연구배경 : 장기적 흡연이 폐암이나 만성폐쇄성폐질환등의 폐질환 및 여러 심장질환의 위험인자인 것은 잘 알려져 있으나 흡연이 단기적으로 운동시 호흡기 및 심혈관계 기능에 어떠한 영향을 미치는지에 대한 연구는 많지 않다. 흡연시에는 일산화탄소를 흡입하으로, 일산화탄소 흡입후 운동시에 나타나는 호흡수, 심박수, 호흡량 및 심장출량의 증가와 최대산소섭취량의 감소가 흡연후 운동시에도 관찰될 것으로 예상된다. 목적 : 흡연의 운동부하시 심폐기능에 대한 단기적 효과를 알아보고자 하였다. 방법 : 흡연자 13명을 대상으로 시간당 3개피를 5시간 흡연한 흡연일 및 흡연하지 않고 100% 산소를 15분간 흡입한 금연일을 무작위 순서로 정하여 두 번 단계적 운동부하 검사를 시행하였다. 결과 : 대상자 13명의 평균 연령은 $25{\pm}4.9$세, 평균 흡연력은 $6{\pm}5$ pack-years였고, 금연일과 흡연일간 일반 폐기능검사의 결과에는 차이가 없었다. 혈중 일산화 탄소혈색소량의 평균은 금연일 $1.45{\pm}0.83%$, 흡연일에 $5.97{\pm}1.34%$로서 흡연일에 유의하게 높았다(p<0.01). 무산소역치는 금연일 $1.53{\pm}0.20$ L/min, 흡연일에 $1.33{\pm}0.24$ L/min로서 흡연일에 유의하게 낮았으며(p<0.05) 최대산소섭취량은 금연일 $2.39{\pm}0.32$ L/min, 흡연일에 $2.09{\pm}0.32$ L/min로서 흡연일에 유의하게 낮았다(p<0.05). 안정시 심박수는 금연일에 분당 $75.46{\pm}5.83$회, 흡연일에 분당 $84.38{\pm}11.06$회로서 흡연일에 유의하게 높았으나(p<0.05) 최대심박수는 금연일에 $160.38{\pm}9.09$회, 흡연일에 $161.23{\pm}8.09$회로서 차이가 없었다. 결론 : 일반 폐기능검사는 양일간에 차이가 없었으나 금연일에 비해 흡연일에 무산소역치와 최대산소섭취량의 감소가 관찰되어 흡연은 단기적으로 운동부하시 심혈관계장애를 초래한다고 사료되었다.
연구배경 : 장기적 흡연이 폐암이나 만성폐쇄성폐질환등의 폐질환 및 여러 심장질환의 위험인자인 것은 잘 알려져 있으나 흡연이 단기적으로 운동시 호흡기 및 심혈관계 기능에 어떠한 영향을 미치는지에 대한 연구는 많지 않다. 흡연시에는 일산화탄소를 흡입하으로, 일산화탄소 흡입후 운동시에 나타나는 호흡수, 심박수, 호흡량 및 심장출량의 증가와 최대산소섭취량의 감소가 흡연후 운동시에도 관찰될 것으로 예상된다. 목적 : 흡연의 운동부하시 심폐기능에 대한 단기적 효과를 알아보고자 하였다. 방법 : 흡연자 13명을 대상으로 시간당 3개피를 5시간 흡연한 흡연일 및 흡연하지 않고 100% 산소를 15분간 흡입한 금연일을 무작위 순서로 정하여 두 번 단계적 운동부하 검사를 시행하였다. 결과 : 대상자 13명의 평균 연령은 $25{\pm}4.9$세, 평균 흡연력은 $6{\pm}5$ pack-years였고, 금연일과 흡연일간 일반 폐기능검사의 결과에는 차이가 없었다. 혈중 일산화 탄소혈색소량의 평균은 금연일 $1.45{\pm}0.83%$, 흡연일에 $5.97{\pm}1.34%$로서 흡연일에 유의하게 높았다(p<0.01). 무산소역치는 금연일 $1.53{\pm}0.20$ L/min, 흡연일에 $1.33{\pm}0.24$ L/min로서 흡연일에 유의하게 낮았으며(p<0.05) 최대산소섭취량은 금연일 $2.39{\pm}0.32$ L/min, 흡연일에 $2.09{\pm}0.32$ L/min로서 흡연일에 유의하게 낮았다(p<0.05). 안정시 심박수는 금연일에 분당 $75.46{\pm}5.83$회, 흡연일에 분당 $84.38{\pm}11.06$회로서 흡연일에 유의하게 높았으나(p<0.05) 최대심박수는 금연일에 $160.38{\pm}9.09$회, 흡연일에 $161.23{\pm}8.09$회로서 차이가 없었다. 결론 : 일반 폐기능검사는 양일간에 차이가 없었으나 금연일에 비해 흡연일에 무산소역치와 최대산소섭취량의 감소가 관찰되어 흡연은 단기적으로 운동부하시 심혈관계장애를 초래한다고 사료되었다.
