 kPa.Blood biochemical markers and metabolomics data were analyzed and rating of perceived exertion was performed before,during and at 1 and 3 days after the experiment.Oxidative stress indicators and fatigue monitoring indicators were analyzed by Pearson correlation analysis.RESULTS AND CONCLUSION:(1)Regarding exercise-induced fatigue indicators,the control group showed varying degrees of increase in blood uric acid,creatine kinase,interleukin 6 and the rating of perceived exertion after training,while the hyperbaric oxygen group exhibited minimal changes in blood uric acid,creatine kinase,interleukin 6 and the rating of perceived exertion after training.Additionally,blood uric acid,creatine kinase,and interleukin 6 levels in the control group were significantly higher than those in the hyperbaric oxygen group at 1 day after training.(2)In the control group,superoxide dismutase levels decreased,while malondialdehyde levels increased after training.Conversely,in the hyperbaric oxygen group,superoxide dismutase levels increased,while malondialdehyde levels decreased after training.(3)Superoxide dismutase levels showed a negative correlation with blood uric acid,interleukin 6 and the rating of perceived exertion,while malondialdehyde levels exhibited a positive correlation with interleukin 6 and the rating of perceived exertion.(4)In the metabolomics analysis,significant changes were observed in the metabolic pathways of arachidonic acid metabolism and oxidative phosphorylation.Differential metabolites enriched in these pathways included arachidonic acid,prostaglandin D2,leukotriene D4,etc.To conclude,the high-intensity interval training shock microcycle induces oxidative stress,leading to exercise-induced fatigue in the body.Hyperbaric oxygen intervention can partially ameliorate oxidative stress levels and cause arachidonic acid metabolism and oxidative phosphorylation,thereby reducing oxidative damage,regulating inflammatory responses,promoting tissue repair,and alleviating exercise-induced fatigue.

BACKGROUND:Hyperbaric oxygen,as one of the emerging means of fatigue elimination,has been increasingly valued and applied in the field of sports.However,there are fewer studies on the effect of hyperbaric oxygen intervention on fatigue elimination after high-intensity interval training shock microcycle.OBJECTIVE:To investigate the effect of hyperbaric oxygen intervention on the elimination of exercise-induced fatigue in the high-intensity interval training shock microcycle,and to study the corresponding mechanisms in terms of blood biochemical markers and metabolomics.METHODS:Twenty male college students were recruited from the Capital University of Physical Education and Sports,and randomly divided into a control group(n=10)and a hyperbaric oxygen group(n=10).Both groups underwent high-intensity interval training shock microcycle training for 2 weeks,a total of 12 sessions,with the following specific training program:warming up at 50%of the maximum heart rate for 10 minutes,and then pedaling at 90%-95%of the maximum heart rate for 4 minutes,repeating the program for 5 sessions,with a rest period of 2.5 minutes in between sessions,and finally pedaling at 50%of the maximum heart rate for 30 minutes.Subjects in the control groups recovered naturally after training,and those in the hyperbaric group recovered from training with hyperbaric oxygen,60 minutes each,at a pressure of 131.722 kPa.Blood biochemical markers and metabolomics data were analyzed and rating of perceived exertion was performed before,during and at 1 and 3 days after the experiment.Oxidative stress indicators and fatigue monitoring indicators were analyzed by Pearson correlation analysis.RESULTS AND CONCLUSION:(1)Regarding exercise-induced fatigue indicators,the control group showed varying degrees of increase in blood uric acid,creatine kinase,interleukin 6 and the rating of perceived exertion after training,while the hyperbaric oxygen group exhibited minimal changes in blood uric acid,creatine kinase,interleukin 6 and the rating of perceived exertion after training.Additionally,blood uric acid,creatine kinase,and interleukin 6 levels in the control group were significantly higher than those in the hyperbaric oxygen group at 1 day after training.(2)In the control group,superoxide dismutase levels decreased,while malondialdehyde levels increased after training.Conversely,in the hyperbaric oxygen group,superoxide dismutase levels increased,while malondialdehyde levels decreased after training.(3)Superoxide dismutase levels showed a negative correlation with blood uric acid,interleukin 6 and the rating of perceived exertion,while malondialdehyde levels exhibited a positive correlation with interleukin 6 and the rating of perceived exertion.(4)In the metabolomics analysis,significant changes were observed in the metabolic pathways of arachidonic acid metabolism and oxidative phosphorylation.Differential metabolites enriched in these pathways included arachidonic acid,prostaglandin D2,leukotriene D4,etc.To conclude,the high-intensity interval training shock microcycle induces oxidative stress,leading to exercise-induced fatigue in the body.Hyperbaric oxygen intervention can partially ameliorate oxidative stress levels and cause arachidonic acid metabolism and oxidative phosphorylation,thereby reducing oxidative damage,regulating inflammatory responses,promoting tissue repair,and alleviating exercise-induced fatigue.

