PURPOSE: Macrophage plays an important role in plaque destabilization in atherosclerosis. By harnessing the affinity of macrophages to certain phospholipid species, a liposomal contrast agent containing phosphatidylserine (PS) and X-ray computed tomographic (CT) contrast agent was prepared and evaluated for CT imaging of plaque-associated macrophages in rabbit models of atherosclerosis. PROCEDURES: Liposomes containing PS and iodixanol were evaluated for their physicochemical characteristics, in vitro macrophage uptake, in vivo blood pool clearance, and organ distribution. Plaque enhancement in the aorta was imaged with CT in two atherosclerotic rabbit models. RESULTS: In vitro macrophage uptake of PS liposomes increased with increasing amount of PS in the liposomes. Overall clearance of PS liposomes was more rapid than control liposomes. Smaller PS liposomes (d = 112 ± 4 nm) were more effective than control liposomes of similar size or larger control and PS liposomes (d = 172 ± 17 nm) in enhancing aortic plaques in both rabbit models. CONCLUSIONS: Proper liposomal surface modification and appropriate sizing are important determinant for CT-based molecular imaging of macrophages in atheroma.
PURPOSE: Macrophage plays an important role in plaque destabilization in atherosclerosis. By harnessing the affinity of macrophages to certain phospholipid species, a liposomal contrast agent containing phosphatidylserine (PS) and X-ray computed tomographic (CT) contrast agent was prepared and evaluated for CT imaging of plaque-associated macrophages in rabbit models of atherosclerosis. PROCEDURES: Liposomes containing PS and iodixanol were evaluated for their physicochemical characteristics, in vitro macrophage uptake, in vivo blood pool clearance, and organ distribution. Plaque enhancement in the aorta was imaged with CT in two atherosclerotic rabbit models. RESULTS: In vitro macrophage uptake of PS liposomes increased with increasing amount of PS in the liposomes. Overall clearance of PS liposomes was more rapid than control liposomes. Smaller PS liposomes (d = 112 ± 4 nm) were more effective than control liposomes of similar size or larger control and PS liposomes (d = 172 ± 17 nm) in enhancing aortic plaques in both rabbit models. CONCLUSIONS: Proper liposomal surface modification and appropriate sizing are important determinant for CT-based molecular imaging of macrophages in atheroma.
Authors: S A Schmitz; S E Coupland; R Gust; S Winterhalter; S Wagner; M Kresse; W Semmler; K J Wolf Journal: Invest Radiol Date: 2000-08 Impact factor: 6.016
Authors: P K Shah; E Falk; J J Badimon; A Fernandez-Ortiz; A Mailhac; G Villareal-Levy; J T Fallon; J Regnstrom; V Fuster Journal: Circulation Date: 1995-09-15 Impact factor: 29.690
Authors: Jenny B Lin; Evan H Phillips; Ti'Air E Riggins; Gurneet S Sangha; Sreyashi Chakraborty; Janice Y Lee; Roy J Lycke; Clarissa L Hernandez; Arvin H Soepriatna; Bradford R H Thorne; Alexa A Yrineo; Craig J Goergen Journal: Int J Mol Sci Date: 2015-05-18 Impact factor: 5.923
Authors: Zelong Chen; Yuguo Li; Raag Airan; Zheng Han; Jiadi Xu; Kannie W Y Chan; Yikai Xu; Jeff W M Bulte; Peter C M van Zijl; Michael T McMahon; Shibin Zhou; Guanshu Liu Journal: Quant Imaging Med Surg Date: 2019-09