Background: It is well known that cigarette smoking is the risk factor of lung cancer, chronic obstructive pulmonary disease and ischemic heart disease. But there are few reports about the immediate effect of cigarette smoking on the cardiopulmonary functions. The serum level of carbon monoxide incr...
Background: It is well known that cigarette smoking is the risk factor of lung cancer, chronic obstructive pulmonary disease and ischemic heart disease. But there are few reports about the immediate effect of cigarette smoking on the cardiopulmonary functions. The serum level of carbon monoxide increases during cigarette smoking. It is known that carbon monoxide increases respration rate, heart rate and cardiac output, with decrease in maximal oxygen consumption. So we have studied to determine the immediate effects of cigarette smoking on the cardiopulmonary function during exercise. Method: Thirteen healthy smoking male subjects were included in this study. Each subject was undertaken pulmonary function test and incremental exercise test on two separate days, one without smoking (control) and the other after smoking three cigarettes per hour for five hours. The order of the two tests was randomized. Results: 1) The mean age of the subjects was $25{\pm}4.9$ year-old and the mean smoking history was $6{\pm}5$ pack years. 2) The mean blood level of carbon monoxide on the smoking day was higher than that on the nonsmoking day ($5.97{\pm}1.34%$ vs. $1.45{\pm}0.83%$; p<0.01). 3) The mean maximal oxygen consumption on the smoking day was lower than that on the nonsmoking day ($2.09{\pm}0.32$ L/min vs. $2.39{\pm}0.32$ L/min; p<0.05). 4) The mean anaerobic threshold on the smoking day was lower than that on the nonsmoking day ($1.33{\pm}0.24$ L/min vs. $1.53{\pm}0.20$ L/min; p<0.05). 5) The mean heart rate at rest on the smoking day was higher than that on nonsmoking day ($84.38{\pm}11.06$ beats/min vs. $75.46{\pm}5.83$ beats/min; p<0.05). But the means of maximal heart rate on both days were not different. 6) The pulmonary function tests were similar on both days. Conclusion: There was no change in pulmonary function test, but the maximal oxygen consumption and anaerobic threshold were decreased on the smoking day. So it was concluded that cigarette smoking impaired the cardiovascular functions immediately during exercise.
Background: It is well known that cigarette smoking is the risk factor of lung cancer, chronic obstructive pulmonary disease and ischemic heart disease. But there are few reports about the immediate effect of cigarette smoking on the cardiopulmonary functions. The serum level of carbon monoxide increases during cigarette smoking. It is known that carbon monoxide increases respration rate, heart rate and cardiac output, with decrease in maximal oxygen consumption. So we have studied to determine the immediate effects of cigarette smoking on the cardiopulmonary function during exercise. Method: Thirteen healthy smoking male subjects were included in this study. Each subject was undertaken pulmonary function test and incremental exercise test on two separate days, one without smoking (control) and the other after smoking three cigarettes per hour for five hours. The order of the two tests was randomized. Results: 1) The mean age of the subjects was $25{\pm}4.9$ year-old and the mean smoking history was $6{\pm}5$ pack years. 2) The mean blood level of carbon monoxide on the smoking day was higher than that on the nonsmoking day ($5.97{\pm}1.34%$ vs. $1.45{\pm}0.83%$; p<0.01). 3) The mean maximal oxygen consumption on the smoking day was lower than that on the nonsmoking day ($2.09{\pm}0.32$ L/min vs. $2.39{\pm}0.32$ L/min; p<0.05). 4) The mean anaerobic threshold on the smoking day was lower than that on the nonsmoking day ($1.33{\pm}0.24$ L/min vs. $1.53{\pm}0.20$ L/min; p<0.05). 5) The mean heart rate at rest on the smoking day was higher than that on nonsmoking day ($84.38{\pm}11.06$ beats/min vs. $75.46{\pm}5.83$ beats/min; p<0.05). But the means of maximal heart rate on both days were not different. 6) The pulmonary function tests were similar on both days. Conclusion: There was no change in pulmonary function test, but the maximal oxygen consumption and anaerobic threshold were decreased on the smoking day. So it was concluded that cigarette smoking impaired the cardiovascular functions immediately during exercise.
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