Department of Pharmacy Practice and Science, University of Arizona, Tucson, Arizona, USA.
J Cyst Fibros. 2011 Jan;10(1):45-53. doi: 10.1016/j.jcf.2010.09.006. Epub 2010 Nov 2.
Exercise has been shown to be beneficial for patients with cystic fibrosis (CF), but for some CF patients there is a risk of desaturation, although the predicting factors are not conclusive or reliable. We sought to determine the relationship between the diffusion capacity of the lungs for nitric oxide and carbon monoxide (DLNO and DLCO) and the components of DLCO: alveolar-capillary membrane conductance (D(M)), and pulmonary capillary blood volume (V(C)) on peripheral oxygen saturation (SaO(2)) at rest and during exercise in CF.
17 mild/moderate CF patients and 17 healthy subjects were recruited (age=26±7 vs. 23±8 years, ht=169±8 vs. 166±8 cm, wt=65±9 vs. 59±8 kg, BMI=23±3 vs. 22±3 kg/m(2), VO(2PEAK)=101±36 vs. 55±25%pred., FEV(1)=92±22 vs. 68±25%pred., for healthy and CF, respectively, mean±SD, VO(2PEAK) and FEV(1) p<0.001). Subjects performed incremental cycle ergometry to exhaustion with continuous monitoring of SaO(2) and measures of DLNO, DLCO, D(M) and V(C) at each stage.
CF patients had a lower SaO(2) at rest and peak exercise (rest=98±1 vs. 96±1%, peak=97±2 vs. 93±5%, for healthy and CF, respectively, p<0.01). At rest, DLNO, DLCO, D(M) were significantly lower in the CF group (p<0.01). The difference between groups was augmented with exercise (DLNO=117±4 vs. 73±3ml/min/mmHg; DLCO=34±8 vs. 23±8ml/min/mmHg; D(M)=50±1 vs. 34±1, p<0.001, for healthy and CF respectively). Peak SaO(2) was related to resting DLNO in CF patients (r=0.65, p=0.003).
These results suggest a limitation in exercise-mediated increases in membrane conductance in CF which may contribute to a drop in SaO(2) and that resting DLNO can account for a large portion of the variability in SaO(2).
运动已被证明对囊性纤维化(CF)患者有益,但对于某些 CF 患者,存在饱和度降低的风险,尽管预测因素尚不确定或不可靠。我们旨在确定肺一氧化氮和一氧化碳的扩散能力(DLNO 和 DLCO)与 DLCO 成分之间的关系:肺泡毛细血管膜导度(D(M))和肺毛细血管血容量(V(C))在 CF 患者休息和运动时的外周血氧饱和度(SaO(2))。
招募了 17 名轻度/中度 CF 患者和 17 名健康受试者(年龄=26±7 岁与 23±8 岁,身高=169±8 厘米与 166±8 厘米,体重=65±9 公斤与 59±8 公斤,BMI=23±3 公斤/米(2)与 22±3 公斤/米(2),VO(2PEAK)=101±36 毫升/分与 55±25%预测,FEV(1)=92±22%与 68±25%预测,健康和 CF 分别,平均值±标准差,VO(2PEAK)和 FEV(1)p<0.001)。受试者进行递增式踏车运动直至疲劳,并在每个阶段连续监测 SaO(2)和 DLNO、DLCO、D(M)和 V(C)的测量值。
CF 患者在休息和峰值运动时的 SaO(2)较低(休息时为 98±1%与 96±1%,峰值时为 97±2%与 93±5%,健康和 CF 分别,p<0.01)。在休息时,CF 组的 DLNO、DLCO、D(M)显着降低(p<0.01)。在运动时,两组之间的差异加剧(DLNO=117±4 毫升/分/mmHg 与 73±3 毫升/分/mmHg;DLCO=34±8 毫升/分/mmHg 与 23±8 毫升/分/mmHg;D(M)=50±1 厘米与 34±1 厘米,p<0.001,健康和 CF 分别)。峰值 SaO(2)与 CF 患者的静息 DLNO 相关(r=0.65,p=0.003)。
这些结果表明 CF 患者的膜导度在运动介导的增加方面存在局限性,这可能导致 SaO(2)下降,并且静息 DLNO 可以解释 SaO(2)变异性的很大一部分。
