Heart-related indices in experimental diaphragmatic hernia.

BACKGROUND Heart-related indices have been suggested as useful tools to evaluate left ventricular (LV) hypoplasia, which might predict the outcome of fetuses and infants with congenital diaphragmatic hernia (CDH). The current study analyzed the behavior of such indices in the nitrofen-induced CDH rat model. METHODS Dated pregnant Wistar rats received at day 9.5 of gestation either a dose of 100 mg of nitrofen or just the vehicle. Body, lung, and heart weights were measured in 12 newborn rats not exposed to nitrofen (Ctrl group) and 68 animals exposed to nitrofen: 30 without CDH (non-CDH group) and 38 with left CDH (CDH group). Each heart was fragmented in 7-microm thick sections. Only hearts with no evidence of cardiac morphologic defects (CMD) were studied further to estimate right and left ventricular cavity volumes, septal, right, and left ventricular free wall masses. These parameters allowed the calculation of the cardio-ventricular (CVindex) and LV mass indices. The aorta-to-pulmonary artery ratio also was calculated. RESULTS Excluding fetuses with CMD, the heart-to-body weight ratio was reduced significantly in animals exposed to nitrofen, whereas no significant differences were observed between non-CDH versus CDH groups. Although the left and right ventricular cavity volumes were both reduced significantly in nitrofen-treated rats, they were not changed significantly by the existence of CDH, and the calculated CVindex was similar in the 3 groups. Estimated septal and LV masses were reduced markedly in the nitrofen-treated animals and further reduced by the presence of CDH. However, when LV mass was normalized (LV mass index) the difference became restricted to the animals exposed to nitrofen but was not influenced by the presence of CDH. Finally, the aorta-to-pulmonary artery ratio was similar in all studied groups. CONCLUSIONS The results of the current study suggest that, although nitrofen had been responsible by global heart hypoplasia, the presence of CDH was not associated with significant underdevelopment of the heart or of the LV in rat fetuses without CMD. Based on these results, we think that the evidence for prenatal counseling based on heart-related indices should be critically reconsidered.

[1]  A. Leite-Moreira,et al.  [Absence of cardiac hypoplasia in an experimental model of congenital diaphragmatic hernia]. , 1999, Revista portuguesa de cardiologia : orgao oficial da Sociedade Portuguesa de Cardiologia = Portuguese journal of cardiology : an official journal of the Portuguese Society of Cardiology.

[2]  J. Chi,et al.  Nitrofen-induced congenital malformations of the heart and great vessels in rats: an animal model. , 1999, Journal of pediatric surgery.

[3]  J. Tovar,et al.  Cardiovascular malformations in congenital diaphragmatic hernia: human and experimental studies. , 1999, Journal of pediatric surgery.

[4]  R. Freese,et al.  Cardiovascular malformations in experimental congenital diaphragmatic hernia. , 1999, Journal of pediatric surgery.

[5]  J. Tovar,et al.  Heart hypoplasia in experimental congenital diaphragmatic hernia. , 1999, Journal of pediatric surgery.

[6]  T. Jaksic,et al.  Current surgical management of congenital diaphragmatic hernia: a report from the Congenital Diaphragmatic Hernia Study Group. , 1998, Journal of pediatric surgery.

[7]  C. Spettell,et al.  Cardiac malposition, redistribution of fetal cardiac output, and left heart hypoplasia reduce survival in neonates with congenital diaphragmatic hernia requiring extracorporeal membrane oxygenation. , 1998, The Journal of pediatrics.

[8]  B. Thébaud,et al.  Congenital diaphragmatic hernia: antenatal prognostic factors , 1997, Intensive Care Medicine.

[9]  N. Silverman,et al.  Fetal diaphragmatic hernia: echocardiography and clinical outcome. , 1997, Journal of pediatric surgery.

[10]  L. Allan,et al.  The fetal heart in diaphragmatic hernia. , 1996, Clinics in perinatology.

[11]  H. Karamanoukian,et al.  Can cardiac weight predict lung weight in patients with congenital diaphragmatic hernia? , 1996, Journal of pediatric surgery.

[12]  H. Karamanoukian,et al.  Pathophysiology of congenital diaphragmatic hernia. XI: Anatomic and biochemical characterization of the heart in the fetal lamb CDH model. , 1995, Journal of pediatric surgery.

[13]  R. Hirschl,et al.  Evaluation of left ventricular mass in children with left-sided congenital diaphragmatic hernia. , 1994, The Journal of pediatrics.

[14]  H. Karamanoukian,et al.  In utero repair of prenatally diagnosed congenital diaphragmatic hernia (CDH) , 1994, Journal of pediatric surgery.

[15]  P. Puri,et al.  Congenital diaphragmatic hernia: influence of associated malformations on survival. , 1993, Archives of disease in childhood.

[16]  P. Aldazábal,et al.  Lung Growth and Maturation in the Rat Model of Experimentally Induced Congenital Diaphragmatic Hernia* , 1993, European journal of pediatric surgery : official journal of Austrian Association of Pediatric Surgery ... [et al] = Zeitschrift fur Kinderchirurgie.

[17]  Echogenic Material in the Fetal Gallbladder: Sonographic and Clinical Observations , 1992 .

[18]  D. Tibboel,et al.  Nitrofen-induced diaphragmatic hernias in rats: an animal model. , 1990, Journal of pediatric surgery.

[19]  D. Tibboel,et al.  Experimentally induced congenital diaphragmatic hernia in rats. , 1990, Journal of pediatric surgery.

[20]  D. Crawford,et al.  Fetal diaphragmatic hernia: the value of fetal echocardiography in the prediction of postnatal outcome , 1989, British journal of obstetrics and gynaecology.

[21]  Steve Steiner,et al.  Missing link , 1989 .

[22]  J. Siebert,et al.  Left ventricular hypoplasia in congenital diaphragmatic hernia. , 1984, Journal of pediatric surgery.