Marin J M, Montes de Oca M, Rassulo J, Celli B R
Division of Pulmonary and Critical Care Medicine, St. Elizabeth's Medical Center, Tufts University, Boston, MA 02135, USA.
Chest. 1999 May;115(5):1293-300. doi: 10.1378/chest.115.5.1293.
The reasons for exertional dyspnea in severe COPD are not well established, but they are not solely related to the mechanical load. We tested the hypothesis that breathlessness may be determined, in part, by the response of an individual's central output.
In 26 patients with severe COPD (FEV1 < 50% predicted) and 22 matched control subjects, we assessed at rest the ventilatory and mouth occlusion pressure (P0.1) response to hyperoxic progressive hypercapnia. At rest and during a symptom-limited exercise test, routine cardiopulmonary variables were measured, and respiratory muscle function was evaluated using esophageal and gastric pressure. Dyspnea was assessed with a visual analog scale.
Dyspnea with or without leg discomfort limited exercise in 73% of patients. Peak exercise dyspnea correlated only with dyspnea at rest (r = 0.5, p < 0.008) and P0.1 response to CO2 (deltaP0.1/delta[end-tidal PCO2]PETCO2) (r = 0.48, p = 0.02). Multiple regression analysis including resting and exercise data as independent variables revealed that 47% of the variance for dyspnea at peak exercise was explained by a model including dyspnea at rest and deltaP0.1/deltaPETCO2. Again, deltaP0.1/deltaPETCO2 was the only predictor for the change in dyspnea from rest to peak exercise (delta Dyspnea, r2 = 0.28, p = 0.005). There was no correlation between exercise dyspnea and any metabolic variable, pulmonary function, or respiratory muscle function test.
In severe COPD, exertional dyspnea is not simply related to respiratory muscle load or mechanical impairment, but also to an individual's central motoneural output to the respiratory system.
重度慢性阻塞性肺疾病(COPD)患者运动性呼吸困难的原因尚未完全明确,且不仅与机械负荷有关。我们检验了这样一种假设,即呼吸困难可能部分由个体的中枢输出反应所决定。
选取26例重度COPD患者(第1秒用力呼气容积[FEV1]<预计值的50%)和22例匹配的对照者,静息状态下评估其对高氧性渐进性高碳酸血症的通气和口腔阻断压(P0.1)反应。在静息和症状限制性运动试验期间,测量常规心肺变量,并使用食管和胃内压评估呼吸肌功能。采用视觉模拟量表评估呼吸困难程度。
73%的患者存在伴有或不伴有腿部不适的呼吸困难,限制了运动。运动高峰时呼吸困难仅与静息时呼吸困难(r = 0.5,p < 0.008)及P0.1对二氧化碳的反应(ΔP0.1/Δ[呼气末二氧化碳分压]PETCO2)(r = 0.48,p = 0.02)相关。以静息及运动数据作为自变量的多元回归分析显示,运动高峰时呼吸困难变异的47%可由包含静息时呼吸困难及ΔP0.1/ΔPETCO2的模型解释。同样,ΔP0.1/ΔPETCO2是静息至运动高峰时呼吸困难变化的唯一预测因子(Δ呼吸困难,r2 = 0.28,p = 0.005)。运动性呼吸困难与任何代谢变量、肺功能或呼吸肌功能测试均无相关性。
在重度COPD中,运动性呼吸困难不仅与呼吸肌负荷或机械性损害有关,还与个体对呼吸系统的中枢运动神经输出有关。
