Real-time analysis of intraoperative delays and variations in intraoperative workflow with level of experience of the primary surgeon in small animal surgery.

OBJECTIVE: To describe the causes of intraoperative delays and the changes in delays and surgical workflow with the level of training of the primary surgeon. STUDY DESIGN: Prospective observational study. SAMPLE POPULATION: Seventy-three small animal surgical procedures performed at an academic teaching institution between January 17, 2018 and April 10, 2018. METHODS: Procedures (trainee = 37, faculty = 36) totaling 103.2 h were observed and video recorded. Operative time was allocated to the surgical approach, exploration, exposure, intervention, and closure phases. Suballocations were made to specific tasks within these categories (such as cutting or hemostasis). Intraoperative delays and reasons were recorded. Differences in use of time between trainee and faculty surgeons were analyzed. RESULTS: Delays constituted 9.2% (±4.4) of the operative time, of which 6.5%(±3.6) were surgeon controlled and 2.6% (±2.7) were non-surgeon controlled. Surgeons preparing instrumentation outside of the operative field and retrieval of equipment from supply areas were the greatest contributors to delays. Intraoperative delays did not increase when the trainee was placed in the primary surgeon role (P = .78). During the approach faculty surgeons spent proportionally less time on hemostasis (P = .02), and during closure they spent less time suturing (P = .03) than trainees. CONCLUSION: Trainee surgeons did not have greater intraoperative delays. Delays were created when surgeons prepared their own instrumentation. Workflow differed between experts and trainees. CLINICAL SIGNIFICANCE: Advancing a trainee surgeon into the primary role is unlikely to increase intraoperative delays, which can be reduced by the inclusion of trained scrub technicians. A focus on efficient hemostasis and fluidity when suturing may improve operative efficiency for surgical trainees.

Decreased incidence of perioperative inadvertent hypothermia and faster anesthesia recovery with increased environmental temperature: A nonrandomized controlled study.

OBJECTIVE: To determine perioperative inadvertent hypothermia (PIH) incidence, risk factors, prevention methods, and effect of PIH prevention on anesthesia recovery times. STUDY DESIGN: Nonrandomized controlled before-and-after trial. ANIMALS: Dogs (n = 277) and cats (n = 20) undergoing open surgery. METHODS: Incidence and risk factors for PIH (core temperature <96.8°F), existing thermal care practices, and recovery times were documented at baseline. For group 1, a thermal care bundle consisting of protocol-driven active warming combined with raised environmental temperatures (75°F) in induction rooms (IR) and operating rooms (OR) was implemented. Perioperative inadvertent hypothermia incidence and recovery times were recorded. For group 2, baseline active warming practices were resumed while environmental temperatures remained elevated. RESULTS: Perioperative inadvertent hypothermia was associated with preoperative imaging (P = .039) and percentage clip area (P = .037). Perioperative inadvertent hypothermia decreased in group 1 (13.5%, n = 96, P < .001) and group 2 (13.0%, n = 100, P < .001) compared with baseline (35.6%, n = 101). Median time from anesthesia withdrawal to extubation decreased in group 1 (5 minutes, P = .028) and group 2 (5 minutes, P = .018) compared with baseline (7 minutes). Median time from anesthesia recovery to spontaneous food intake decreased in group 1 (6 hours, n = 92, P = .016) but not in group 2 (6.0 hours, n = 88, P = .060) compared with baseline (n = 94, 6.7 hours). No group differences in PIH risk factors were identified. CONCLUSION: Perioperative inadvertent hypothermia incidence was high but reducible by raising environmental temperatures alone or in combination with increased focus on active warming. Reductions in PIH shortened recovery times. CLINICAL SIGNIFICANCE: Maintaining IR and OR temperatures at the standard-of-care for human pediatric surgery reduces PIH and may improve outcomes.