Issue 22, 2012

Blood compatible microfluidic system for pharmacokinetic studies in small animals

Abstract

New radiotracer developments for nuclear medicine imaging require the analysis of blood as a function of time in small animal models. A microfluidic device was developed to monitor the radioactivity concentration in the blood of rats and mice in real time. The microfluidic technology enables a large capture solid angle and a reduction in the separation distance between the sample and detector, thus increasing the detection efficiency. This in turn allows a reduction of the required detection volume without compromising sensitivity, an important advantage with rodent models having a small total blood volume (a few ml). A robust fabrication process was developed to manufacture the microchannels on top of unpackaged p-i-n photodiodes without altering detector performance. The microchannels were fabricated with KMPR, an epoxy-based photoresist similar to SU-8 but with improved resistance to stress-induced fissuring. Surface passivation of the KMPR enables non-diluted whole blood to flow through the channel for up to 20 min at low speed without clotting. The microfluidic device was embedded in a portable blood counter with dedicated electronics, pumping unit and computer control software for utilisation next to a small animal nuclear imaging scanner. Experimental measurements confirmed model predictions and showed a 4- to 19-fold improvement in detection efficiency over existing catheter-based devices, enabling a commensurate reduction in sampled blood volume. A linear dose-response relationship was demonstrated for radioactivity concentrations typical of experiments with rodents. The system was successfully used to measure the blood input function of rats in real time after radiotracer injection.

Graphical abstract: Blood compatible microfluidic system for pharmacokinetic studies in small animals

Supplementary files

Article information

Article type
Paper
Submitted
14 May 2012
Accepted
22 Aug 2012
First published
23 Aug 2012

Lab Chip, 2012,12, 4683-4692

Blood compatible microfluidic system for pharmacokinetic studies in small animals

L. Convert, F. G. Baril, V. Boisselle, J. Pratte, R. Fontaine, R. Lecomte, P. G. Charette and V. Aimez, Lab Chip, 2012, 12, 4683 DOI: 10.1039/C2LC40550D

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