PURPOSE: Theoretically, glucose-6-phosphate dehydrogenase (G6PD)-deficient compared with nondeficient individuals may be less capable of performing physical activities and/or may be more vulnerable to muscle damage and oxidative stress. Therefore, the purpose of the present study was to examine the effects of a resistance muscle-damaging exercise bout on muscle function and damage, redox status in plasma, and erythrocytes and hemolysis. METHODS: Nine males with established G6PD deficiency and nine males with normal G6PD activity performed an eccentric muscle-damaging exercise protocol. Isometric torque, range of motion, delayed onset muscle soreness, and creatine kinase were measured as indices of muscle function and damage. Reduced glutathione, oxidized glutathione, thiobarbituric acid-reactive substances, protein carbonyls, catalase, uric acid, and total antioxidant capacity were measured as indices of blood redox status. Plasma hemoglobin and bilirubin were measured as indices of hemolysis. All measurements conducted before, immediately after, and 1, 2, 3, 4, and 5 d after exercise. RESULTS: All indices measured confirmed that eccentric exercise induced severe muscle damage, oxidative stress, and hemolysis, peaking at 2 and 3 d postexercise. Lower resting levels of reduced glutathione were detected in the G6PD-deficient group compared with the control group. Nevertheless, both the time course and the magnitude of the changes of the selected muscle performance, redox status (both in plasma and in erythrocytes), and hemolysis indices measured were similar between the two groups. CONCLUSIONS: The present study indicates that G6PD-deficient individuals may participate in high-intensity muscle-damaging activities, without a negative impact on muscle function, blood redox status, and hemolysis.
PURPOSE: Theoretically, glucose-6-phosphate dehydrogenase (G6PD)-deficient compared with nondeficient individuals may be less capable of performing physical activities and/or may be more vulnerable to muscle damage and oxidative stress. Therefore, the purpose of the present study was to examine the effects of a resistance muscle-damaging exercise bout on muscle function and damage, redox status in plasma, and erythrocytes and hemolysis. METHODS: Nine males with established G6PD deficiency and nine males with normal G6PD activity performed an eccentric muscle-damaging exercise protocol. Isometric torque, range of motion, delayed onset muscle soreness, and creatine kinase were measured as indices of muscle function and damage. Reduced glutathione, oxidized glutathione, thiobarbituric acid-reactive substances, protein carbonyls, catalase, uric acid, and total antioxidant capacity were measured as indices of blood redox status. Plasma hemoglobin and bilirubin were measured as indices of hemolysis. All measurements conducted before, immediately after, and 1, 2, 3, 4, and 5 d after exercise. RESULTS: All indices measured confirmed that eccentric exercise induced severe muscle damage, oxidative stress, and hemolysis, peaking at 2 and 3 d postexercise. Lower resting levels of reduced glutathione were detected in the G6PD-deficient group compared with the control group. Nevertheless, both the time course and the magnitude of the changes of the selected muscle performance, redox status (both in plasma and in erythrocytes), and hemolysis indices measured were similar between the two groups. CONCLUSIONS: The present study indicates that G6PD-deficient individuals may participate in high-intensity muscle-damaging activities, without a negative impact on muscle function, blood redox status, and hemolysis.
Authors: Magni Mohr; Dimitrios Draganidis; Athanasios Chatzinikolaou; Jose Carlos Barbero-Álvarez; Carlo Castagna; Ioannis Douroudos; Alexandra Avloniti; Alexandra Margeli; Ioannis Papassotiriou; Andreas D Flouris; Athanasios Z Jamurtas; Peter Krustrup; Ioannis G Fatouros Journal: Eur J Appl Physiol Date: 2015-09-16 Impact factor: 3.078
Authors: Christina Yfanti; Athanasios Tsiokanos; Ioannis G Fatouros; Anastasios A Theodorou; Chariklia K Deli; Yiannis Koutedakis; Athanasios Z Jamurtas Journal: J Sports Sci Med Date: 2017-08-08 Impact factor: 2.988
Authors: Marc Sim; Laura A Garvican-Lewis; Gregory R Cox; Andrew Govus; Alannah K A McKay; Trent Stellingwerff; Peter Peeling Journal: Eur J Appl Physiol Date: 2019-05-04 Impact factor: 3.078
Authors: Vassilis Paschalis; Anastasios A Theodorou; George Panayiotou; Antonios Kyparos; Dimitrios Patikas; Gerasimos V Grivas; Michalis G Nikolaidis; Ioannis S Vrabas Journal: PLoS One Date: 2013-02-21 Impact factor: 3.240