Injury of Ureter During Surgery (Disorder) Clinical Trial
Official title:
Phase 2/3 Randomized Controlled Semi-blinded Trial to Investigate Safety and Effectiveness in Ureter Visualization With Intravenous Nizaracianine Triflutate, in up to 3 Divided Doses, in Adults Undergoing Abdominopelvic Surgery (TRIPHASE)
The goal of this clinical trial is to determine if the drug Nizaracianine Triflutate can help surgeons see and avoid the ureters during abdominopelvic surgery. The ureters are thin-wall, collapsible tubes that connect the kidneys to the bladder. They are difficult to see during surgery and are sometimes damaged accidentally. The main questions to answer are: 1) is this drug safe for use in patients undergoing abdominopelvic surgery and 2) can the drug see the ureters while simultaneously providing information about how well they are working. The clinical trial has 3 parts. Surgery patients enrolled in the first part (Phase 2) will receive drug at different doses to determine the best dose. Patients enrolled in the second part (Phase 3A) will be randomly assigned to drug or placebo (sugar), at the best dose from Phase 2, so the two can be compared directly. Patients enrolled in the final part (Phase 3B) will all receive drug at the best dose from Phase 2.
Human surgery often suffers from poor visual contrast among anatomical landmarks within the surgical field, and distinguishing one anatomical structure from another becomes nearly impossible if covered by connective tissue, blood, and/or bodily fluids. A major unsolved problem in surgical imaging is anatomical enhancement of the ureters. Damage to the ureters is a serious unintended complication of abdominopelvic and retroperitoneal surgery, with rates as high as 30% in certain gynecological procedures. Ureter damage also leads to extraordinarily high patient morbidity and cost. Currently, to avoid this complication during certain surgeries involving the ureters, much time is taken to define their anatomy using meticulous tissue dissection. Even with such special care, though, approximately 80% of ureteral injuries are only discovered post-operatively when dramatic clinical signs emerge such as rigor, fever, abdominal pain, and/or bacteremia. Ureter injury disproportionally impacts women, not only because of gynecological procedures but some reports have indicated female gender appears to predispose to injury during colectomies. Thus, the lack of availability of a safe diagnostic agent to provide real-time identification of the ureters and assessment of ureter function contributes to the gender disparity that exists within healthcare. Furthermore, patients in non-urban settings may not have access to surgeons with a large surgical volume and thus the years of specialized experience necessary to avoid ureter damage. Surgeon inexperience was identified as a prime risk factor for ureter injury, and teaching hospitals have been implicated in having an increased risk for ureter injury as well. Visual contrast enhancement of the ureters should provide enormous benefit to both patient and surgeon including more rapid initial identification, continuous real-time mapping, reducing or elimination the need for surgical dissection and associated complications in some cases, reducing anesthesia time, and reducing the risk of iatrogenic damage during abdominopelvic procedures across all patient populations. And, if iatrogenic damage still occurs, visual contrast enhancement can quickly identify the site of injury so appropriate repair can be initiated intraoperatively. Nizaracianine Triflutate (ZW800-1) is a novel small molecule drug with a unique zwitterionic chemical structure. This structure prevents the drug from binding non-specifically to tissues and organs after injection and facilitates its excretion by the kidneys into urine. Once in urine, Nizaracianine Triflutate creates visual contrast in the ureters that would otherwise not exist, and using a near-infrared (NIR) camera, surgeons can find the ureters and assess their function in real-time. The clinical trial is divided into three parts: Phase 2 will test 3 different doses of Nizaracianine Triflutate in 12 subjects per dose. Each subject will receive a total of 3 injections of the drug during surgery so that the ureters are visualized throughout. At the end of Phase 2, the best dose for imaging the ureters will be selected. Repeated dose interval will be fixed at 60 min. Dose escalation between cohorts will occur only after a review of safety and tolerability at each dose level including post-operative assessments. Phase 3A will use the best dose from Phase 2 and will randomize 100 subjects total, stratified for re-operative/inflammatory bowel status and BMI, then randomized 1:1 to treatment and control arms, to receive either placebo (sugar) or Nizaracianine Triflutate. Surgeon and subject will be blinded to what is administered. Phase 3B will also use the best dose from Phase 2 and will administer drug to 200 subjects. All subjects will receive the drug and surgeons can administer it up to three times depending on the length of the surgery, with each subject serving as their own control by comparing white light to NIR light. During all three parts of the trial, safety of the drug will be monitored closely. The long-term goal of this Phase 2/Phase 3 clinical trial is to determine whether Nizaracianine Triflutate provides the surgeon with visualization of the ureters throughout surgery, and in so doing can help them lower the risk of injury and improve patient outcome. ;