Congenital diaphragmatic hernia (CDH) - consisting of a diaphragmatic defect that starts early in the embryological period, with consequent herniation of the abdominal structures into thoracic cavity - occurs in approximately 1 of 2,200 live births.1,2 Herniated abdominal structures, such as stomach and liver, shift fetal lungs, and cause pulmonary hypoplasia, which is responsible for the high neonatal mortality rate.3 Although the lungs are shifted during fetal life, the placenta maintains respiratory function, allowing correct gas exchange. However, once the umbilical cord is clamped during birth, the hypoplastic lungs cannot perform adequate gas exchange, leading to severe respiratory distress and neonatal death.4

Prenatal diagnosis has improved neonatal outcome worldwide through diagnosis of other associated malformations, excluding chromosomal abnormalities, and planning delivery inside a specialized tertiary center.5 Before the onset of prenatal sonographic diagnosis, the mortality rate was almost 100%, and CDH was considered a lethal malformation.6 Nowadays, the mortality rate has been decreasing among neonates with isolated CDH, varying from 40% to 75% in developed countries.1,7 Nevertheless, in spite of the great advances in prenatal and postnatal diagnosis and management, the mortality rate in neonates with isolated CDH is still high.8

Recent research has focused on prenatal predictors of neonatal outcome in isolated CDH cases, such as lung/head ratio9,10 and fetal lung volume,11–16 to differentiate cases with a worse prognosis, in which fetal therapy or termination of pregnancy may be indicated, from those with better prognosis, requiring only specialized postnatal care.17–19

In spite of the worldwide, published experience, there are no data about perinatal results in cases of prenatally diagnosed CDH in Brazil. Therefore, we reviewed all cases of prenatally diagnosed CDH in a specialized tertiary center, focusing on the frequency of associated structural malformations, chromosomal abnormalities, and the mortality rate.

We reviewed the prenatal database from January 1995 to December 2003 of the Fetal Medicine Unit of the Department of Obstetrics and Gynecology, São Paulo University Medical School, identifying 38 cases of CDH.

Prenatal characteristics were retrospectively analyzed from the ultrasonographic basic database. The main data analyzed were gestational age at diagnosis, presence of associated structural malformations, fetal karyotyping, side of diaphragmatic defect, mediastinal shift, and liver herniation.

Perinatal outcome was reviewed by consulting prenatal, neonatal, and pediatric databases, as well as from telephone contacts with parents. Cases were classified according to perinatal outcome including fetal death, early neonatal death (from birth to 7 days of life), and late neonatal death (after 7 days of life up to 28 days).

Among the 38 cases of CDH, 30 (79%) had left CDH, and 8 (21%) had right CDH. Mean gestational age at diagnosis was 29 weeks of gestation (range, 16-37 weeks). Associated structural malformations were observed in 21 cases (55%), of which 12 had normal karyotyping (Table 1). Chromosomal abnormality was observed in 9 cases (24%), including trisomy 18 (n = 4), trisomy 13 (n = 3), 46XX/47XXX (n = 1), and 45X (n = 1). These two last fetuses had heart malformations in association with congenital diaphragmatic hernia (interventricular defect and aorta coarctation, respectively).

The overall mortality was 92% (35/38). All cases with chromosomal abnormalities died before the 7th day of life (mortality of 100%). Among the 12 cases with associated structural malformation but normal karyotyping, 11 (92%) also died before the 7th day of life (including fetal deaths). Among all the cases, only 3 infants with CDH survived more than 28 days after surgical repair (including 1 neonate with associated omphalocele, but with a normal karyotype) (Table 2).

Isolated CDH was observed in 17 cases (45%). In this group, 15 neonates (88%) died. No fetal death was observed, 2 neonates (12%) survived up to the 28th day of life and 2 neonates (12%) survived after the 28th day of life (Table 2). Two (12%) neonates underwent surgical repair after satisfactory ventilatory condition and preoperative stabilization between 10 and 22 days of life. Among the neonates with isolated CDH, the diaphragmatic defect was on the left in 12 (71%) and on the right in 5 (29%). Herniated liver and major mediastinal shift were observed in 7 (41%) and 13 cases (77%), respectively. All neonates with a herniated liver or right-sided CDH died before the 7th day of life. Among 13 neonates with major mediastinal shift, early death occurred in 10 (77%), while it occurred in 2 of 4 (50%) without this occurrence (Table 3).

