ABSTRACT
High-intensity interval training (HIIT) induces vascular adaptations that might be attenuated by postexercise cold-water immersion (CWI). Circulating angiogenic cells (CAC) participate in the vascular adaptations and circulating endothelial cells (CEC) indicate endothelial damage. CAC and CEC are involved in vascular adaptation. Therefore, the aim of the study was to investigate postexercise CWI during HIIT on CAC and CEC and on muscle angiogenesis-related molecules. Seventeen male subjects performed 13 HIIT sessions followed by 15 min of passive recovery (n = 9) or CWI at 10 °C (n = 8). HIIT comprised cycling (8-12 bouts, 90%-110% peak power). The first and the thirteenth sessions were similar (8 bouts at 90% of peak power). Venous blood was drawn before exercise (baseline) and after the recovery strategy (postrecovery) in the first (pretraining) and in the thirteenth (post-training) sessions. For CAC and CEC identification lymphocyte surface markers (CD133, CD34, and VEGFR2) were used. Vastus lateralis muscle biopsies were performed pre- and post-training for protein (p-eNOSser1177) and gene (VEGF and HIF-1) expression analysis related to angiogenesis. CAC was not affected by HIIT or postexercise CWI. Postexercise CWI increased acute and baseline CEC number. Angiogenic protein and genes were not differently modulated by post-CWI. HIIT followed by either recovery strategy did not alter CAC number. Postexercise CWI increased a marker of endothelial damage both acutely and chronically, suggesting that this postexercise recovery strategy might cause endothelial damage. Novelty HIIT followed by CWI did not alter CAC. HIIT followed by CWI increased CEC. Postexercise CWI might cause endothelial damage.
Subject(s)
Blood Cells/physiology , Cold Temperature , Endothelial Cells , High-Intensity Interval Training , Immersion , Adult , Angiogenic Proteins/analysis , Endothelial Cells/cytology , Endothelial Cells/physiology , Humans , Male , Quadriceps Muscle/physiology , Water , Young AdultABSTRACT
This study aims to evaluate the effect of regular post-exercise cold water immersion (CWI) on intramuscular markers of cellular stress response and signaling molecules related to mitochondria biogenesis and exercise performance after 4 weeks of high intensity interval training (HIIT). Seventeen healthy subjects were allocated into two groups: control (CON, n = 9) or CWI (n = 8). Each HIIT session consisted of 8-12 cycling exercise stimuli (90-110 % of peak power) for 60 s followed by 75 s of active recovery three times per week, for 4 weeks (12 HIIT sessions). After each HIIT session, the CWI had their lower limbs immersed in cold water (10 °C) for 15 min and the CON recovered at room temperature. Exercise performance was evaluated before and after HIIT by a 15-km cycling time trial. Vastus lateralis biopsies were obtained pre and 72 h post training. Samples were analyzed for heat shock protein 72 kDa (Hsp72), adenosine monophosphate-activated protein kinase (AMPK), and phosphorylated p38 mitogen-activated protein kinase (p-p38 MAPK) assessed by western blot. In addition, the mRNA expression of heat shock factor-1 (HSF-1), peroxisome proliferator-activated receptor gamma coactivator-1α (PGC-1α), nuclear respiratory factor 1 and 2 (NRF1 and 2), mitochondrial transcription factor A (Tfam), calcium calmodulin-dependent protein kinase 2 (CaMK2) and enzymes citrate synthase (CS), carnitine palmitoyltransferase I (CPT1), and pyruvate dehydrogenase kinase (PDK4) were assessed by real-time PCR. Time to complete the 15-km cycling time trial was reduced with training (p < 0.001), but was not different between groups (p = 0.33). The Hsp72 (p = 0.01), p38 MAPK, and AMPK (p = 0.04) contents increased with training, but were not different between groups (p > 0.05). No differences were observed with training or condition for mRNA expression of PGC-1α (p = 0.31), CPT1 (p = 0.14), CS (p = 0.44), and NRF-2 (p = 0.82). However, HFS-1 (p = 0.007), PDK4 (p = 0.03), and Tfam (p = 0.03) mRNA were higher in CWI. NRF-1 decrease in both groups after training (p = 0.006). CaMK2 decreased with HIIT (p = 0.003) but it was not affected by CWI (p = 0.99). Cold water immersion does not alter HIIT-induced Hsp72, AMPK, p38 MAPK, and exercise performance but was able to increase some markers of cellular stress response and signaling molecules related to mitochondria biogenesis.
