Post Tagged with: "Šemrov D"

Miklavčič D, Šemrov D, Mekid H, Mir LM. A validated model of in vivo electric field distribution in tissues for electrochemotherapy and for DNA electrotransfer for gene therapy.
Biochim. Biophys. Acta 1523: 73-83, 2000. [PDF ] []
Šemrov D, Miklavčič D. Numerical modeling for in vivo electroporation.
Meth. Mol. Med. 37: 63-81, 2000. [PDF ] []
Miklavčič D, Beravs K, Šemrov D, Čemažar M, Demšar F, Serša G. The importance of electric field distribution for effective in vivo electroporation of tissues.
Biophys. J. 74: 2152-2158, 1998. [PDF ] []
Susil R, Šemrov D, Miklavčič D. Electric field induced transmembrane potential depends on cell density and organization.
Electro. Magnetobiol. 17: 391-399, 1998. [PDF ] []
Šemrov D, Miklavčič D. Calculation of the electrical parameters in electrochemotherapy of solid tumours in mice.
Comput. Biol. Med. 28: 439-448, 1998. [PDF ] []
Karba R, Šemrov D, Vodovnik L, Benko H, Šavrin R. DC electrical stimulation for chronic wound healing enhancement.
Part 1. Clinical study and determination of electrical field distribution in the numerical wound model. Bioelectrochem. Bioenerg. 43: 265-270, 1997. [PDF ] []
Miklavčič D, Šemrov D, Valenčič V, Serša G, Vodovnik L. Tumour treatment by direct electric current: computation of electric current and power density distribution.
Electro. Magnetobiol. 16: 119-128, 1997. [PDF ] []
Šemrov D, Karba R, Valenčič V. DC electrical stimulation for chronic wound healing enhancement.
Part 2. Parameter determination by numerical modelling. Bioelectrochem. Bioenerg. 43: 271-277, 1997. [PDF ] []
Serša G, Čemažar M, Šemrov D, Miklavčič D. Changing electrode orientation improves the efficacy of electrochemotherapy of solid tumors in mice.
Bioelectrochem. Bioenerg. 39: 61-66, 1996. [PDF ] []
Šemrov D, Kotnik T, Miklavčič D. Modeliranje bioloških in kemijskih sistemov s celičnimi avtomati.
Elektroteh. Vestn. 63: 241-248, 1996. [PDF ] []