This study is aimed at developing a cardiac rehabilitation program and enlightening the effects of the program on patient's health behavior compliance, cardiovascular functional capacity, and quality of life. Using a quasi-experimental approach the nonequivalent control group pretest - posttest design was accepted for this study. The subjects of this study consisted of 55 patients with ischemic heart disease at the Cardiac Center of 'G' Hospital located in Inchon from May 1, 1998 to April 30, 1999. The patients were divided into two groups: the experimental group, which participated in the cardiac program with 30 patients and 25 patients of a control group were not involved in the program. There were two phases in the cardiac rehabilitation program: the first phase was a team approach education. It focused on reducing the risk of ischemic heart problems. The second phase was individual training by using a home based exercise program, which was comprised of 8 weeks, three sessions per week, 40-60 minutes per session, and followed by consultation. Every session involved 20-40 minutes of aerobic exercise at 40-60% of heart rate reserve, 11~13 RPE and 10 minutes of warm-up and 10 minutes of cool-down exercises. The experimental tools for the study were the health behavior compliance scale developed by Lee, Yoon-hee (1992), and quality of life scale developed by McGirr et al.(1990). RPPsubmax were measured by the treadmill. The collected data was processed by SPSS and analyzed by X2test and t-test. The results of this study were as follows: 1. The health behavior compliance in experimental group was significantly increased (t=5.091, p=.000) when compared to the control group. 2. RPPsubmax also decreased significantly in the experimental group when compared to the control group(t=-2.109, p=.040). 3. The quality of life significantly improved in the experimental group (t=3.853, p=.000) as compared to the control group. As the above results of this study revealed, the effectiveness of the cardiac rehabilitation program of the study was confirmed. It increased the health behavior compliance for reducing the risk of further coronary events, enhanced the cardiovascular functional capacity, and eventually improved the patient's quality of life.
Compliance* ; Cool-Down Exercise ; Education ; Exercise ; Health Behavior* ; Heart ; Heart Rate ; Humans ; Incheon ; Myocardial Ischemia* ; Quality of Life* ; Rehabilitation*

This study is aimed at developing a cardiac rehabilitation program and enlightening the effects of the program on patient's health behavior compliance, cardiovascular functional capacity, and quality of life. Using a quasi-experimental approach the nonequivalent control group pretest - posttest design was accepted for this study. The subjects of this study consisted of 55 patients with ischemic heart disease at the Cardiac Center of 'G' Hospital located in Inchon from May 1, 1998 to April 30, 1999. The patients were divided into two groups: the experimental group, which participated in the cardiac program with 30 patients and 25 patients of a control group were not involved in the program. There were two phases in the cardiac rehabilitation program: the first phase was a team approach education. It focused on reducing the risk of ischemic heart problems. The second phase was individual training by using a home based exercise program, which was comprised of 8 weeks, three sessions per week, 40-60 minutes per session, and followed by consultation. Every session involved 20-40 minutes of aerobic exercise at 40-60% of heart rate reserve, 11~13 RPE and 10 minutes of warm-up and 10 minutes of cool-down exercises. The experimental tools for the study were the health behavior compliance scale developed by Lee, Yoon-hee (1992), and quality of life scale developed by McGirr et al.(1990). RPPsubmax were measured by the treadmill. The collected data was processed by SPSS and analyzed by X2test and t-test. The results of this study were as follows: 1. The health behavior compliance in experimental group was significantly increased (t=5.091, p=.000) when compared to the control group. 2. RPPsubmax also decreased significantly in the experimental group when compared to the control group(t=-2.109, p=.040). 3. The quality of life significantly improved in the experimental group (t=3.853, p=.000) as compared to the control group. As the above results of this study revealed, the effectiveness of the cardiac rehabilitation program of the study was confirmed. It increased the health behavior compliance for reducing the risk of further coronary events, enhanced the cardiovascular functional capacity, and eventually improved the patient's quality of life.
Compliance* ; Cool-Down Exercise ; Education ; Exercise ; Health Behavior* ; Heart ; Heart Rate ; Humans ; Incheon ; Myocardial Ischemia* ; Quality of Life* ; Rehabilitation*

