Abstract
BACKGROUND/PURPOSE
Physiological changes secondary to a rapidly enlarging fetal chest mass can lead to nonimmune hydrops, which is a predictor of impending fetal demise. Currently, open fetal surgery is offered for specific patients with hydrops before 32 weeks' gestation. The authors asked if a less-invasive technique, radiofrequency thermal ablation (RTA), could be applied safely to the destruction of fetal lung tissue.
METHODS
Time-dated pregnant ewes at 120 to 125 days' gestation (term, 140 to 145 days) underwent RTA through a hysterotomy (n = 3) or in a transuterine fashion under ultrasound guidance (n = 4). The probe is a 15-gauge needle with a maximal 2-cm deployment sphere at its tip. By varying the intensity and duration of treatment, the power settings were optimized to create a defined area of ablation with minimal surrounding tissue injury. Five of the 6 fetal lambs were killed acutely, and 1 was followed up for 1 week with frequent ultrasound examinations.
RESULTS
Gross examination of the animals killed acutely showed a consistent area of ablation using 10 watts of applied power for 3 minutes. Direct coagulation necrosis lesions ranged from 1x1 cm to 2x2 cm in size depending on the extent of the probe deployment. One animal was followed up for 1 week and showed no major adverse physiological effects.
CONCLUSION
Radiofrequency thermal ablation can be performed safely in this fetal sheep model to create a controlled area of lung tissue ablation.
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