Osteoporosis （OP） is a systemic metabolic bone disease characterized by bone microstructure degeneration and bone mass loss， which has a high prevalence and disability rate. Effective prevention and treatment of OP is a major difficulty in the medical community. The nature of OP is that multiple pathological factors lead to the imbalance of human bone homeostasis maintained by osteoblasts and osteoclasts. Ferroptosis is a non-apoptotic cell death pathway， and its fundamental cause is cell damage caused by iron accumulation and lipid peroxidation. Studies have shown that ferroptosis is involved in and affects the occurrence and development of OP， which leads to OP by mediating the imbalance of bone homeostasis. Ferroptosis is an adjustable form of programmed cell death. The intervention of ferroptosis can regulate the damage degree and death process of osteoblasts and osteoclasts， which is beneficial to maintain bone homeostasis， slow down the development process of OP， improve the clinical symptoms of patients， reduce the risk of disability， and improve their quality of life. However， there are few studies on ferroptosis in OP. Traditional Chinese medicine （TCM） is a medical treasure with unique characteristics and great application value in China. It has been widely used in China and has a long history. It has the multi-target and multi-pathway advantages in the treatment of OP， with high safety， few toxic and side effects， and low treatment cost， and has a significant effect in clinical application. The intervention of TCM in ferroptosis to regulate bone homeostasis may be a new direction for the prevention and treatment of OP in the future. This article summarized the regulatory mechanisms related to ferroptosis， discussed the role of ferroptosis in bone homeostasis， and reviewed the current status and progress of active ingredients in TCM compounds and monomers in the regulation of OP through ferroptosis， so as to provide a theoretical basis for the participation of TCM in the prevention and treatment of OP in the future.

Objective: To investigate the effects of acupuncture and combined acupuncture and medicine on the quality of life and the genital endocrine level in postmenopausal women. Methods:Forty-seven patients were randomly assigned to acupuncture and acupuncture plus medicine groups,23 cases in the acupuncture group and 24 cases in the acupuncture plus medicine group. The observed course of treatment was 3 months. A Chinese concise SF-36 questionnaire was used to evaluate the quality of life in the different groups of patients before and after treatment.Meanwhile, radioimmunoassay was used to observe the differences in serum genital hormones:follicle stimulating hormone (FSH), luteinizing hormone (LH) and estradiol (E2) contents between pretreatment and posttreatment in both groups. Results: After treatment, there was a significant difference in quality of life between the two groups and it was better in the acupuncture plus medicine group than in the acupuncture group(P＜ 0.01). E2 content increased more markedly in the acupuncture plus medicine group than in the acupuncture group(P＜ 0.05). There were no significant differences in FSH and LH contents between the two groups (P ＞ 0. 05). Conclusion: Both acupuncture and acupuncture plus medicine can improve the quality of life and increase obviously low E2 content in postmenopausal women. Acupuncture plus medicine raises the patients' quality of life and E2 content more markedly than acupuncture. It is suggested that both acupuncture and acupuncture plus medicine can improve the symptoms, signs, and physical and mental health, raise the quality of life and ameliorate genital-endocrine environment in postmenopausal women, but a combination of acupuncture and medicine has a better effect.