BACKGROUND: Gastrointesintal hemorrhage is often difficult to localize. A test that does not depend on active bleeding might prove clinically useful. We tested 2 novel fibrinogen (FBG)-based contrast agents for their ability to localize gastrointestinal (GI) hemorrhage after bleeding stopped. 125I-FBG permits gamma ray-based preoperative or intraoperative scanning, and near-infrared (NIR) flourescent FBG (FBG800) permits real-time intraoperative visualization of active clot. METHODS: Bovine FBG was radiolabeled with 125I or conjugated to the NIR fluorophore CW800. Sites of bleeding were created by gastrotomy, mucosal resection of the stomach, or laceration of a mesenteric vessel; then 1.7 mg/kg FBG800 or 15 microCi/kg 125I-FBG was injected intravenously into mice, rabbits, or pigs 30 minutes before or after injury. Sites of active clot were quantified by using gamma counting and were also imaged by using invisible NIR light intraoperatively, for up to 3 hours postinjection. RESULTS: After an injection of either 125I-FBG or FBG800, sites of prior bleeding could be identified in the absence of active bleeding. Blood clearance was such that a signal-to-background ratio of 2.0 or greater could be achieved within 20 minutes after injection. A similarly labeled human serum albumin did not accumulate at any site, with an SBR of 1.0 or less. CONCLUSIONS: Both radiolabeled (preoperative gamma scanning) and NIR fluorescent (intraoperative real-time imaging) FBG can be used in experimental situations to identify the location of prior bleeding in the absence of active bleeding. Taken together, these contrast agents create a system for the identification and control of obscure GI bleeding.
BACKGROUND: Gastrointesintal hemorrhage is often difficult to localize. A test that does not depend on active bleeding might prove clinically useful. We tested 2 novel fibrinogen (FBG)-based contrast agents for their ability to localize gastrointestinal (GI) hemorrhage after bleeding stopped. 125I-FBG permits gamma ray-based preoperative or intraoperative scanning, and near-infrared (NIR) flourescent FBG (FBG800) permits real-time intraoperative visualization of active clot. METHODS:Bovine FBG was radiolabeled with 125I or conjugated to the NIR fluorophore CW800. Sites of bleeding were created by gastrotomy, mucosal resection of the stomach, or laceration of a mesenteric vessel; then 1.7 mg/kg FBG800 or 15 microCi/kg 125I-FBG was injected intravenously into mice, rabbits, or pigs 30 minutes before or after injury. Sites of active clot were quantified by using gamma counting and were also imaged by using invisible NIR light intraoperatively, for up to 3 hours postinjection. RESULTS: After an injection of either 125I-FBG or FBG800, sites of prior bleeding could be identified in the absence of active bleeding. Blood clearance was such that a signal-to-background ratio of 2.0 or greater could be achieved within 20 minutes after injection. A similarly labeled human serum albumin did not accumulate at any site, with an SBR of 1.0 or less. CONCLUSIONS: Both radiolabeled (preoperative gamma scanning) and NIR fluorescent (intraoperative real-time imaging) FBG can be used in experimental situations to identify the location of prior bleeding in the absence of active bleeding. Taken together, these contrast agents create a system for the identification and control of obscure GI bleeding.
Authors: Eiichi Tanaka; Hak Soo Choi; Valerie Humblet; Shunsuke Ohnishi; Rita G Laurence; John V Frangioni Journal: Surgery Date: 2008-05-27 Impact factor: 3.982
Authors: Susan L Troyan; Vida Kianzad; Summer L Gibbs-Strauss; Sylvain Gioux; Aya Matsui; Rafiou Oketokoun; Long Ngo; Ali Khamene; Fred Azar; John V Frangioni Journal: Ann Surg Oncol Date: 2009-07-07 Impact factor: 5.344