Cell membrane electroporation. Part 3: the equipment / Rebersek, M. in IEEE electrical insulation magazine, Vol. 30 N° 3 (Mai-Juin 2014)  

Public ISBD [article]  inIEEE electrical insulation magazine > Vol. 30 N° 3 (Mai-Juin 2014) . - pp. 8 - 18 Titre : Cell membrane electroporation. Part 3: the equipment Type de document : texte imprimé Auteurs : Rebersek, M., Auteur ; Miklavcic, D., Auteur ; Bertacchini, C., Auteur Année de publication : 2015 Article en page(s) : pp. 8 - 18 Note générale : Génie électrique Langues : Français (fre) Mots-clés : Biomedical electrodes Biomembranes Cellular biophysics High-voltage techniques Molecular Pulse generators Résumé : As described in Part 1, a cell membrane can be made permeable to various molecules by carrying out a procedure called electroporation [1]. This procedure is being successfully used in biology, biotechnology, and medicine [2], [3]. It requires electroporators and electrodes. An electroporator generates short HV pulses of specific shape, amplitude, duration, number, and repetition frequency [4], and the pulses are applied to the target cells or load through the electrodes [5]. The energy delivered to the load is governed by the number of pulses and the pulse voltage, current, and duration. In biomedical applications that energy can be several joules; in biotechnology, where electroporation is used for treatment of agricultural products and water, it can be several kilojoules. En ligne : http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6804737&filter%3DAND% [...] [article] Cell membrane electroporation. Part 3: the equipment [texte imprimé] / Rebersek, M., Auteur ; Miklavcic, D., Auteur ; Bertacchini, C., Auteur . - 2015 . - pp. 8 - 18. Génie électrique Langues : Français (fre) in IEEE electrical insulation magazine > Vol. 30 N° 3 (Mai-Juin 2014) . - pp. 8 - 18 Mots-clés : Biomedical electrodes Biomembranes Cellular biophysics High-voltage techniques Molecular Pulse generators Résumé : As described in Part 1, a cell membrane can be made permeable to various molecules by carrying out a procedure called electroporation [1]. This procedure is being successfully used in biology, biotechnology, and medicine [2], [3]. It requires electroporators and electrodes. An electroporator generates short HV pulses of specific shape, amplitude, duration, number, and repetition frequency [4], and the pulses are applied to the target cells or load through the electrodes [5]. The energy delivered to the load is governed by the number of pulses and the pulse voltage, current, and duration. In biomedical applications that energy can be several joules; in biotechnology, where electroporation is used for treatment of agricultural products and water, it can be several kilojoules. En ligne : http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6804737&filter%3DAND% [...]

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