{"id":395,"date":"2016-10-31T12:28:49","date_gmt":"2016-10-31T17:28:49","guid":{"rendered":"https:\/\/my.dev.vanderbilt.edu\/masi\/?page_id=395"},"modified":"2016-10-31T12:32:25","modified_gmt":"2016-10-31T17:32:25","slug":"abdominal-imaging","status":"publish","type":"page","link":"https:\/\/my.dev.vanderbilt.edu\/masi\/research\/abdominal-imaging\/","title":{"rendered":"Abdominal Imaging"},"content":{"rendered":"

Motivation<\/h3>\n

Ventral hernia (VH) repair is one of the procedures most commonly performed by general surgeons worldwide, yet extensive variation exists in its delivery. Optimal candidates for repair, repair type, and ideal use of hernia mesh remain to be defined. There currently does not exist a widely accepted VH classification system to help identify disease severity and to improve outcomes. Even under optimal conditions, VHs occur in up to 28% of over 2 million patients undergoing abdominal operations each year. With current best-practices, VH repair is fraught with failure \u2013 recurrence rates ranging from 24-43% are reported. Recurrence of previously repaired VHs increases morbidity to patients and increases healthcare costs. Meanwhile, VHs continue to rise in incidence with nearly 350,000 repairs performed and total procedural costs for VH repair of $3.2 billion in the United States in 2006.<\/p>\n

Most VH patients undergo computed tomography (CT) scanning to evaluate their abdominal wall. This information is used to make clinical judgments about a particular patient\u2019s hernia for treatment and prognosis. Currently, these decisions are not evidence-based, but rather subjective and based mostly on expert opinion. We hypothesize that the CT datasets obtained from these studies are underutilized and provide a potentially rich \u2014 and automated \u2014 means of better characterizing VH.<\/p>\n

Research objectives<\/h3>\n