2023-05-22
New doctoral dissertation
VILNIUS TECH Library invites you to follow the published new dissertations. The dissertation „Development and research of invasive and non-invasive electrodes for electrochemotherapy“ („Invazinių ir neinvazinių elektrodų elektrochemoterapijai kūrimas ir tyrimas“) prepared by VILNIUS TECH, Veronika Malyško-Ptašinskė. The dissertation was prepared in 2019−2023, supervisor Prof. Dr Vitalij Novickij.
The dissertation was defended at the public meeting of the Dissertation Defence Council of the Scientific Field of Electrical and Electronic Engineering in the Senate Hall of Vilnius Gediminas Technical University at 10 a. m. on 22 May 2023.
„Electroporation-based biomedical treatment has proven to be an efficient method for treating cancer, gene administration or tissue ablation. However, due to the limitations, i.e., inhomogeneous treatment leading to tumour regression, muscle contractions, pain, etc., further optimisation is necessary for the electrodes and pulsed electric field protocols to be performed before clinical use. The dissertation is focused on developing novel electrode structures to ensure uniform treatment and optimal electrical pulsing protocols. The objective of this dissertation is an adequate simulation of electroporationbased treatments by estimating electric field distribution using accurate tissue models and applied electroporation research.“
Doctoral dissertation readers can search via VILNIUS TECH Virtual Library.
The dissertation was defended at the public meeting of the Dissertation Defence Council of the Scientific Field of Electrical and Electronic Engineering in the Senate Hall of Vilnius Gediminas Technical University at 10 a. m. on 22 May 2023.
„Electroporation-based biomedical treatment has proven to be an efficient method for treating cancer, gene administration or tissue ablation. However, due to the limitations, i.e., inhomogeneous treatment leading to tumour regression, muscle contractions, pain, etc., further optimisation is necessary for the electrodes and pulsed electric field protocols to be performed before clinical use. The dissertation is focused on developing novel electrode structures to ensure uniform treatment and optimal electrical pulsing protocols. The objective of this dissertation is an adequate simulation of electroporationbased treatments by estimating electric field distribution using accurate tissue models and applied electroporation research.“
Doctoral dissertation readers can search via VILNIUS TECH Virtual Library.