We developed a novel fellow education pathway for robotic-assisted sacrocolpopexy (RASC) and aimed to compare step-specific and total operative times for RASC performed by Female Pelvic Medicine and Reconstructive Surgery (FPMRS) attendings with those in which FPMRS fellows performed part or all of the RASC. We further aimed to compare complication and readmission rates by fellow involvement.We tracked RASC at 1 institution between 2012 and 2018. We recorded times for total procedure, sacrocolpopexy, and 6 individual steps. Fellows were designated F1-F3 by training year. We used independent samples t-tests and analysis of variance for continuous variables and χ2 and Fisher's exact tests for categorical variables.Of 178 RASC procedures, 76 (42.7%) involved fellows. Concomitant procedures included hysterectomy (62.4%), midurethral sling (50%), and colporrhaphy/perineorrhaphy (51.7%). RASC without and with fellows had similar demographic, clinical, and procedural characteristics, except for midurethral sling rate (attending, 42.2% vs fellow, 60.5%; p = 0.02). RASC without and with fellows had similar times for total procedure (208.9 ± 61.0 vs 209.1 ± 48.6 minutes, p = 0.98), sacrocolpopexy (116.9 ± 39.9 vs 122.7 ± 29.2 minutes, p = 0.27), and all RASC steps except docking (attendings, 9.9 ± 8.6 vs fellows, 7.2 ± 7.0 minutes; p = 0.03). Complication rates and severity were similar without and with fellows. There were no readmissions.Our novel structured training program provides safe limitations for total and step-specific procedural times during fellowship education in RASC. Such training programs warrant further study to determine potential contribution to quality and safety in the teaching environment.
Transvaginal ultrasound-guided oocyte retrieval is a safe and well-tolerated procedure. Complications are uncommon and usually limited to vaginal bleeding and pelvic infection. Ureteral injury following oocyte retrieval is exceedingly rare, with only 8 previously reported cases.A 34-year-old woman developed gross hematuria 4 hours after transvaginal ultrasound-guided oocyte aspiration. Cystoscopy, laparoscopy, and retrograde pyelography revealed bleeding from the left ureter, no intra-abdominal bleeding, and a patent left urinary collecting system. The ureteral bleeding was successfully managed with placement of a ureteral stent.Ureteral trauma during transvaginal-guided oocyte retrieval is a rare complication with a variable clinical presentation. If ureteral injuries are not promptly recognized, significant morbidity may occur. This case demonstrates that early identification of injury and timely intervention result in favorable outcomes.
Work-related musculoskeletal disorders (WMSDs) are prevalent among surgeons and result in significant disability. We aimed to review the English-language literature regarding ergonomic risk, prevalence of WMSDs, and unique ergonomic considerations of gynecologic surgery.Surgeon WMSDs are prevalent, with rates ranging from 66 to 94% for open surgery, 73-100% for conventional laparoscopy, 54-87% for vaginal surgery, and 23-80% for robotic-assisted surgery. Risk factors for injury in open surgery include use of loupes, headlamps, and microscopes. Unique risks in laparoscopic surgery include table and monitor position, long-shafted instruments, and poor instrument handle design. In vaginal surgery, improper table height and twisted trunk position create injury risk. Although robotic surgery offers some advantages in neck and shoulder strain, it remains associated with trunk, wrist, and finger strain.WMSDs are prevalent among surgeons but have received little attention because of under-reporting of injury and logistical constraints of studying surgical ergonomics. Future research must aim to develop objective surgical ergonomics instruments and guidelines and to correlate ergonomics assessments with pain and tissue-level damage in surgeons with WMSDs. Ergonomics training should be developed and implemented in order to protect surgeons from preventable, potentially career-altering injuries.
