PURPOSE: To evaluate the ability of electron-beam computed tomography (CT) to help quantify long-term changes in coronary microvascular functional reserve in a porcine model. MATERIALS AND METHODS: Electron-beam CT-based intramyocardial blood volume and perfusion and Doppler ultrasonography (US)-based intracoronary blood flow were obtained in 13 pigs at baseline and again 3 months later. Measurements were obtained at rest and after the administration of adenosine. The short-term variation during 30 minutes of electron-beam CT measurements was assessed in nine additional pigs. RESULTS: Short-term variation of blood volume and perfusion averaged 8% and 9%, respectively, and was similar for both weight groups at rest and after adenosine administration. At rest, intracoronary blood flow, blood volume, and perfusion remained unchanged from baseline to follow-up. Long-term increases (percentage change with adenosine relative to that at rest) in blood volume and perfusion reserves were consistent with increasing intracoronary blood flow reserves. Despite these long-term changes in intracoronary blood flow, blood volume, and perfusion, the blood volume-to-perfusion relationship suggests a similar blood volume distribution among different microvascular functional components in normal porcine myocardium at both weight groups. CONCLUSION: Electron-beam CT may be of value for quantifying long-term changes in intramyocardial microvascular function.
PURPOSE: To evaluate the ability of electron-beam computed tomography (CT) to help quantify long-term changes in coronary microvascular functional reserve in a porcine model. MATERIALS AND METHODS: Electron-beam CT-based intramyocardial blood volume and perfusion and Doppler ultrasonography (US)-based intracoronary blood flow were obtained in 13 pigs at baseline and again 3 months later. Measurements were obtained at rest and after the administration of adenosine. The short-term variation during 30 minutes of electron-beam CT measurements was assessed in nine additional pigs. RESULTS: Short-term variation of blood volume and perfusion averaged 8% and 9%, respectively, and was similar for both weight groups at rest and after adenosine administration. At rest, intracoronary blood flow, blood volume, and perfusion remained unchanged from baseline to follow-up. Long-term increases (percentage change with adenosine relative to that at rest) in blood volume and perfusion reserves were consistent with increasing intracoronary blood flow reserves. Despite these long-term changes in intracoronary blood flow, blood volume, and perfusion, the blood volume-to-perfusion relationship suggests a similar blood volume distribution among different microvascular functional components in normal porcine myocardium at both weight groups. CONCLUSION: Electron-beam CT may be of value for quantifying long-term changes in intramyocardial microvascular function.
Authors: Ashley M Groves; Vicky Goh; Sabarinath Rajasekharan; Irfan Kayani; Raymondo Endozo; John C Dickson; Leon J Menezes; Manu Shastry; Said B Habib; Peter J Ell; Brian F Hutton Journal: Eur Radiol Date: 2008-05-09 Impact factor: 5.315
Authors: Nasser M Malyar; Lilach O Lerman; Mario Gössl; Patricia E Beighley; Erik L Ritman Journal: Am J Physiol Regul Integr Comp Physiol Date: 2011-05-04 Impact factor: 3.619
Authors: Kyle S McCommis; Thomas A Goldstein; Dana R Abendschein; Bernd Misselwitz; Thomas Pilgram; Robert J Gropler; Jie Zheng Journal: Eur Radiol Date: 2010-02-24 Impact factor: 5.315