Fichter R, Miklavčič D, Kos B. On the influence of tissue anisotropy in numerical modelling of radiofrequency ablation. Int. J. Heat Mass Transf., 127976PDFDOI
Kühne M, Badertscher P, Andrade JG, Anic A, Chun J, Dello Russo A, Jais P, Kautzner J, Lehrmann H, Martin C, Merino J, Miklavčič D, Natale A, Neven K, Perez-Silva A, Piccini J, Reichlin T, Rosso R, Ruwald M, Sarkozy A, Scherr D, Sultan A, Tada H, Tzeis S, Verma A, Wilsmore B, Pürerfellner H. Pulsed field ablation for the interventional treatment of atrial fibrillation. A scientific statement of the European Heart Rhythm Association (EHRA) of the ESC, the Heart Rhythm Society (HRS), the Asia Pacific Heart Rhythm Society (APHRS), the Latin American Heart Rhythm Society (LAHRS) and the Canadian Heart Rhythm Society (CHRS). EP Europace, euag080PDFDOI
Miklavčič D, Rems L, Jan M, Kos B. Pulsed field ablation: Disrupting technology in cardiac electrophysiology. Heart Rhythm, 581-592PDFDOI
Polajžer T, Kranjc M, Kralj S, Caf M, Romih R, Hudoklin S, Novickij V, Miklavčič D. Modulation of contactless high intensity pulsed electromagnetic field induced electroporation and gene delivery efficacy using various nanoparticles. Bioelectricity 0(0), 1-11PDFDOI
Verma A, Hocini M, Andrade J, Gerstenfeld E, Kapa S, Lakkireddy D, Miklavčič D, Natale A, Piccini J, Schmidt B, Gunawardene M A. 2026 HRS/EHRA scientific statement on pulsed field ablation for cardiac arrhythmias. Heart Rhythm, S1547-5271(26)00124-4PDFDOI
2025(14)
Batista Napotnik T, Cimperman T, Rems L. Excitation and electroporation in genetically engineered excitable S-HEK cells exposed to electric pulses of different durations. Sci. Rep. 15, 23451PDFDOI
Blažič A, Majc B, Novak M, Breznik B, Rems L. Invasive properties of patient-derived glioblastoma cells after reversible electroporation in vitro. Radiology and Oncology, 59(4), 535–550PDFDOI
Blažič A, Šmerc R, Polajžer T, Miklavčič D, Rems L. Reassessing lidocaine as an electroporation sensitizer in vitro. Sci. Rep. 15, 25593PDFDOI
Kos B, Reberšek M, Miklavčič D. Complexity and perplexity of pulsed field ablation: An engineering perspective. Arrhythm. Electrophysiol. Rev. 14, e24PDFDOI
López-Alonso B, Polajžer T, Reberšek M, Sarnago H, Lucía O, Miklavčič D. Study on effect of electroporation combining high- and low-frequency harmonics. Bioelectrochemistry 165, 108971PDFDOI
Maček Lebar A, Potočnik T, Ščančar J, Marković S, Polajžer T. Bystander effect of metal byproducts released from electroporated cells after electroporation in vitro. Bioelectrochemistry 164, 108940PDFDOI
Plešnik H, Vižintin A, Miklavčič D, Steed J, Stahl-Zeng J, Kosjek T. Quantitative analysis of trace-level bleomycin in complex matrices: Application to in vitro electrochemotherapy. J. Pharm. Biomed. Anal., 116927PDFDOI
Polajžer T, Kranjc M, Kralj S, Caf M, Romih R, Hudoklin S, Rocca F, Miklavčič D. Limited efficacy of nanoparticle-assisted electroporation for membrane permeabilization and gene electrotransfer. Pharmaceutics 17, 964PDFDOI
Tan NY, Del-Carpio Munoz F, Tri JA, Koya T, Otsuka N, DeSimone CV, Yalamuri S, Maor E, Castellvi Q, Ivorra A, Miklavčič D, Asirvatham SJ. Atrial fibrillation and flutter conversion with pulsed electric field delivery: preclinical proof of concept. J. Interv. Card. Electrophysiol., 1-7PDFDOI
Terricabras M, Lombergar P, Escartin T, Kos B, Krahn P, Barry J, Wright G, Jarm T, Štublar J, Kranjc M, Coulombe N, Mattison L, Sigg C D, Miklavčič D, Verma A. Modified unipolar return pulsed field ablation in ventricular myocardium. Circ. Arrhythm. Electrophysiol. 18, e014006PDFDOI
Šmerc R, Miklavčič D, Mahnič-Kalamiza S. An experimentally validated numerical model of pH changes in surrogate tissue induced by electroporation pulses. Electrochim. Acta 511, 145363PDFDOI
Šmerc R, Miklavčič D, Mahnič-Kalamiza S. Skeletal muscle death from the perspective of electrical impedance as evidenced by experiment and numerical modelling. Comput. Biol. Med. 197, 111073PDFDOI
