Effects of nitroglycerin and indomethacin on fetal-maternal circulation and on fetal cerebral blood flow and metabolism in sheep.

OBJECTIVE: Our purpose was to evaluate the effects of maternal administration of nitroglycerin and indomethacin on maternal and fetal hemodynamics and on fetal cerebral blood flow and metabolism in sheep. STUDY DESIGN: Invasive vascular and fetal carotid flow monitoring was established in 12 gravid ewes. Isotonic sodium chloride solution, nitroglycerin, and indomethacin were infused maternally, and maternal and fetal heart rate, blood pressure, blood gas values, fetal carotid blood flow, and flow variability were measured. Fetal cerebral uptake of oxygen, glucose, and lactate were calculated. RESULTS: Nitroglycerin infusion caused a significant increase in maternal and fetal heart rate and a significant decrease in maternal and fetal mean arterial pressure at a dosage of 10 microram/kg per minute, without a change in blood gas values. Neither drug had any effect on fetal carotid blood flow, flow variability, or cerebral substrate metabolism. CONCLUSION: Maternal administration of nitroglycerin and indomethacin caused no adverse maternal or fetal circulatory changes and did not alter fetal carotid blood flow or substrate metabolism.

Fetendo-clip: a fetal endoscopic tracheal clip procedure in a human fetus.

Fetal tracheal occlusion accelerates lung growth and corrects the often fatal pulmonary hypoplasia seen in fetuses with congenital diaphragmatic hernia. Fetoscopy presents a unique opportunity to glimpse into the world of the fetus, but its use, until recently, has been limited to diagnostic and simple procedures. Using fetoscopic techniques ("Fetendo"), we now report successful tracheal occlusion in a 30-week-old fetus for the treatment of congenital diaphragmatic hernia.

Fetal diaphragmatic hernia: echocardiography and clinical outcome.

It is difficult to predict survival of fetuses diagnosed prenatally with congenital diaphragmatic hernia. Some studies suggest that left heart underdevelopment is associated with poor outcome, but fetal echocardiographic variables have not been conclusively proven to be good predictors of postnatal survival. The authors reviewed detailed fetal echocardiographic studies in twelve fetuses with congenital diaphragmatic hernia. Ten echocardiographic variables, including left and right ventricular width, left ventricular volume, and left ventricular mass, were examined from a four-chamber view, corrected for gestational age, and compared with normal data. The results of this study showed no significant differences between survivors and nonsurvivors in the ten variables analyzed. Although left heart dimensions and left ventricular volume in fetuses with congenital diaphragmatic hernia were below the expected normal range, these results did not predict postnatal outcome.

Nitroglycerin attenuates the bowel damage of necrotizing enterocolitis in a rabbit model.

Endogenous enteric nitric oxide has multiple functions. Enteric nitric oxide may be diminished in the premature infant and may therefore predispose the immature intestine to injury. The aim of this study was to determine if the infusion of a nitric oxide donor (nitroglycerin) would attenuate intestinal damage in a rabbit model of necrotizing enterocolitis. Transmural injection of rabbit intestinal loops with an acidified solution of casein and calcium gluconate simulates certain aspects of necrotizing enterocolitis. After injection of acidified casein solution into rabbit intestinal loops, twelve rabbits were randomly divided into two groups: six received maintenance fluids only and six received maintenance fluids and a nitroglycerin infusion adjusted to maintain mean arterial pressure 10 mm Hg below baseline (range, 2 to 12 micrograms/kg/min). After 3 hours, the rabbits were killed, and the intestinal tissue graded histologically. Intestinal damage in the nitroglycerin-treated rabbits was significantly less than that of untreated controls (mean histological grade of 0.39 v 1.48, P < .001). In this rabbit model of necrotizing enterocolitis, infusion of the nitric oxide donor nitroglycerin significantly attenuates intestinal damage. We speculate that enteric nitric oxide deficiency, as may exist in the preterm infant, predisposes the intestine to necrotizing enterocolitis.

