DiFiore J W, Fauza D O, Slavin R, Peters C A, Fackler J C, Wilson J M
Department of Surgery, Children's Hospital, Boston, MA 02115.
J Pediatr Surg. 1994 Feb;29(2):248-56; discussion 256-7. doi: 10.1016/0022-3468(94)90328-x.
Infants with congenital diaphragmatic hernia (DH) and profound pulmonary hypoplasia are currently unsalvageable. The authors previously demonstrated that tracheal ligation (TL) accelerates fetal lung growth and reverses the pulmonary hypoplasia of fetal nephrectomy. The purpose of this study was to determine if the pulmonary hypoplasia of experimental DH could be similarly reversed and, if so, whether the resulting lungs would show better function than those of their DH counterparts. Eighteen fetal lambs were divided into three experimental groups of six animals each. In group 1, DH was created at 90 days' gestation. In group 2, DH was created at 90 days' gestation and TL performed during the same operation. Group 3 consisted of sham-operated controls. These animals were delivered near full-term, and their lungs analyzed by standard morphometric techniques. Ten additional fetal lambs were divided into two experimental groups of five animals each. In group 4, DH was created at 90 days' gestation. In group 5, DH was created at 90 days' gestation and TL performed 20 days later, at 110 days' gestation. These animals were pressure-ventilated via tracheostomy over a 2-hour period in which PaO2, PaCO2, and compliance were measured. Intratracheal pressure (ITP) was measured at the time of delivery in all groups. Upon retrieval, DH animals had abdominal viscera in the chest and small lungs; in contrast, DH/TL animals had the herniated viscera reduced from the chest by enlarged lungs. DH/TL lungs showed markedly increased growth, with significant increases in lung volume:body weight ratio (LV:BW; P = .0001), alveolar surface area (ALV.SA; P = .0001), and alveolar number (ALV#) (P = .0001) when compared with those of the DH or control group. This growth was associated with a normal maturation pattern based on histological appearance, normal airspace fraction, and normal alveolar numerical density. ITP in the DH/TL group was increased when compared with that of DH and control animals (P = .0001). Total lung DNA and protein were both elevated in the DH/TL animals (P = .0001). However, the DNA:protein ratio remained normal, suggesting lung growth had occurred through cell proliferation, not by hypertrophy. When ventilated over a range of settings, DH/TL lungs were more compliant (P = .0001) and achieved higher PaO2s (P < .003) and lower PaCO2s (P = .0001) than their DH counterparts. From these data, the authors conclude: (1) Experimental fetal DH produces hypoplastic lungs that are not capable of adequate gas exchange with conventional ventilation.(ABSTRACT TRUNCATED AT 400 WORDS)
患有先天性膈疝(DH)和严重肺发育不全的婴儿目前无法救治。作者先前证明,气管结扎(TL)可加速胎儿肺生长并逆转胎儿肾切除术后的肺发育不全。本研究的目的是确定实验性DH的肺发育不全是否能同样得到逆转,如果可以,那么由此产生的肺功能是否会比未治疗的DH胎儿的肺功能更好。18只胎羊被分为三个实验组,每组6只动物。在第1组中,在妊娠90天时制造DH。在第2组中,在妊娠90天时制造DH,并在同一手术中进行TL。第3组由假手术对照组组成。这些动物在接近足月时分娩,并通过标准形态计量技术分析其肺。另外10只胎羊被分为两个实验组,每组5只动物。在第4组中,在妊娠90天时制造DH。在第5组中,在妊娠90天时制造DH,并在20天后(妊娠110天时)进行TL。这些动物通过气管切开术进行2小时的压力通气,在此期间测量动脉血氧分压(PaO2)、动脉血二氧化碳分压(PaCO2)和顺应性。在所有组的分娩时测量气管内压力(ITP)。取回时,DH动物的胸腔内有腹腔脏器且肺较小;相比之下,DH/TL动物胸腔内突出的脏器因肺增大而减少。与DH组或对照组相比,DH/TL组的肺生长明显增加,肺体积与体重比(LV:BW;P = 0.0001)、肺泡表面积(ALV.SA;P = 0.0001)和肺泡数量(ALV#)(P = 0.000)显著增加。这种生长与基于组织学外观、正常气腔分数和正常肺泡数密度的正常成熟模式相关。与DH组和对照组动物相比,DH/TL组的ITP升高(P = 0.0001)。DH/TL组动物的肺总DNA和蛋白质均升高(P = 0.0001)。然而,DNA与蛋白质的比值保持正常,表明肺生长是通过细胞增殖而非肥大实现的。在一系列通气设置下,DH/TL组的肺比DH组的肺更顺应(P = 0.0001),能达到更高的PaO2(P < 0.003)和更低的PaCO2(P = 0.0001)。根据这些数据,作者得出结论:(1)实验性胎儿DH导致肺发育不全,常规通气时无法进行充分的气体交换。(摘要截选至400字)
