Iveta Nováková scite author profile

Iveta Nováková

2Publications

53Citation Statements Received

52Citation Statements Given

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University of Vienna

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Transport Rankings of Non-Steroidal Antiinflammatory Drugs across Blood-Brain Barrier In Vitro Models

et al. 2014

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The aim of this work was to conduct a comprehensive study about the transport properties of NSAIDs across the blood-brain barrier (BBB) in vitro. Transport studies with celecoxib, diclofenac, ibuprofen, meloxicam, piroxicam and tenoxicam were accomplished across Transwell models based on cell line PBMEC/C1-2, ECV304 or primary rat brain endothelial cells. Single as well as group substance studies were carried out. In group studies substance group compositions, transport medium and serum content were varied, transport inhibitors verapamil and probenecid were added. Resulted permeability coefficients were compared and normalized to internal standards diazepam and carboxyfluorescein. Transport rankings of NSAIDs across each model were obtained. Single substance studies showed similar rankings as corresponding group studies across PBMEC/C1-2 or ECV304 cell layers. Serum content, glioma conditioned medium and inhibitors probenecid and verapamil influenced resulted permeability significantly. Basic differences of transport properties of the investigated NSAIDs were similar comparing all three in vitro BBB models. Different substance combinations in the group studies and addition of probenecid and verapamil suggested that transporter proteins are involved in the transport of every tested NSAID. Results especially underlined the importance of same experimental conditions (transport medium, serum content, species origin, cell line) for proper data comparison.

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Transport of NSAIDs across the Blood-Brain Barrier in vitro

Nováková¹,

Neuhaus²,

Sonnenberg³

et al. 2009

Sci. Pharm.

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The migration of substances between blood circulation and central nervous system (CNS) is regulated by the blood-brain barrier (BBB). Small lipophilic molecules such as carbon dioxide, oxygen or ethanol can pass the BBB by passive, transcellular diffusion, while the paracellular transport of hydrophilic substances is restricted by intercellular tight-junctions. Due to accessory transport systems the BBB is able to regulate specifically the permeation of substances (e.g. nutrients) [1]. Non-steroidal antiinflammatory drugs (NSAIDs) are among the most commonly used substances world-wide, yet little is known about their ability to cross the BBB. Since NSAIDs may exhibit CNS side-effects including dizziness, headaches and drowsiness we sought to study the transport of several NSAIDs (Diclofenac, Ibuprofen, Piroxicam, Meloxicam, Lornoxicam and Tenoxicam) across the BBB. We carried out both single studies and group studies, applying either a single substance or several substances simultaneously to a BBB in vitro model based on the human cell line ECV304. The permeability data were normalized to the internal standards Diazepam and Carboxyfluorescein to account for cell layer's variabilities. The permeability coefficients of the fastest substance Diazepam were in the range of 26-40 µl/min in the single studies. Diclofenac was the slowest NSAID with a factor of 7,10 ± 1,22 related to Diazepam, followed by the oxicams and Ibuprofen (f = 3,51 ± 0,27). Together with previous data from our group these findings suggest that the transport of Ibuprofen is supported by a still unknown transport system. Furthermore, these results link the individual permeability coefficients with the incidence and severity of CNS side-effects of the individual substances and may guide future NSAID drug design.[1]Ballabh P, Braun A, Nedergaard M. The blood-brain barrier: an overview. Stucture, regulation, and clinical implications.

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