Subject(s)
HSP72 Heat-Shock Proteins/metabolism , Muscle, Skeletal/metabolism , Adaptation, Physiological , Adult , Biomarkers/metabolism , Cold Temperature , High-Intensity Interval Training , Humans , Male , Mitochondria, Muscle/metabolism , Mitochondrial Proteins/metabolism , Physical Conditioning, Human , Young AdultABSTRACT
INTRODUÇÃO: A doença renal crônica consiste na perda lenta, progressiva e irreversível da função renal. É considerada um problema social e economico, pois está relacionada a inúmeras doenças associadas, bem como a altos gastos em saúde pública. Sabe-se que os pacientes dialíticos passam por longos períodos de restrição da atividade física repercutindo em disfungoes nos mais diversos sistemas e na qualidade de vida (QV). OBJETIVO: Verificar os efeitos de uma intervenção fisioterapêutica nos pacientes em hemodiálise para: função da musculatura respiratória, força de preensão manual e QV. METODOLOGIA: Estudo experimental, não randomizado, quantitativo e qualitativo; amostra de 13 pacientes, 43,69 ± 9,28 anos, submetidos à hemodiálise na Santa Casa de Diamantina/MG, selecionados por conveniência. Todos realizaram avaliação das pressões respiratórias máximas (PImáx e PEmáx) e do pico de fluxo expiratório (PFE), antes e após a fisioterapia que consistiu de três sessões semanais, durante 2 meses de: exercícios para membros superiores, com técnica de FNP e respiração diafragmática; exercícios de fortalecimento para membros inferiores e exercícios com bola exercitadora para preensão manual. O tratamento estatístico foi realizado através do teste t de Student com valor de significância em p < 0,05. RESULTADOS: As médias respectivamente das variáveis pré- e pós-intervenção foram PI , (97,69 ± 28,3 cmH2O e 98,46 ± 23,399ªdriH2O) p = 0,93; PEmáx (83,07 ± 31,19 cmH2O e 88,46 ± 14,05 cmH2O) p = 0,46 e PFE (375,38 ± 75,23 L/min e 416,15 ± 57,37 L/min) p = 0,02. A media do dinamometro pré-intervenção: 57,23 ± 17,39 kgf e pósintervenção: 56,61 ± 16,09 kgf. No SF-36, que avalia QV, observou-se melhora dos oito domínios, exceto do item 'vitalidade'. De todas as variáveis mensuradas, somente o PFE mostrou-se estatisticamente significante. CONCLUSÃO: O protocolo fisioterapêutico proposto não promoveu melhoras expressivas, do ponto de vista estatístico, nas variáveis analisadas em pacientes submetidos à hemodiálise, justificando-se em parte ao número pequeno da amostra, tempo do protocolo e intervenções propostas.
INTRODUCTION: Chronic kidney disease consists in the slow, progressive and irreversible loss in renal function and it is considered a social and economic problem worldwide, since it is linked to numerous diseases, as well as to higher public health spending. It is known that dialysis patients undergo a long period of restricted physical activity reflects in dysfunctions in various organical systems and in the quality of their lives. OBJECTIVE: To verify the results of physical therapy intervention in patients on hemodialysis, for respiratory muscle function, grip strength and quality of life. METHODOLOGY: Experimental, nonrandomized, quantitative and qualitative of a sample of 13 patients, 43.69 ± 9.28 years, on hemodialysis in the hospital Santa Casa de Diamantina/MG, selected by convenience. All patients were evaluated for maximal respiratory pressures (PImax e PEmax ) and peak expiratory flow (PFE), before and after physiotherapy, which consisted of 3 sessions per week for a period of 2 months weeks: exercises for upper limbs, with technique PNF and breathing diaphragmatic; strengthening exercises for lower limbs and use of exerciser ball. Statistical analysis was performed using the student-t test and significance value at p < 0.05. RESULTS: Respective means for the variables before and after intervention were: PImáx (97.69 ± 28.3 cmH2O e 98.46 ± 23.39 cmH2O) p = 0.93; PEmáx (83.07 ± 31.19 cmH2O e 88.46 ± 14.0 cmH2O) p = 0.46 e PF (375.38 ± 75.23 L/min e 416.15 ± 57.37 L/min) p = 0.02. The dynamometer average pre intervention was: 57.23 ± 17.39 kgf and post intervention: 56.61 ± 16.09 kgf. In the SF-36, which evaluates the quality of life, improvement was observed in the eight domains, except the item 'vitality'. Of all the variables measured only the PFE was statistically significant. CONCLUSION: The proposed physical therapy protocol did not promote significant improvements in those variables, the statistical point, explaining in part the small sample size, time of protocol and proposed interventions.
Subject(s)
Adult , Female , Humans , Male , Middle Aged , Young Adult , Hand Strength , Kidney Diseases/physiopathology , Kidney Diseases/therapy , Physical Therapy Modalities , Quality of Life , Renal Dialysis , Respiratory Muscles/physiopathology , Chronic Disease , Clinical Protocols , Surveys and QuestionnairesABSTRACT
INTRODUCTION: Chronic kidney disease consists in the slow, progressive and irreversible loss in renal function and it is considered a social and economic problem worldwide, since it is linked to numerous diseases, as well as to higher public health spending. It is known that dialysis patients undergo a long period of restricted physical activity reflects in dysfunctions in various organical systems and in the quality of their lives. OBJECTIVE: To verify the results of physical therapy intervention in patients on hemodialysis, for respiratory muscle function, grip strength and quality of life. METHODOLOGY: Experimental, nonrandomized, quantitative and qualitative of a sample of 13 patients, 43.69 ± 9.28 years, on hemodialysis in the hospital Santa Casa de Diamantina/MG, selected by convenience. All patients were evaluated for maximal respiratory pressures (PI(max) e PE(max) ) and peak expiratory flow (PFE), before and after physiotherapy, which consisted of 3 sessions per week for a period of 2 months weeks: exercises for upper limbs, with technique PNF and breathing diaphragmatic; strengthening exercises for lower limbs and use of exerciser ball. Statistical analysis was performed using the student-t test and significance value at p < 0.05. RESULTS: Respective means for the variables before and after intervention were: PImáx (97.69 ± 28.3 cmH2O e 98.46 ± 23.39 cmH2O) p = 0.93; PEmáx (83.07 ± 31.19 cmH(2)O e 88.46 ± 14.0 cmH(2)O) p = 0.46 e PF (375.38 ± 75.23 L/min e 416.15 ± 57.37 L/min) p = 0.02. The dynamometer average pre intervention was: 57.23 ± 17.39 kgf and post intervention: 56.61 ± 16.09 kgf. In the SF-36, which evaluates the quality of life, improvement was observed in the eight domains, except the item 'vitality'. Of all the variables measured only the PFE was statistically significant. CONCLUSION: The proposed physical therapy protocol did not promote significant improvements in those variables, the statistical point, explaining in part the small sample size, time of protocol and proposed interventions.