Hakan Eroğlu scite author profile

There is an urgent need to develop new therapeutic approaches for the treatment of severe neurological trauma, such as stroke and spinal cord injuries. However, many drugs with potential neuropharmacological activity, like adenosine, are inefficient upon systemic administration because of their fast metabolisation and rapid clearance from the bloodstream. Here, we show that the conjugation of adenosine to the lipid squalene and the subsequent formation of nanoassemblies allow a prolonged circulation of this nucleoside, to provide neuroprotection in mouse stroke and rat spinal cord injury models. The animals receiving systemic administration of squalenoyl adenosine nanoassemblies showed a significant improvement of their neurologic deficit score in the case of cerebral ischaemia, and an early motor recovery of the hindlimbs in the case of spinal cord injury. Moreover, in vitro and in vivo studies demonstrated that the nanoassemblies were able to extend adenosine circulation and its interaction with the neurovascular unit. This paper shows, for the first time, that a hydrophilic and rapidly metabolised molecule like adenosine may become pharmacologically efficient owing to a single conjugation with the lipid squalene.

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A stability indicating RP-HPLC method for determination of the COVID-19 drug molnupiravir applied using nanoformulations in permeability studies

Reçber

Timur

Erdoğan

et al. 2022

Journal of Pharmaceutical and Biomedical Analysis

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Novel advances in targeted drug delivery

Öztürk-Atar

Eroğlu

Çalış

2017

Journal of Drug Targeting

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Developing a new drug molecule is not only time-consuming and expensive, but also mostly a failing process. However, improving bioavailability, targetability, efficacy or safety of old drugs could be more effective way to use them in clinic. For these purposes, so many strategies including individualising drug therapy, nanoparticle-based drug delivery systems, drug conjugates, therapeutic drug monitoring, stimuli-sensitive targeted therapy are investigated intensely. Depending on the desired application or targeted site, nanoparticles can be administrated as orally, locally, topically and systemically. Currently, the Food and Drug Administration and the European Medicines Agency approved nanoparticles are mostly aimed to treat cancer. Although some of these formulations were approved by Food and Drug Administration and/or European Medicines Agency to use in clinic, most of them have fell down to pass either pre-clinical or clinical trials. To have high approval rate, failure reasons need to be better understand.

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Current status of micro/nanomotors in drug delivery

Tezel

Timur

Kuralay

et al. 2020

Journal of Drug Targeting

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Localized delivery of methylprednisolone sodium succinate with polymeric nanoparticles in experimental injured spinal cord model

Karabey-Akyurek

Gürçay

Gurcan

et al. 2016

Pharmaceutical Development and Technology

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With important social and economic consequences, spinal cord injuries (SCIs) still exist among major health problems. Although many therapeutic agents and methods investigated for the treatment of acute SCI, only high dose methylprednisolone (MP) is being used currently in practice. Due to the serious side effects, high dose systemic MP administration after SCI is a critical issue that is mostly considered controversial. In our study, it is aimed to develop a nanoparticle-gel combined drug delivery system for localization of MP on trauma site and eliminating dose-dependent side effects by lowering the administered dose. For this purpose, methyl prednisolone sodium succinate (MPSS) loaded polycaprolactone based nanoparticles were developed and embedded in an implantable fibrin gel. The effects of MPSS delivery system are evaluated on an acute SCI rat model, by quantification the levels of three inflammatory cytokines (interleukin-1β, interleukin-6 and caspase-3) and assessment of the damage on ultrastructural level by transmission electron microscopy. Developed NP-gel system showed very similar results with systemic high dose of MPSS. It is believed that developed system may be used as a tool for the safe and effective localized delivery of several other therapeutic molecules on injured spinal cord cases.

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Hakan Eroğlu

Squalenoyl adenosine nanoparticles provide neuroprotection after stroke and spinal cord injury

A stability indicating RP-HPLC method for determination of the COVID-19 drug molnupiravir applied using nanoformulations in permeability studies

Novel advances in targeted drug delivery

Current status of micro/nanomotors in drug delivery

Localized delivery of methylprednisolone sodium succinate with polymeric nanoparticles in experimental injured spinal cord model

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