Julie L Holihan1, Jeffery S Chen, James Greenberg, Dermot Hehir, Sean M Johnston, Daniel Marcus, Heidi Ryan, Shawn Tsuda, Mike K Liang. 1. *Department of Surgery, University of Texas Health Science Center at Houston, Houston, TX †Department of Gynecology, Harvard Medical School, Boston, MA §Department of Surgery, Marina Del Rey Hospital, Los Angeles, CA ∥Department of Surgery, University of Nevada School of Medicine, Las Vegas, Nevada ‡Department of Surgery, Midland Regional Hospital, Westmeath, Ireland.
Abstract
BACKGROUND: The impact of laparoscopy on the prevalence of incisional hernias remains unclear. The aim of this study is to determine (1) surgeon perceptions of port-site hernias (PSHs), (2) the true incidence of PSH. MATERIALS AND METHODS: A survey on PSH was given to determine the surgeon-reported rate of PSH. A literature review was performed for studies with a primary outcome of PSH. Studies were evaluated using checklists, and scores were used to compare risk of bias. Risk of bias was graphed against PSH incidence. RESULTS: From 38 surgeons surveyed, the surgeon perceived rate of PSH was a median (range) of 0.5% (0% to 5%) for ports ≤5 mm, 5% (0.1% to 20%) for ports extended, and 5% (0.1% to 40%) for ports ≥10 mm. Thirty studies showed a PSH rate from 0% to 39.3%. Higher quality studies reported higher rates of PSH. CONCLUSIONS: Surgeons underestimate the incidence of PSH, but high-quality literature suggests that it may be nearly 40%.
BACKGROUND: The impact of laparoscopy on the prevalence of incisional hernias remains unclear. The aim of this study is to determine (1) surgeon perceptions of port-site hernias (PSHs), (2) the true incidence of PSH. MATERIALS AND METHODS: A survey on PSH was given to determine the surgeon-reported rate of PSH. A literature review was performed for studies with a primary outcome of PSH. Studies were evaluated using checklists, and scores were used to compare risk of bias. Risk of bias was graphed against PSH incidence. RESULTS: From 38 surgeons surveyed, the surgeon perceived rate of PSH was a median (range) of 0.5% (0% to 5%) for ports ≤5 mm, 5% (0.1% to 20%) for ports extended, and 5% (0.1% to 40%) for ports ≥10 mm. Thirty studies showed a PSH rate from 0% to 39.3%. Higher quality studies reported higher rates of PSH. CONCLUSIONS: Surgeons underestimate the incidence of PSH, but high-quality literature suggests that it may be nearly 40%.