Journal of the American College of Surgeons
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A biologic, degradable extracellular matrix (ECM) has been shown to support esophageal tissue remodeling, which could reduce the risk of anastomotic leak following total gastrectomy and esophagectomy. We evaluated the safety and efficacy of reinforcing the anastomosis with ECM in reducing anastomotic leak as compared to a matched cohort. ⋯ Esophageal anastomotic reinforcement after total gastrectomy or esophagectomy with a biologic, degradable ECM was mostly feasible and safe, but was not associated with a statistically significant decrease in anastomotic leak.
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The robotic platform offers many benefits to patients and surgeons; however, incorporating this new surgical tool has also introduced challenges in intraoperative documentation accuracy. In 2019, we began to investigate our institution's robotic intraoperative supply documentation accuracy. We identified a 60% case error rate between the robotic items logged by the operating room staff in the electronic medical record and the true robotic items used for a case as logged on the Intuitive platform. ⋯ We then addressed this problem through patient safety and quality improvement-based interventions including error notification to operating room personnel, a barcode scanning system, peer-to-peer education, improving robotic item descriptions, and procedure receipt messaging. These interventions helped us decrease our institution's case error rate from 60% to 16.9% during the past 2 years, which generated a cumulative 2.1% net increase in our billed robotic items, through the addition and/or subtraction of robotic items from each case. Through our multiple interventions, we have created a robust, flexible, and efficient item-capturing system for robotic surgery cases.
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Phantom limb pain (PLP) and residual limb pain (RLP) are debilitating sequelae of major limb amputation. Targeted muscle reinnervation (TMR), when performed at the time of amputation, has been shown to be effective for management of this pain; however, its long-term effects and the longitudinal trend of patient-reported outcomes is unknown. The purpose of this study was to characterize the longitudinal patient-reported outcomes of pain and quality of life following TMR at the time of initial amputation. ⋯ TMR is an effective surgical procedure that improves the chances of having reduced RLP and PLP when performed at the time of amputation, and our study demonstrates the long-term durability of its efficacy.