Šmerc R, Stručić M, Kranjc M, Serša I, Miklavčič D, Mahnič-Kalamiza S. Electrical pathways through the intricate network of skeletal muscle fibres: Insights from MRI-validated numerical modeling. IEEE Trans. Biomed. Eng. 72(12)PDFDOI
Štublar J, Jarm T, Mattison L, Martin BD, Schmidt M, Jan M, Verma A, Iaizzo PA, Sigg DC, Miklavčič D. Intracardiac electrogram analysis may allow for prediction of lesion transmurality after pulsed field ablation of atria in a porcine model. Heart Rhythm O2 6, 350-361PDFDOI
2024(19)
Balantič K, Kramar P, Miklavčič D. In silico numerical model of aluminum and iron dissolution during electric pulse application for electroporation. Bioelectricity 6(1), 42-53PDFDOI
Batista Napotnik T, Kos B, Jarm T, Miklavčič D, O'Connor RP, Rems L. Genetically engineered HEK cells as a valuable tool for studying electroporation in excitable cells. Sci. Rep. 14, 720PDFDOI
Batista Napotnik T, Kos B, Rems L. Monitoring electroporation-induced changes in action potential generation in genetically engineered tet-on spiking HEK cells. J. Vis. Exp. 211, e67257PDFDOI
Blažič A, Guinard M, Leskovar T, O'Connor RP, Rems L. Long-term changes in transmembrane voltage after electroporation are governed by the interplay between nonselective leak current and ion channel activation. Bioelectrochemistry 161, 108802PDFDOI
Chun K-R J, Miklavčič D, Vlachos K, Bordignon S, Scherr D, Jais P, Schmidt B. State-of-the-art pulsed field ablation for cardiac arrhythmias: ongoing evolution and future perspective. Europace 26, euae134PDFDOI
Cimperman T, Batista Napotnik T, Rems L. Vzdražne celice HEK in njihov odziv na električne pulze različnih dolžin. Elektroteh. Vestn. 91(1-2), 37-46PDF
Genovese J, Rocculi P, Miklavčič D, Mahnič-Kalamiza S. The forgotten method? Pulsed electric field thresholds from the perspective of texture analysis. Food Res. Int. 176, 113869PDFDOI
Haberl Meglič S. Molža bakterij z elektriko: znanstvena fantastika ali realnost?. Proteus 86 (9/10), 427-430, 435-443PDF
Haberl Meglič S, Slokar D, Miklavčič D. Inactivation of antibiotic-resistant bacteria Escherichia coli by electroporation. Front. Microbiol. 15, 1347000PDFDOI
Jan V, Jusović M, Miklavčič D. Effects of Electroporation on the Function of Sarco/Endoplasmic Reticulum Ca2+-ATPase and Na+,K+-ATPase in H9c2 Cells. Appl. Sci. 14, 2695PDFDOI
Lombergar P, Flisar K, Miklavčič D, Mahnič-Kalamiza S. Time-dependent model of temperature distribution in continuous flow pulsed electric field treatment chambers. Innov. Food Sci. Emerg. Tech. 93, 103628PDFDOI
Lovšin Ž, Kotnik T, Klančnik A. Antibiotic’s target site affects the potentiation of Lactiplantibacillus plantarum inhibition and inactivation by electroporation. Front. Microbiol. 15, 1331714PDFDOI
Mahnič-Kalamiza S, Miklavčič D, Lombergar P, Mikuž B, Mattison LM, Sigg DC, Kos B. Elucidating the mechanisms of microbubble formation in intracardiac pulsed field ablation. Electrochim. Acta 497, 144550PDFDOI
Miklavčič D, Verma A, Krahn PRP, Štublar J, Kos B, Escartin T, Lombergar P, Coulombe N, Terricabras M, Jarm T, Kranjc M, Barry J, Mattison L, Kirchhof N, Sigg DC, Stewart M, Wright G. Biophysics and electrophysiology of pulsed field ablation in normal and infarcted porcine cardiac ventricular tissue. Sci. Rep. 14, 32063PDFDOI
Polajžer T, Maček Lebar A. Dinamika celične smrti v matematičnem modelu elektroporacije. Elektroteh. Vestn. 91(3), 131-137PDF
Polajžer T, Peng W, Yao C, Miklavčič D. Changes in mitochondrial membrane potential in in vitro electroporation with nano- and microsecond pulses. Bioelectricity 6(2), 97-107PDFDOI
Rems L, Rainot A, Wiczew D, Szulc N, Tarek M. Cellular excitability and ns-pulsed electric fields: Potential involvement of lipid oxidation in the action potential activation. Bioelectrochemistry 155, 108588PDFDOI
Scuderi M, Dermol-Černe J, Ščančar J, Marković S, Rems L, Miklavčič D. The equivalence of different types of electric pulses for electrochemotherapy with cisplatin − an in vitro study. Radiol. Oncol. 58(1), 51-66PDFDOI