Fetal endoscopic tracheal occlusion ('Fetendo-PLUG') for congenital diaphragmatic hernia.

Despite recent advances in surgical technique, posthysterotomy preterm labor remains a major determinant of postoperative fetal morbidity and mortality after in utero repair of congenital diaphragmatic hernia (CDH). Temporary fetal tracheal occlusion, or "PLUG" (Plug the Lung Until it Grows), reverses the pulmonary hypoplasia seen in experimental models of CDH and provides an alternative treatment strategy for some fetuses with CDH. Adaptation of current, minimally invasive surgical technology to the PLUG technique allows treatment of CDH without opening the uterus. In this report the authors describe a video-fetoscopic, intrauterine technique of tracheal occlusion (called Fetendo-PLUG) that could be used in human fetuses with CDH. The technique was developed in four fetal lambs that underwent video-fetoscopic intervention at 110 days' gestation (full term, 145 days), having undergone open creation of diaphragmatic hernias at 75 days. After maternal laparotomy and uterine exposure, the fetal head was located and a 5-mm curved, balloon-cuffed trocar was introduced through a uterine puncture directly into the fetal oral cavity. A steerable "bronchoscope" (with an instrument channel) was used to endoscopically intubate the trachea through the trocar, and the trocar was advanced over the bronchoscope and its balloon inflated to provide secure tracheal access below the vocal cords. Next, a 10-mm trocar was placed directly over the fetal neck, and the amniotic space was expanded with warm saline. A 5-mm laparoscope was introduced, and under simultaneous, dual video-fetoscopic (endotracheal and endoamniotic) visualization, a 1-mm nephrostomy puncture wire was advanced along the instrument channel of the bronchoscope, through the anterior wall of the trachea and fetal neck, into the amniotic space, then through the uterine wall to the outside. Withdrawal of the bronchoscope over the wire left a 5-mm endotracheal "trocar channel" along which a compressed, gelatin-encapsulated, polymeric foam insert (outer diameter, 4.8 mm) could be delivered by suture attachment to the guide wire. Once the foam was in its final endotracheal position, dissolution of the gelatin membrane allowed expansion of the foam to produce a water impervious tracheal occlusion. This two-trocar video-fetoscopic PLUG technique was performed successfully in all four fetuses, with a sequential decrease in operating time (median, 3.5 hours). Although two fetuses aborted postoperatively, the other two were carried successfully to term and demonstrated the anticipated physiological effects of adequate tracheal occlusion at the time of delivery.

Correction of congenital diaphragmatic hernia in utero VIII: Response of the hypoplastic lung to tracheal occlusion.

Most fetuses with congenital diaphragmatic hernia (CDH) diagnosed before 24 weeks' gestation die despite optimal postnatal care. In fetuses with liver herniation into the chest, prenatal repair has not been successful. In the course of exploring the pathophysiology of CDH and its repair in fetal lambs, the authors found that obstructing the normal egress of fetal lung fluid enlarges developing fetal lungs, reduces the herniated viscera, and accelerates lung growth, resulting in improved pulmonary function after birth. They developed and tested experimentally a variety of methods to temporarily occlude the fetal trachea, allow fetal lung growth, and reverse the obstruction at birth. The authors applied this strategy of temporary tracheal occlusion in eight human fetuses with CDH and liver herniation at 25 to 28 weeks' gestation. With ongoing experimental and clinical experience, the technique of tracheal occlusion evolved from an internal plug (two patients) to an external clip (six patients), and a technique was developed for unplugging the trachea at the time of birth (Ex Utero Intrapartum Tracheoplasty [EXIT]). Two fetuses had a foam plug placed inside the trachea. The first showed dramatic lung growth in utero and survived; the second (who had a smaller plug to avoid tracheomalacia) showed no demonstrable lung growth and died at birth. Two fetuses had external spring-loaded aneurysm clips placed on the trachea; one was aborted due to tocolytic failure, and the other showed no lung growth (presumed leak) and died 3 months after birth. Four fetuses had metal clips placed on the trachea. All showed dramatic lung growth in utero, with reversal of pulmonary hypoplasia documented after birth. However, all died of nonpulmonary causes. Temporary occlusion of the fetal trachea accelerates fetal lung growth and ameliorates the often fatal pulmonary hypoplasia associated with severe CDH. Although the strategy is physiologically sound and technically feasible, complications encountered during the evolution of these techniques have limited the survival rate. Further evolution of this technique is required before it can be recommended as therapy for fetal pulmonary hypoplasia.

