Dinger J, Peter-Kern M, Goebel P, Roesner D, Schwarze R
Clinic of Paediatrics, Medical Faculty, Technical University of Dresden, Germany.
J Pediatr Surg. 2000 Oct;35(10):1482-8. doi: 10.1053/jpsu.2000.16419.
BACKGROUND/PURPOSE: Congenital diaphragmatic hernia (CDH) is associated with pulmonary hypoplasia that limits survival. The authors' knowledge on lung mechanics and lung volumes in these patients with hypoplastic lungs is still limited. Therefore, the authors performed measurements of functional residual capacity (FRC), compliance of the respiratory system (CRS), and tidal volume in 5 full-term infants (gestational age, 38 to 40 weeks; birth weight, 2,800 to 3,530 g) before and after surgical repair of neonatal CDH.
The authors studied the influence of different levels of positive end-expiratory pressure (PEEP) and suction via inserted ipsilateral chest tube connected to a water seal on lung volume and lung mechanics. A computerized tracer gas (SF6) washout method was used for serial measurements of FRC. Compliance of the respiratory system was determined according to insufflatory method.
The authors found a preoperative compliance between 1.5 and 3.9 mL/kPa/kg and a preoperative FRC between 9.1 and 12.9 mL/kg indicating severe hypoplasia of the lungs in all patients. Immediately after surgical repair of CDH, compliance decreased to 85% (78% to 91%) of preoperative value, and FRC increased to 132% (110% to 150%) of preoperative value under mechanical ventilation while at 4 cm of water of PEEP and at -10 cm of water of suction via chest drain with the need of high fraction of inspired oxygen. After reduction of PEEP from 4 to 2 or 1 cm of water and lowering suction from -10 cm of water to -2 or 0 cm of water FRC decreased to 103% (80% to 122%) of preoperative value and compliance, and tidal volume improved to 135% (110% to 147%) of preoperative value resulting in increased alveolar ventilation, correction of acidosis and improvement in oxygenation. During the first days after surgery inadequate high PEEP or strong suction via chest tube drainage resulted in increase in FRC paralleled by decrease in compliance indicating overdistension of these hypoplastic lungs.
The data show that overdistension of hypoplastic lungs in infants with CDH can be detected and excluded by repeated measurements of FRC and compliance in these critical ill infants. These data might help setting appropriate ventilator parameters, adequate suction via chest drain, and thereby improve gas exchange and outcome.
背景/目的:先天性膈疝(CDH)与限制生存的肺发育不全相关。作者对这些肺发育不全患者的肺力学和肺容量的了解仍然有限。因此,作者对5例足月新生儿(胎龄38至40周;出生体重2800至3530克)在新生儿CDH手术修复前后进行了功能残气量(FRC)、呼吸系统顺应性(CRS)和潮气量的测量。
作者研究了不同水平的呼气末正压(PEEP)以及通过连接水封的同侧插入胸管进行吸引对肺容量和肺力学的影响。采用计算机化示踪气体(SF6)冲洗法对FRC进行连续测量。呼吸系统顺应性根据充入法确定。
作者发现术前顺应性在1.5至3.9毫升/千帕/千克之间,术前FRC在9.1至12.9毫升/千克之间,表明所有患者均存在严重的肺发育不全。在CDH手术修复后即刻,在机械通气下,当PEEP为4厘米水柱且通过胸引管吸引为-10厘米水柱并需要高浓度吸入氧时,顺应性降至术前值的85%(78%至91%),FRC增至术前值的132%(110%至150%)。将PEEP从4厘米水柱降至2或1厘米水柱,将吸引从-10厘米水柱降至-2或0厘米水柱后,FRC降至术前值的103%(80%至122%),顺应性和潮气量改善至术前值的135%(110%至147%),导致肺泡通气增加、酸中毒得到纠正且氧合改善。在术后的头几天,过高的PEEP或通过胸管引流的强力吸引导致FRC增加,同时顺应性降低,表明这些发育不全的肺过度扩张。
数据表明,通过对这些危重症婴儿反复测量FRC和顺应性,可以检测并排除CDH婴儿发育不全肺的过度扩张。这些数据可能有助于设置合适的呼吸机参数、通过胸引管进行适当吸引,从而改善气体交换和预后。
