Background: Enteryx (Boston Scientific Corp, Natick, Mass) is an injectable polymer used for the treatment of GERD. Current use of Enteryx requires fluoroscopy for accurate placement into the deep esophageal wall (ie, the deep submucosa or muscularis propria). In this study, we assessed the use of a new double-lumen, double-needle injection catheter for accurate placement of Enteryx into the deep esophageal wall, without fluoroscopy, in a porcine model.
Methods: All procedures were performed by using a new injection catheter (GZ Medical, LLC, Minnetonka, Minn), which allows for tissue depth assessment via the flow of gas through one lumen and the injection of a therapeutic substance (Enteryx) via a second lumen. Endoscopy was performed on 5 consecutive pigs by using the new catheter alone, without fluoroscopy, and attempting deep injections. Four injections of Enteryx were made at the gastroesophageal junction, 10 cm above the junction, and 15 cm above the junction. A total of 60 sites (12 per animal) were injected. The animals were sacrificed and each esophagus was harvested. The mediastinal cavity was searched for extravasated Enteryx material, and the esophagus was examined grossly for Enteryx adherent to the outside wall. Injection sites then were classified morphologically as superficial (mucosa or submucosa), deep (muscularis propria or deep submucosa contiguous to muscularis), subadventitial (between muscle and adventitia), or transmural. Only deep injections were considered adequate.
Results: No extravasated Enteryx was found in the mediastinum in 60 injected sites. One area of transmural injection had Enteryx adherent to the outside esophageal wall (1.7%). Fifty-one injected sites (85%) were adequate deep injections, 4 injections (6.7%) were subadventitial, 1 injection (1.7%) was superficial, and 3 injections (5%) could not be assessed. There were no complications observed in any animal.
Conclusions: By using a new injection device without fluoroscopy, Enteryx can be deposited consistently into the deep esophageal wall with a high degree of accuracy, avoiding mediastinal extravasation. Additional clinical trials are necessary to determine the relative accuracy and role of the new technique compared to standard radiographically guided placement.