Fetal endoscopic ('Fetendo') tracheal clip.

Fetal surgery can correct several life-threatening malformations before birth. Despite recent advances in fetal surgery, preterm labor remains a major problem directly related to the large uterine incision required for fetal exposure. Fetal endoscopic surgery ("Fetendo") obviates the need for a large uterine incision and may reduce the overall risks of fetal surgery by causing less uterine trauma and ultimately less preterm labor. Temporary tracheal occlusion is a promising strategy to enlarge the lungs in fetuses with congenital diaphragmatic hernia. Using the technology developed for laparoscopic surgery and for temporary tracheal occlusion, we have developed an endoscopic technique for tracheal occlusion with an endoscopic clip in a fetal sheep model. The evolution of this technique may allow temporary tracheal occlusion without incisional hysterotomy or maternal laparotomy.

Transesophageal echocardiography in fetal sheep. A monitoring tool for open and fetoscopic cardiac procedures.

BACKGROUND: Cardiac procedures in exteriorized fetuses or assisted by fetoscopy require monitoring capabilities not attended by conventional maternal transabdominal echocardiography. METHODS: We, therefore, assessed the potential of fetal transesophageal echocardiography (TEE) utilizing an intravascular ultrasound catheter (IVUC) for fetal cardiac monitoring. We inserted a 10-F-10-MHz IVUC into the esophagus in 12 exteriorized fetal sheep and by a fetoscopic approach in 4 fetal sheep. Cardiac events were observed. Heart rate, cardiac rhythm, patency of the foramen ovale and ductus arteriosus, and the width of the branch pulmonary arteries could be assessed in all fetuses. Ventricular contractility could be assessed only in fetuses weighing less than 2.5 kg. Larger fetuses did not allow adequate imaging of the apical portion of the ventricles because of limited tissue penetration of the IVUC. Fetal TEE permitted placing small guide wires in the cardiac atria and left ventricle. Short-lived premature beats following intracardiac manipulations of these wires could be observed by fetal TEE in all cases. RESULTS: At autopsy, no complications from IVUC insertion were observed in the exteriorized fetuses. Fetoscopic placement of the IVUC resulted in minor perioral skin erosion in two nonexteriorized fetuses. CONCLUSIONS: In conclusion, fetal TEE can be achieved with minor fetal injury and may provide useful information during open and fetoscopic cardiac procedures. Further improvements in IVUC design will permit the application of this technique to monitor human fetal cardiac procedures.

Experimental fetal transesophageal and intracardiac echocardiography utilizing intravascular ultrasound technology.

Fetal transesophageal and intracardiac echocardiography by utilizing ultrasound technology permits accurate definition of cardiac anatomy in fetal sheep. Because fetal transesophageal echocardiography is less invasive than intracardiac echocardiography, it has the potential to serve as a monitoring tool for currently developed open and fetoscopic fetal cardiac interventions.

Percutaneous access to the uterus for fetal surgery.