PURPOSE: Generally, patients with stroke present with decreased balance and increased spasticity following weakness of the paralyzed muscles. Muscle weakness caused by stroke has two causes. This is caused by a decrease in motor output and an adaptive muscle change, resulting in muscle weakness and muscle paralysis. The purpose of this study was to investigate the effect of strengthening exercise on balance and spasticity in chronic stroke patients and to suggest the basis of clinical treatment.METHODS: Twenty subjects were divided into two groups: a lower-extremity strengthening group (experimental group) and a general physical therapy group (control group). The sliding stander equipment was used for the experimental group and a regimen of warm-up exercise, the main exercise routine, and cool-down exercise were used for the muscle strengthening exercise program. Balance and spasticity were measured before and after the training period. Balance ability was measured by the Berg balance scale, the Timed up and Go test and the weight distribution of the paralyzed muscles by the Spacebalance 3D. Spasticity was measured by the Biodex system.RESULTS: After the training periods, the experimental group showed a significant improvement in BBS, weight distribution of the paralyzed muscles, and decreased spasticity when compared to the control group (p<0.05).CONCLUSION: This study supported the hypothesis that lower-extremity strengthening exercise improves the balance and decreases the spasticity of stroke patients. If it is combined with conventional neurologic physiotherapy, it would be effective rehabilitation for stroke patients.
Cool-Down Exercise ; Humans ; Lower Extremity ; Muscle Spasticity ; Muscle Weakness ; Muscles ; Paralysis ; Rehabilitation ; Stroke ; Warm-Up Exercise

The purpose of this study was to determine the effect of walk training on leg strength, flexibility, postural stability, balance and gait in home bound elderly women. Eighteen elderly women of the experimental group aged between 70 and 90 years image who have normal vision, hearing and Romberg test. They participated in the 12 week walk training. The subjects of the experimental group practiced walk training 3 times a week for during 12 weeks. During the 40 minute workout, the subjects practiced 5 minutes of warming-up exercises, 30 minutes of conditioning exercises and 10 minutes of a cool-down exercise. The intensity for the conditioning phase was determined by subject' heart rates, which ranged from 60% to 70% of age-adjusted maximum heart rates. The body composition, leg strength, flexibility, postural stability, balance and gait were measured prior to and after the experimental treatment. The body fat, lean body mass, leg strength (ankle dorsiflexor, plantarflexor, inversor and eversir, knee flexor, extensior), flexibility (range of motion of ankle dorsiflexion, plantarflexion, inversion and eversion), and postural stability of the experimental group were significantly greater than those of the control group. Duration of standing on the right foot and that of standing on the left foot of the experimental group was greater than that of the control group. Total balance scores of the experimental group were significantly higher than those of the control group. Among 13 items for balance, the scores of experimental group in balance with eyes closes, turning balance, sternal nudge, neck turning, one leg standing balance and back extension were higher than those of the control group. Total scores of gait of the experimental group were significantly higher than those of the control group following the walking training. Scores of experimental group in step height, step length and walk stance while walking among 9 items for gait were significantly higher than those of the control group. The results suggest that walk training can improve physical fitness for prevention in home bound elderly women.
Adipose Tissue ; Aged* ; Ankle ; Body Composition ; Cool-Down Exercise ; Exercise ; Female ; Foot ; Gait ; Hearing ; Heart Rate ; Humans ; Knee ; Leg ; Neck ; Physical Fitness* ; Pliability ; Walking ; Warm-Up Exercise

Exercise and diet control are essential for the management of diabetes mellitus. Beneficial effects of exercise have been established. Exercises improve the control of glucose level, decrease cardiac risk factors and prevent type 2 diabetes mellitus. Exercise can cause hypoglycemia or hyperglycemia, cardiac attack, dehydration, foot problems and aggravation of diabetic complications. Pre-exercise medical evaluation is needed to prevent the unwanted effect of exercise. Diabetic patients who have ketonuria and high blood glucose level(more than 250mg/dL) should postpone exercise until the problems are solved. Diabetic patients should enjoy their activities and do warming up and cool down exercise. Vigorous aerobic exercise, 60~85% of maximal oxygen uptake, 20~60 minutes at a time, 3~5 times a week is recommended. Moderate aerobic exercise, 40~60% of maximal oxygen uptake, more than 30 minutes at a time, over 5 times a week is also recommended instead. Muscle strengthening exercises, 2~3 times a week should be added. To prevent hypoglycemia during exercise, the dose of insulin should be reduced. If the patient suffer from hypoglycemic symptom, he or she should take glucose immediately. Therefore diabetic patients should carry some simple carbohydrates. To prevent dehydration during exercise, proper hydration and clothes must be prepared. Wearing well fitting shoes, frequent check up for any wounds on foot are needed to prevent diabetic foot complications. Diabetic patients have the rights to have good quality of life. Regular proper exercise could improve their quality of life.
Blood Glucose ; Carbohydrates ; Cool-Down Exercise ; Dehydration ; Diabetes Complications ; Diabetes Mellitus* ; Diabetes Mellitus, Type 2 ; Diabetic Foot ; Diet ; Exercise ; Foot ; Glucose ; Human Rights ; Humans ; Hyperglycemia ; Hypoglycemia ; Insulin ; Ketosis ; Oxygen ; Quality of Life ; Risk Factors ; Shoes ; Wounds and Injuries