Falk Jeremy A, Martin Ubaldo J, Scharf Steven, Criner Gerard J
Department of Medicine, Cedars-Sinai Medical Center, David Geffen School of Medicine at UCLA, 8700 Beverly Blvd, Room 6732, Los Angeles, CA 90048, USA.
Chest. 2007 Nov;132(5):1476-84. doi: 10.1378/chest.07-0041. Epub 2007 Oct 1.
It has been postulated that right ventricular (RV) function may improve after lung volume reduction surgery (LVRS) for severe emphysema due to improvement in lung elastic recoil. Improved lung elastic recoil after LVRS is hypothesized to "tether" open extraalveolar vessels, thereby leading to a decrease in pulmonary vascular resistance (PVR) and improved RV function. Whether a relationship exists between static elastic lung recoil and pulmonary hemodynamics in severe emphysema, however, is unknown.
We prospectively studied 67 patients with severe emphysema (32 women; mean age, 65.3+/-6.6 years [SD]; mean FEV1, 0.79+/-0.25 L) who had hyperinflation (total lung capacity [TLC], 122.5+/-12.3% of predicted) and gas trapping (residual volume, 209.1+/-41.1% of predicted), and were referred to the National Emphysema Treatment Trial. Lung elastic recoil was measured both at TLC (coefficient of retraction [CR]) and at functional reserve capacity (CR at functional residual capacity [CRfrc]) in each patient.
CR and CRfrc values were 1.3+/-0.6 cm H2O/L and 0.61+/-0.5 cm H2O/L, respectively. Hemodynamic measurements revealed a pulmonary artery (PA) systolic pressure of 35.9+/-8.9 mm Hg, mean PA pressure of 24.8+/-5.6 mm Hg, and PVR of 174+/-102 dynescm(-5). No significant correlations were found between CR and PVR (R=-0.046, p=0.71), PA systolic pressure (R=0.005, p=0.97), or mean PA pressure (R=-0.028, p=0.82). Additionally, no significant correlations were found between CRfrc and PVR (R=-0.002, p=0.99), PA systolic pressure (R=-0.062, p=0.62), or mean PA pressure (R=-0.041, p=0.74).
We conclude there is no correlation between lung elastic recoil and pulmonary hemodynamics in severe emphysema, suggesting that elastic lung recoil is not an important determinant of secondary pulmonary hypertension in this group. Registered with www. clinicaltrials.gov, #NCT00000606.
据推测,对于严重肺气肿患者,肺减容手术(LVRS)后右心室(RV)功能可能会改善,原因是肺弹性回缩力增强。LVRS后肺弹性回缩力增强被认为可“牵拉”肺泡外血管开放,从而导致肺血管阻力(PVR)降低,RV功能改善。然而,严重肺气肿患者静态肺弹性回缩力与肺血流动力学之间是否存在关联尚不清楚。
我们前瞻性研究了67例严重肺气肿患者(32例女性;平均年龄65.3±6.6岁[标准差];平均第1秒用力呼气量[FEV1]为0.79±0.25 L),这些患者存在肺过度充气(肺总量[TLC]为预测值的122.5±12.3%)和气体潴留(残气量为预测值的209.1±41.1%),并被纳入国家肺气肿治疗试验。测量了每位患者在TLC时的肺弹性回缩力(回缩系数[CR])以及在功能残气量时的肺弹性回缩力(功能残气量时的CR[CRfrc])。
CR和CRfrc值分别为1.3±0.6 cmH₂O/L和0.61±0.5 cmH₂O/L。血流动力学测量显示肺动脉(PA)收缩压为35.9±8.9 mmHg,平均PA压力为24.8±5.6 mmHg,PVR为174±102达因·秒·厘米⁻⁵。未发现CR与PVR(R=-0.046,p=0.71)、PA收缩压(R=0.005,p=0.97)或平均PA压力(R=-0.028,p=0.82)之间存在显著相关性。此外,也未发现CRfrc与PVR(R=-0.002,p=0.99)、PA收缩压(R=-0.062,p=0.62)或平均PA压力(R=-0.041,p=0.74)之间存在显著相关性。
我们得出结论,严重肺气肿患者的肺弹性回缩力与肺血流动力学之间无相关性,这表明肺弹性回缩力并非该组继发性肺动脉高压的重要决定因素。已在www.clinicaltrials.gov注册,#NCT00000606。
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