The results demonstrate that other structural abnormalities are frequently associated with CDH and that perinatal mortality remains very high, even in neonates with isolated CDH. In this series, because termination of pregnancy (TOP) was not performed, it was possible to evaluate the natural history of CDH in cases with associated structural malformations, chromosomal abnormalities, and even in isolated CDH cases.

Published reports place the incidence of chromosomal and structural abnormalities in association with CDH at 35% to 50%, including trisomies, most commonly trisomy 18.20–22 In this study, 55% of the neonates had associated malformations, and 24% had chromosomal abnormalities. All neonates with chromosomal abnormalities had other associated structural malformations. Among the neonates with abnormal karyotyping, trisomies 18 and 13 were diagnosed in 4 (44%) and 3 (33%) cases, respectively. Cases with abnormal karyotyping usually have the poorest prognosis, with 100% perinatal mortality, typically earlier, because fetal death occurred more often (56%). In neonates with associated structural malformation but normal karyotype, perinatal mortality was also very high (92%). This particular group contributed to the very high perinatal mortality observed in our study, mainly to the earlier deaths, ie, fetal demise (42%) and early neonatal deaths (58%). One infant who had an associated omphalocele and normal karyotype survived, probably because of the mild or less severe herniation of abdominal organs into the fetal thorax, leading to milder compression of mediastinal structures and lungs. Both groups are candidates for medical termination of pregnancy (TOP) in countries where this is allowed by the local law.

In cases with isolated CDH, perinatal mortality was higher in our series (88%) than reported in the international literature (50–70%).23,24 This could be explained by many factors. First, in our series there was no TOP, while in the international literature, TOP was performed in about 20% to 30% of cases.1 Second, the main prognostic factor considered was the pulmonary size and/or volume, which is evaluated by the lung-over-head ratio (LOHR)9,10 and the observed/expected fetal lung volume ratio (o/e-FLV).12,13,16 Cases with LOHR < 1.0 and o/e-FLV < 0.35 are associated with poorer outcome (approximately 90%). In many countries, TOP is performed in cases that have a poorer prognosis, with LOHR < 1.0, right defect, and liver herniation. In our series, these parameters were not evaluated; therefore, it is not possible to state whether they are similar or comparable populations.

Another possible contributing factor to this difference in perinatal mortality rates is that we included in our study only prenatally diagnosed cases, which are known to have a higher mortality rate than those with only postnatal diagnosis. Skari et al1 observed that neonatal mortality is 2 to 4 times higher in prenatally diagnosed than in postnatally diagnosed series. This possibility is supported when the neonatal mortality of 88% in our series is considered in the context of the 40% mortality reported in a previous study published by pediatric surgeons from our hospital; in that study, CDH was diagnosed postnatally.25

Additionally, Harrison et al17 recently demonstrated that adequate and specialized neonatal care can improve neonatal survival to about 70% in cases with prenatally diagnosed isolated CDH, even in those cases without prenatal treatment. This finding means that each hospital may have different neonatal mortality rates based on the prenatal selection of population, prenatal interventions, degree of specialization of neonatal care group, and type of postnatal treatment. Consequently, meta-analysis and multicenter studies have important inbuilt bias and must be analyzed carefully. Nevertheless, in our series, right-sided lesion as well as major mediastinal shift and herniated liver were more frequently observed in neonates who died before 7 days of life, and these factors have also been related to a poorer outcome in other studies.1,5,7–16

By analyzing the natural history of CDH, the present study is important for demonstrating that each hospital may experience different neonatal mortality rates in isolated CDH. It also motivates us to review our neonatal care and our prenatal evaluation of prognosis as well as to consider fetal interventions in selected cases. By improving the neonatal care and prenatal prediction of perinatal outcome in cases with isolated CDH, minimal fetal invasive surgery could be indicated for those cases with a worse prognosis, based on the fact that we cannot offer TOP to those patients.