OBJECTIVES: Endothelial disruption within saphenous vein and radial artery grafts increases thrombosis risk. However, no clinically applicable method for imaging the intima currently exists. We used a novel infrared imaging technology, optical coherence tomography (OCT; LightLab Imaging, Inc, Westford, Mass), to visualize the intima within harvested conduits. METHODS: Conduits were procured endoscopically (37 saphenous vein grafts and 8 radial artery grafts) or with the open technique (9 radial artery grafts) from 50 patients. Surplus segments were analyzed by means of OCT for evidence of preexisting pathology or traumatic injury. Focal plaques in radial artery grafts and the intimal hyperplasia area in saphenous vein grafts were quantified as having an intimal/medial thickness ratio of greater than 0.5. Biopsy specimens were obtained for histologic confirmation and to analyze matrix metalloproteinase 2 levels (saphenous vein grafts) and prostacyclin/nitric oxide metabolites (radial artery grafts). Interobserver kappa coefficients and a Bland-Altman analysis were used to determine the reproducibility and accuracy of OCT interpretations. RESULTS: Radial artery imaging revealed plaque in 76%. Endoscopically harvested vessels showed intraluminal clot (38%) and intimal tears ranging from severe (6%) to mild (88%). In saphenous vein grafts intimal thickening was detected in 86% and intraluminal clotting in 68%. The intimal/medial thickness ratio determined by means of OCT correlated directly with matrix metalloproteinase 2 levels (R = 0.6804) in saphenous vein grafts and inversely with metabolites of prostacyclin (R = -0.55) and nitric oxide (R = -0.58) in radial artery grafts. OCT imaging was reproducible (interobserver kappa coefficients of >0.81 for the characterization of plaque types) and showed a strong correlation with histology (R = 0.8, P < .001). CONCLUSIONS: OCT imaging provides an accurate, real-time, and reproducible means for assessing saphenous vein graft and radial artery graft bypass conduits. As a quality assurance tool, this technology might afford a more objective basis for conduit selection.
OBJECTIVES: Endothelial disruption within saphenous vein and radial artery grafts increases thrombosis risk. However, no clinically applicable method for imaging the intima currently exists. We used a novel infrared imaging technology, optical coherence tomography (OCT; LightLab Imaging, Inc, Westford, Mass), to visualize the intima within harvested conduits. METHODS: Conduits were procured endoscopically (37 saphenous vein grafts and 8 radial artery grafts) or with the open technique (9 radial artery grafts) from 50 patients. Surplus segments were analyzed by means of OCT for evidence of preexisting pathology or traumatic injury. Focal plaques in radial artery grafts and the intimal hyperplasia area in saphenous vein grafts were quantified as having an intimal/medial thickness ratio of greater than 0.5. Biopsy specimens were obtained for histologic confirmation and to analyze matrix metalloproteinase 2 levels (saphenous vein grafts) and prostacyclin/nitric oxide metabolites (radial artery grafts). Interobserver kappa coefficients and a Bland-Altman analysis were used to determine the reproducibility and accuracy of OCT interpretations. RESULTS: Radial artery imaging revealed plaque in 76%. Endoscopically harvested vessels showed intraluminal clot (38%) and intimal tears ranging from severe (6%) to mild (88%). In saphenous vein grafts intimal thickening was detected in 86% and intraluminal clotting in 68%. The intimal/medial thickness ratio determined by means of OCT correlated directly with matrix metalloproteinase 2 levels (R = 0.6804) in saphenous vein grafts and inversely with metabolites of prostacyclin (R = -0.55) and nitric oxide (R = -0.58) in radial artery grafts. OCT imaging was reproducible (interobserver kappa coefficients of >0.81 for the characterization of plaque types) and showed a strong correlation with histology (R = 0.8, P < .001). CONCLUSIONS: OCT imaging provides an accurate, real-time, and reproducible means for assessing saphenous vein graft and radial artery graft bypass conduits. As a quality assurance tool, this technology might afford a more objective basis for conduit selection.
Authors: Emile N Brown; Nicholas S Burris; Zachary N Kon; Michael C Grant; Philip S Brazio; Chenyang Xu; Patrick Laird; Junyen Gu; Seeta Kallam; Pranjal Desai; Robert S Poston Journal: Atherosclerosis Date: 2008-12-14 Impact factor: 5.162
Authors: Øystein Pettersen; Elżbieta Pociask; Krzysztof P Malinowski; Magdalena Slezak; Knut Hegbom; Rune Wiseth; Dag Ole Nordhaug Journal: Cardiol J Date: 2018-11-16 Impact factor: 2.737
Authors: Emile N Brown; Nicholas S Burris; Junyan Gu; Zachary N Kon; Patrick Laird; Seeta Kallam; Cha-Min Tang; Joseph M Schmitt; Robert S Poston Journal: J Biomed Opt Date: 2007 Sep-Oct Impact factor: 3.170
Authors: Amy L Oldenburg; Xiao Yu; Thomas Gilliss; Oluwafemi Alabi; Russell M Taylor; Melissa A Troester Journal: Optica Date: 2015-10-09 Impact factor: 11.104
Authors: Nicholas S Burris; Emile N Brown; Michael Grant; Zachary N Kon; Marc Gibber; Junyen Gu; Kimberly Schwartz; Seeta Kallam; Ashish Joshi; Richard Vitali; Robert S Poston Journal: Ann Thorac Surg Date: 2008-04 Impact factor: 4.330
Authors: Emile N Brown; Zachary N Kon; Richard Tran; Nicholas S Burris; Junyen Gu; Patrick Laird; Philip S Brazio; Seeta Kallam; Kimberly Schwartz; Lisa Bechtel; Ashish Joshi; Shaosong Zhang; Robert S Poston Journal: J Thorac Cardiovasc Surg Date: 2007-09-29 Impact factor: 5.209
Authors: Pranjal H Desai; Dinesh Kurian; Nannan Thirumavalavan; Sneha P Desai; Pluen Ziu; Michael Grant; Charles White; R Clive Landis; Robert S Poston Journal: Anesth Analg Date: 2009-11 Impact factor: 5.108
Authors: Zachary N Kon; Charles White; Michael H Kwon; Jean Judy; Emile N Brown; Junyan Gu; Nicholas S Burris; Patrick C Laird; Talitha Brown; Phillip S Brazio; James Gammie; James Brown; Bartley P Griffith; Robert S Poston Journal: J Surg Res Date: 2007-07-12 Impact factor: 2.192
Authors: Philip S Brazio; Patrick C Laird; Chenyang Xu; Junyan Gu; Nicholas S Burris; Emile N Brown; Zachary N Kon; Robert S Poston Journal: J Thorac Cardiovasc Surg Date: 2008-11 Impact factor: 5.209