Issue 48, 2011

Further evaluation of quantum chemical methods for the prediction of non-specific binding of positron emission tomography tracers

Abstract

The non-specific binding of candidate positron emission tomography (PET) radiotracers causes resulting PET images to have poor contrast and is a key determinant for the success or failure of imaging drugs. Non-specific binding is thought to arise when radiotracers bind to cell membranes and moieties other than their intended target. Our previous preliminary work has proposed the use of the drug-lipid interaction energy descriptor to predict the level of non-specific binding in vivo using a limited set of ten well known PET radiotracers with kinetic modelling data taken from the literature. This work validates and extends the use of the drug-lipid interaction energy descriptor using a new set of twenty-two candidate PET radiotracers with non-specific binding data recently collected at the same imaging centre with consistent methodology. As with the previous set of radiotracers, a significant correlation is found between the quantum chemical drug-lipid interaction energy and in vivo non-specific binding experimental values. In an effort to speed up the calculation process, several semi-empirical quantum chemical methods were assessed for their ability to reproduce the ab initio results. However no single semi-empirical method was found to consistently reproduce the level of correlation achieved with ab initio quantum chemical methods.

Graphical abstract: Further evaluation of quantum chemical methods for the prediction of non-specific binding of positron emission tomography tracers

Article information

Article type
Paper
Submitted
26 Aug 2011
Accepted
17 Oct 2011
First published
04 Nov 2011

Phys. Chem. Chem. Phys., 2011,13, 21552-21557

Further evaluation of quantum chemical methods for the prediction of non-specific binding of positron emission tomography tracers

C. J. Dickson, A. D. Gee, I. Bennacef, I. R. Gould and L. Rosso, Phys. Chem. Chem. Phys., 2011, 13, 21552 DOI: 10.1039/C1CP22739D

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