In utero repair of selected life-threatening malformations in the human fetus is now a clinical reality, yet fetal surgery continues to pose significant risks to both the mother and the unborn child. Preterm labor is a major problem directly related to the large uterine incision required for fetal exposure. Using technology developed for laparoscopic surgery, we have devised instruments and techniques to perform fetal endoscopic surgery. We now report a percutaneous technique for direct endoscopic access to the uterus. Minimally invasive fetoscopic surgery may expand the indications for fetal surgery by decreasing fetal risks, facilitating intervention earlier in gestation, and reducing preterm labor. This technique was developed in 4 fetal lambs who underwent endoscopic intervention at 105-110 days gestation (term = 145 days). Under ultrasound guidance, a 20-gauge spinal needle was advanced through the maternal abdomen, uterus, and directly into the amniotic cavity. Warmed saline was infused through the needle to expand the amniotic cavity. Next, a 5-mm balloon-tipped trocar was placed percutaneously with ultrasound guidance into the amniotic cavity. A 5-mm laparoscope was introduced and under endoamniotic vision two more 5-mm trocars were percutaneously placed. In all four sheep a 5-mm trocar was placed percutaneously into the gravid uterus. The most difficult step was puncturing through the amniotic membranes, but the sharp tip of the trocar facilitated getting into the amniotic cavity. Excellent visualization of the fetus was obtained with minimal uterine trauma. We have developed a fetoscopic technique in sheep for percutaneous placement of trocars into the uterus using ultrasound guidance. This approach allowed excellent visualization of the fetus with significantly less uterine trauma than open fetal surgery and is an essential prerequisite for future fetal endoscopic interventions.

Cyclic GMP relaxes the internal anal sphincter in Hirschsprung's disease.

In Hirschsprung's disease (HD), the aganglionic colon and internal anal sphincter (IAS) fail to relax. Aganglionic colon of HD patients relaxes in response to exogenous nitric oxide (NO), whereas the IAS from HD patients does not relax. The authors hypothesized that the failure of IAS relaxation is caused by a local deficiency of cyclic guanosine monophosphate (cGMP), the final metabolite in NO-mediated smooth muscle relaxation. To test this hypothesis, the authors measured the isometric tension of smooth muscle strips taken from the IAS and aganglionic colon of patients with HD before and after exposure to cGMP and compared this with ganglionic colon and IAS from normal controls. In HD patients both the IAS and aganglionic colon relaxed in response to cGMP (P < .05). The amount of relaxation observed in both the aganglionic colon and IAS was comparable to that measured in the normal controls. The observation that exogenous cGMP relaxes the IAS, whereas exogenous NO does not, suggests that mechanisms for relaxation may be different than those in the aganglionic colon and may explain persistent IAS dysfunction after resection of aganglionic colon. The defect of the IAS in HD may be the inability of the NO/cGMP pathway to induce smooth muscle cell relaxation rather than a defect in the smooth muscle cell.

The 'PLUG' odyssey: adventures in experimental fetal tracheal occlusion.

In animal experiments, it has been shown that tracheal occlusion counteracts the pulmonary hypoplasia associated with congenital diaphragmatic hernia (CDH). Successful clinical implementation requires a reliable, reversible, and atraumatic technique of occluding the fetal trachea. With this clinical goal in mind, the authors evaluated the following three methods of tracheal occlusion in a fetal lamb CDH model: (1) an occluded foam-cuffed endotracheal tube, (2) a foam-cuffed endotracheal tube with a magnetically controlled flow valve, and (3) a tracheal insert constructed of a water-impermeable, expandable, polymeric foam, which is placed by a translaryngeal approach. The foam-cuffed endotracheal tube did not provide consistently reliable fetal tracheal occlusion. Although the magnetically triggered flow valve functioned well, it was not necessary to open the valve in utero (to prevent overdistension of the lungs), and the presence of the valve contributed to several occlusive failures. In contrast, the foam insert was easy to position and to remove from the trachea, while providing reliable tracheal occlusion for several weeks with consequent enlarged fetal lungs, increased lung fluid volumes, complete reduction of abdominal viscera, and improved pulmonary gas exchange after birth. Bronchoscopic evaluation of the foam-occluded neonatal tracheas showed little or no tracheal damage, which was confirmed during necropsy by gross and histological examination. Translaryngeal placement of a compressible, water-impermeable polymeric foam appears to be a simple and safe technique to achieve fetal tracheal occlusion.