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Regenerative Neurology and Regenerative Cardiology: Shared Hurdles and Achievements.

Dinko MitrecicValentina HribljanDenis JagečićJasmina IsakovicFederica LambertoAlex HoránszkyMelinda ZanaGabor FoldesBarbara ZavanAugustas PivoriūnasSalvador MartinezLetizia MazziniLidija RadenovicJelena M MilasinJuan Carlos ChachquesLeonora BuzanskaMin Suk SongAndras Dinnyes
Published in: International journal of molecular sciences (2022)
From the first success in cultivation of cells in vitro, it became clear that developing cell and/or tissue specific cultures would open a myriad of new opportunities for medical research. Expertise in various in vitro models has been developing over decades, so nowadays we benefit from highly specific in vitro systems imitating every organ of the human body. Moreover, obtaining sufficient number of standardized cells allows for cell transplantation approach with the goal of improving the regeneration of injured/disease affected tissue. However, different cell types bring different needs and place various types of hurdles on the path of regenerative neurology and regenerative cardiology. In this review, written by European experts gathered in Cost European action dedicated to neurology and cardiology-Bioneca, we present the experience acquired by working on two rather different organs: the brain and the heart. When taken into account that diseases of these two organs, mostly ischemic in their nature (stroke and heart infarction), bring by far the largest burden of the medical systems around Europe, it is not surprising that in vitro models of nervous and heart muscle tissue were in the focus of biomedical research in the last decades. In this review we describe and discuss hurdles which still impair further progress of regenerative neurology and cardiology and we detect those ones which are common to both fields and some, which are field-specific. With the goal to elucidate strategies which might be shared between regenerative neurology and cardiology we discuss methodological solutions which can help each of the fields to accelerate their development.
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