In vivo [11C] flumazenil‐PET correlates with ex vivo [3H] flumazenil autoradiography in hippocampal sclerosis

Abstract

By using [¹¹C]flumazenil‐positron emission tomography ([¹¹C]FMZ‐PET), we have previously shown that reductions of central benzodiazepine receptors (cBZRs) are restricted to the hippocampus in mesial temporal lobe epilepsy (mTLE) caused by unilateral hippocampal sclerosis (HS). Receptor autoradiographic studies on resected hippocampal specimens from the same patients demonstrated loss of cBZRs that was over and above loss of neurons in the CA1 subregion. Here, we report the first direct comparison of in vivo cBZR binding with [¹¹C]FMZ‐PET and ex vivo binding using [³H]FMZ autoradiography. We applied a magnetic resonance imaging‐based method for partial volume effect correction to the PET images of [¹¹C]FMZ volume of distribution ([¹¹C]FMZ V_d) obtained in 10 patients with refractory mTLE due to unilateral, hisologically verifed HS. Saturation autoradiography was performed on the hippocampal specimens obtained from the same patients, allowing calculation of receptor availability ([³H]FMZ B_max). After correction for partial volume effect, [¹¹C]FMZ V_d in the body of epileptogenic hippocampus was reduced by a mean of 42.1% compred with normal controls. [³H]FMZ b_max, determined autoradiographically from the same hippocampal tissue, was reduced by a mean of 42.7% compared with control hippocampi. Absolute in vivo and ex vivo measurements of cBZR binding for the body of the hippocampus were significantly correlated in each individual. Our study demonstrates that reduction of available cBZR on remaining neuron in HS can be reliably detected in vivo by using [¹¹C]FMZ‐PET after correction for partial volume effect.