Peroral choledochoscopy was first described in the 1970s, but the use of earlier generation choledochoscopes was significantly limited by complex equipment setup and fragility resulting in high repair costs. In late 2006, the SpyGlass Direct Visualization System (Boston Scientific Corp, Natick, MA, USA) was introduced to the market. It is a single-operator cholangioscopy platform and improves upon many shortcomings of the dual-operator systems. Currently, the two main indications for its use are evaluation of indeterminate biliary strictures and lithotripsy for difficult-to-remove biliary stones. Recently published prospective data reconfirm that the overall success rates for adequate tissue sampling and bile duct stone clearance are around 90 %, with an acceptable safety profile. The sensitivity for detecting cancer in intrinsic biliary strictures (e.g., cholangiocarcinoma) is superior to that of standard ERCP sampling modalities, but a limited yield has been noted when sampling extrinsic malignant biliary strictures (e.g., pancreatic cancer). The two main limitations of the SpyGlass system are image quality that is impeded by the use of fiberoptic technology and a relatively small accessory channel providing passage only for dedicated miniaccessories. Nevertheless, the SpyGlass platform has made single-operator cholangioscopy feasible and refined the technique in a number of important ways. This innovation has significantly expanded our diagnostic and therapeutic ERCP armamentarium. An upgraded digital imaging version is currently in development.
Background and study aims: There is an increasing demand for interventional endoscopic services and the need to develop efficient endoscopic units. The aim of this study was to analyze performance data and define metrics to improve efficiency in a single academic interventional endoscopy center.
]Patients and methods: The prospective operations performance data (6-month period) of our interventional endoscopy unit (EU) was analyzed. First-case start time (FIRST) delay was defined as any time the first patient of the day entered the endoscopy room after the scheduled time. Non-endoscopy time (NET) and total time (TT) were defined as non-procedural and total time elapsed in the EU, respectively. Time-interval between successive patients (TISP) was defined as the time from one patient departure from the room until the time of arrival of the next patient in the room.
Results: A total of 1421 patients underwent 1635 endoscopic procedures. FIRST was delayed (54.2 % cases) by 13.6 min (range 1 – 53), but started within 15 min of the scheduled time in 85 % of the cases. NET accounted for 9.1 hours (67.2 %) of 13.5 hours TT/day. TISP (37.1 min, range 5 – 125) comprised 54.2 % of the NET, and was delayed (> 30 min) in 49.8 % of cases. “Patient flow” processes (registration, admission, transportation, scheduling) accounted for 50.1 % of TISP delays.
Conclusions: Delays in NET, specifically TISP, rather than FIRST, were identified as a cause for decreased efficiency. “Patient flow” processes were the main reasons for delays in TISP. This study identifies potential process measures that can be used as benchmarks to improve efficiency in the EU.
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