摘要
The use of weight reduction surgeries has increased over the years with a higher proportion of these surgeries being sleeve gastrectomies,this has been associated with some complications including staple line leaks.We report a 32-year-old male who had undergone a laparoscopic gastric band surgery and subsequently a laparoscopic sleeve gastrectomy,this was complicated by both an staple line leak at the gastroesophageal junction as well as a large(> 4 cm) posterior gastric wall defect due to gastric wall necrosis. We used two co-axially inserted self-expandable stents(SEMS) in the management of this patient,5 stents were used over repeated endoscopy sessions and 20 wk. Both defects had resolved without the need for surgical intervention.This is the first reported case were SEMS are used for both a staple line leak as well as a gastric wall defect.We also review the literature on the use of SEMS in the management of leaks post weight reduction surgeries.
The use of weight reduction surgeries has increased over the years with a higher proportion of these surgeries being sleeve gastrectomies, this has been associated with some complications including staple line leaks. We report a 32-year-old male who had undergone a laparoscopic gastric band surgery and subsequently a laparoscopic sleeve gastrectomy, this was complicated by both an staple line leak at the gastroesophageal junction as well as a large (> 4 cm) posterior gastric wall defect due to gastric wall necrosis. We used two co-axially inserted self-expandable stents (SEMS) in the management of this patient, 5 stents were used over repeated endoscopy sessions and 20 wk. Both defects had resolved without the need for surgical intervention.This is the first reported case were SEMS are used for both a staple line leak as well as a gastric wall defect. We also review the literature on the use of SEMS in the management of leaks post weight reduction surgeries.
基金
Supported by The Research Group Project,Deanship of Scientific Research at King Saud University,No.RGP-VPP-279