1.EFFECT OF EXERCISE TRAINING ON THE HEART RATE PERFORMANCE CURVE IN PATIENTS WITH CARDIOVASCULAR DISEASE
SATOSHI KUROSE ; SHINJI SATO ; MASARU IMAI ; KANAE ODA ; IZURU MASUDA ; SHINGO OTSUKI
Japanese Journal of Physical Fitness and Sports Medicine 2011;60(5):519-525
Left-ventricular dysfunction is diagnosed when the heart rate performance curve (HRPC) of patients deflects upwards during incremental exercise. The aim of this study was to investigate the effect of exercise training on the upward deflection of the HRPC in patients with cardiovascular disease.This study comprised 11 patients who had cardiovascular disease and showed an upward deflection of the HRPC. The patients underwent exercise training (aerobic training, AT intensity: 30-40 minutes, 2-3 sessions/week, and 3-month follow-up). The HRPC of the patients was measured before and after exercise training. We used a method described by Pokan for evaluating the HRPC; the performance curve (PC) index ([PC1 - PC2] × [1 + PC1 × PC2]-1) was calculated from PC1 and PC2. PC1 and PC2 refer to the heart rate response before and after the O2 pulse deflection point, respectively. The PC index indicates the following: PC > 0.1, downward deflection; -0.1 ≤ PC ≤ 0.1, linear time course; PC < -0.1, upward deflection.The PC index significantly increased after exercise training (from -0.22 ± 0.09 to -0.14 ± 0.07; p < 0.05). In addition, the HRPC of 4 patients (37%) changed in linear time course.These results suggest that an upward deflection of the HRPC in patients with cardiovascular disease may shift to a linear time course after exercise training.
2.Effects of Body Weight Reduction on Serum Irisin and Metabolic Parameters in Obese Subjects.
Yaeko FUKUSHIMA ; Satoshi KUROSE ; Hiromi SHINNO ; Ha Cao THI THU ; Nana TAKAO ; Hiromi TSUTSUMI ; Takaaki HASEGAWA ; Toshiaki NAKAJIMA ; Yutaka KIMURA
Diabetes & Metabolism Journal 2016;40(5):386-395
BACKGROUND: Irisin is a myokine implicated in lipid and glucose metabolism. The objective of this study is to examine the effect of a body weight reduction on the serum irisin level and physical indicators in obese Japanese patients without diabetes. METHODS: The subjects were 22 patients (male/female, 5/17; age, 46.1±16.0 years; body mass index [BMI], 36.9±5.0 kg/m²) who completed a 6-month body weight reduction program at our clinic. The program included diet, exercise therapy and cognitive behavioral therapy. Blood parameters, body composition, exercise tolerance, homeostasis model assessment of insulin resistance (HOMA-IR), and serum irisin were determined before and after intervention, and relationships among changes in these data were examined. RESULTS: There were significant decreases in body weight and BMI after the intervention. Irisin before the intervention was significantly positively correlated with HOMA-IR (r=0.434, P<0.05). The mean irisin level showed no significant change after the intervention in all participants. However, improvements in % body fat, subcutaneous fat area, triglycerides, and fasting glucose were significantly greater in patients with an increase in irisin compared to those with a decrease in irisin after the intervention. Patients with an increase in irisin also had significantly lower fasting insulin (9.7±4.8 vs. 16.4±8.2, P<0.05) and HOMA-IR (2.2±1.1 vs. 3.7±1.6, P<0.05) after the intervention, compared to patients with a decrease in irisin. CONCLUSION: Body weight reduction did not alter irisin levels. However, irisin may play important roles in fat and glucose metabolism and insulin resistance, and the effects of body weight reduction on irisin kinetics may be a key for obesity treatment.
Adipose Tissue
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Asian Continental Ancestry Group
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Body Composition
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Body Mass Index
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Body Weight*
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Cognitive Therapy
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Diet
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Exercise Therapy
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Exercise Tolerance
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Fasting
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Glucose
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Homeostasis
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Humans
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Insulin
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Insulin Resistance
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Kinetics
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Metabolism
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Obesity
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Subcutaneous Fat
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Triglycerides
3.Importance of Lean Muscle Maintenance to Improve Insulin Resistance by Body Weight Reduction in Female Patients with Obesity.
Yaeko FUKUSHIMA ; Satoshi KUROSE ; Hiromi SHINNO ; Ha CAO THU ; Nana TAKAO ; Hiromi TSUTSUMI ; Yutaka KIMURA
Diabetes & Metabolism Journal 2016;40(2):147-153
BACKGROUND: It has recently been suggested that skeletal muscle has an important role in insulin resistance in obesity, in addition to exercise tolerance and the fat index. The aim of this study was to identify body composition factors that contribute to improvement of insulin resistance in female patients with obesity who reduce body weight. METHODS: We studied 92 female obese patients (age 40.9±10.4 years, body mass index 33.2±4.6 kg/m2) who reduced body weight by ≥5% after an intervention program including diet, exercise therapy, and cognitive behavioral therapy. Before and after the intervention, body composition was evaluated by dual-energy X-ray absorptiometry to examine changes in skeletal muscle mass. Homeostasis model assessment of insulin resistance (HOMA-IR) was measured as an index of insulin resistance. Cardiopulmonary exercise was also performed by all patients. RESULTS: There were significant improvements in body weight (-10.3%±4.5%), exercise tolerance (anaerobic threshold oxygen uptake 9.1%±18.4%, peak oxygen uptake 11.0%±14.2%), and HOMA-IR (-20.2%±38.3%). Regarding body composition, there were significant decreases in total body fat (-19.3%±9.6%), total fat-free mass (-2.7%±4.3%), and % body fat (-10.1%±7.5%), whereas % skeletal muscle significantly increased (8.9%±7.2%). In stepwise multiple linear regression analysis with change in HOMA-IR as the dependent variable, the change in % skeletal muscle was identified as an independent predictor (β=-0.280, R2=0.068, P<0.01). CONCLUSION: Improvement of insulin resistance in female obese patients requires maintenance of skeletal muscle mass.
Absorptiometry, Photon
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Adipose Tissue
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Body Composition
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Body Mass Index
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Body Weight*
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Cognitive Therapy
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Diet
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Exercise Therapy
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Exercise Tolerance
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Female*
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Homeostasis
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Humans
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Insulin Resistance*
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Insulin*
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Linear Models
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Muscle, Skeletal
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Obesity*
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Oxygen