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- Bogdanović, Renée Marie, et al.
(författare)
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(R)-[(11)C]PK11195 brain uptake as a biomarker of inflammation and antiepileptic drug resistance : Evaluation in a rat epilepsy model
- 2014
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Ingår i: Neuropharmacology. - : Elsevier BV. - 0028-3908 .- 1873-7064. ; 85, s. 104-112
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Tidskriftsartikel (refereegranskat)abstract
- Neuroinflammation has been suggested as a key determinant of the intrinsic severity of epilepsy. Glial cell activation and associated inflammatory signaling can influence seizure thresholds as well as the pharmacodynamics and pharmacokinetics of antiepileptic drugs. Based on these data, we hypothesized that molecular imaging of microglia activation might serve as a tool to predict drug refractoriness of epilepsy. Brain uptake of (R)-[(11)C]PK11195, a ligand of the translocator protein 18 kDa and molecular marker of microglia activation, was studied in a chronic model of temporal lobe epilepsy in rats with selection of phenobarbital responders and non-responders. In rats with drug-sensitive epilepsy, (R)-[(11)C]PK11195 brain uptake values were comparable to those in non-epileptic controls. Analysis in non-responders revealed enhanced brain uptake of up to 39% in different brain regions. The difference might be related to the fact that non-responders exhibited higher baseline seizure frequencies than responders indicating a more pronounced intrinsic disease severity. In hippocampal sections, ED1 immunostaining argued against a general difference in microglia activation between both groups. Our data suggest that TSPO PET imaging might serve as a biomarker for drug resistance in temporal lobe epilepsy. However, it needs to be considered that our findings indicate that the TSPO PET data might merely reflect seizure frequency. Future experimental and clinical studies should further evaluate the validity of TSPO PET data to predict the response to phenobarbital and other antiepileptic drugs in longitudinal studies with scanning before drug exposure and with a focus on the early phase following an epileptogenic brain insult.
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| 2. |
- Syvänen, Stina, et al.
(författare)
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[C-11]quinidine and [C-11]laniquidar PET imaging in a chronic rodent epilepsy model : Impact of epilepsy and drug-responsiveness
- 2013
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Ingår i: Nuclear Medicine and Biology. - : Elsevier BV. - 0969-8051 .- 1872-9614. ; 40:6, s. 764-775
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Tidskriftsartikel (refereegranskat)abstract
- Introduction: To analyse the impact of both epilepsy and pharmacological modulation of P-glycoprotein on brain uptake and kinetics of positron emission tomography (PET) radiotracers [C-11]quinidine and [C-11]laniquidar.Methods: Metabolism and brain kinetics of both [C-11]quinidine and [C-11]laniquidar were assessed in naive rats, electrode-implanted control rats, and rats with spontaneous recurrent seizures. The latter group was further classified according to their response to the antiepileptic drug phenobarbital into "responders" and "non-responders". Additional experiments were performed following pre-treatment with the P-glycoprotein modulator tariquidar.Results: [C-11]quinidine was metabolized rapidly, whereas [C-11]laniquidar was more stable. Brain concentrations of both radiotracers remained at relatively low levels at baseline conditions. Tariquidar pre-treatment resulted in significant increases of [C-11]quinidine and [C-11]laniquidar brain concentrations. In the epileptic subgroup "non-responders", brain uptake of [C-11]quinidine in selected brain regions reached higher levels than in electrode-implanted control rats. However, the relative response to tariquidar did not differ between groups with full blockade of P-glycoprotein by 15 mg/kg of tariquidar. For [C-11]laniquidar differences between epileptic and control animals were only evident at baseline conditions but not after tariquidar pretreatment.Conclusions: We confirmed that both [C-11]quinidine and [C-11]laniquidar are P-glycoprotein substrates. At full P-gp blockade, tariquidar pre-treatment only demonstrated slight differences for [C-11]quinidine between drug-resistant and drug-sensitive animals.
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