%0 Journal Article
%T Intracardiac Echocardiography Guided Transeptal Catheter Injection of Microspheres for Assessment of Cerebral Microcirculation in Experimental Models
%A Judith Bellapart
%A Kimble R. Dunster
%A Sara Diab
%A David G. Platts
%A Christopher Raffel
%A Levon Gabrielian
%A Marc O. Maybauer
%A Adrian Barnett
%A Robert James Boots
%A John F. Fraser
%J Cardiology Research and Practice
%D 2013
%I Hindawi Publishing Corporation
%R 10.1155/2013/595838
%X The use of microspheres for the determination of regional microvascular blood flow (RMBF) has previously used different approaches. This study presents for the first time the intracardiac injection of microspheres using transeptal puncture under intracardiac echocardiography guidance. Five Merino sheep were instrumented and cardiovascularly supported according to local guidelines. Two catheter sheaths into the internal jugular vein facilitated the introduction of an intracardiac probe and transeptal catheter, respectively. Five million colour coded microspheres were injected into the left atrium via this catheter. After euthanasia the brain was used as proof of principle and the endpoint for determination of microcirculation at different time points. Homogeneous allocation of microspheres to different regions of the brain was found over time. Alternate slices from both hemispheres showed the following flow ranges: for slice 02; 0.57每1.02ˋmL/min/g, slice 04; 0.45每1.42ˋmL/min/g, slice 06; 0.35每1.87ˋmL/min/g, slice 08; 0.46每1.77ˋmL/min/g, slice 10; 0.34每1.28ˋmL/min/g. A mixed effect regression model demonstrated that the confidence interval did include zero suggesting that the apparent variability intra- and intersubject was not statistically significant, supporting the stability and reproducibility of the injection technique. This study demonstrates the feasibility of the transeptal injection of microspheres, showing a homogeneous distribution of blood flow through the brain unchanged over time and has established a new interventional model for the measurement of RMBF in ovine models. 1. Introduction The measurement of microcirculation in specific organs has been the focus of multiple studies since 1967, when 50ˋ米 diameter radionuclide-labelled carbonised spheres were injected in the foetal umbilical vein of sheep [1]. Since then, several studies have introduced modifications to the methods including the description of the reference sample for the calculation of blood flow [2], the injection of microspheres into the left atrium (LA) to minimise peripheral and central shunting [3], transient occlusion of the pulmonary artery also to minimise shunting [4], and the use of two different radioactive spheres and simultaneous LA and right atrium (RA) injections (via a left thoracotomy) to discriminate shunting from pulmonary blood flow [5]. Substantial modifications in this technique also included the use of nonradioactive spheres [6] which added significant environmental and logistical advantages. In addition, the use of smaller size spheres showed to be less
%U http://www.hindawi.com/journals/crp/2013/595838/