Stručić M, Miklavčič D, Vidic Z, Scuderi M, Serša I, Kranjc M. Analysis of magnetic resonance contrast agent entrapment following reversible electroporation in vitro. Radiol. Oncol. 58(3), 406-415PDFDOI
2023(12)
Balantič K, Weiss VU, Pittenauer E, Miklavčič D, Kramar P. The role of lipid oxidation on electrical properties of planar lipid bilayers and its importance for understanding electroporation. Bioelectrochemistry 153, 108498PDFDOI
Cvetkoska A, Maček-Lebar A, Polajžer T, Reberšek M, Upchurch W, Iaizzo PA, Sigg DC, Miklavčič, D. The effects of interphase and interpulse delays and pulse widths on induced muscle contractions, pain and therapeutic efficacy in electroporation-based therapies. J. Cardiovasc. Dev. Dis. 10, 490PDFDOI
Genovese J, Stručić M, Serša I, Novickij V, Rocculi P, Miklavčič D, Mahnič-Kalamiza S, Kranjc M. PEF treatment effect on plant tissues of heterogeneous structure no longer an enigma: MRI insights beyond the naked eye. Food Chem. 405/A, 134892PDFDOI
Kos B, Mattison L, Ramirez D, Cindrič H, Sigg DC, Iaizzo, PA, Stewart MT, Miklavčič D. Determination of lethal electric field threshold for pulsed field ablation in ex vivo perfused porcine and human hearts. Front. Cardiovasc. Med. 10, 1160231PDFDOI
Kranjc M, Polajžer T, Novickij V, Miklavčič D. Determination of the impact of high-intensity pulsed electromagnetic fields on the release of damage-associated molecular pattern molecules. Int. J. Mol. Sci. 24(19), 14607PDFDOI
Mahnič-Kalamiza S, Kotnik T. All is not quiet on the food safety front thanks to pulsed electric field treatment: Comment on "Advances in pulsed electric stimuli as a physical method for treating liquid foods" by Farzan Zare, Negareh Ghasemi, Nidhi Bansal, Hamid Hosano. Phys. Life Rev. 47, 17-19PDFDOI
Mattison L, Verma A, Tarakji KG, Reichlin T, Hindricks G, Sack KL, Önal B, Schmidt MM, Miklavčič D, Sigg DC. Effect of contact force on pulsed field ablation lesions in porcine cardiac tissue. J. Cardiovasc. Electrophysiol. 34, 693-699PDFDOI
Peng W, Polajžer T, Yao C, Miklavčič D. Dynamics of cell death due to electroporation using different pulse parameters as revealed by different viability assays. Ann. Biomed. Eng., 1-14PDFDOI
Polajžer T, Miklavčič D. Immunogenic cell death in electroporation-based therapies depends on pulse waveform characteristics. Vaccines 11, 1036PDFDOI
Scuderi M, Dermol-Černe J, Batista Napotnik T, Chaigne S, Bernus O, Benoist D, Sigg DC, Rems L, Miklavčič D. Characterization of experimentally observed complex interplay between pulse duration, electrical field strength, and cell orientation on electroporation outcome using a time-dependent nonlinear numerical model. Biomolecules 13, 727PDFDOI
Šmerc R, Ramirez DA, Mahnič-Kalamiza S, Dermol-Černe J, Sigg DC, Mattison LM, Iaizzo PA. A multiscale computational model of skeletal muscle electroporation validated using in situ porcine experiments. IEEE Trans. Biomed. Eng. 70(6), 1826-1837PDFDOI
Žagar T, Valič B, Kotnik T, Korat S, Tomšič S, Zadnik V, Gajšek P. Estimating exposure to extremely low frequency magnetic fields near high-voltage power lines and assessment of possible increased cancer risk among Slovenian children and adolescents. Radiol. Oncol. 57/1, 59-69PDFDOI
2022(17)
Chaigne S, Sigg DC, Stewart MT, Hocini M, Batista Napotnik T, Miklavčič D, Bernus O, Benoist D. Reversible and irreversible effects of electroporation on contractility and calcium homeostasis in isolated cardiac ventricular myocytes. Circ. Arrhythm. Electrophysiol. 15, e011131PDFDOI
Cindrič H, Gašljević G, Edhemović I, Brecelj E, Žmuc J, Čemažar M, Seliškar A, Miklavčič D, Kos B. Numerical mesoscale tissue model of electrochemotherapy in liver based on histological findings. Sci. Rep. 12, 6476PDFDOI
Cindrič H, Miklavčič D, Cornelis FH, Kos B. Optimization of transpedicular electrode insertion for electroporation-based treatments of vertebral tumors. Cancers 14, 5412PDFDOI
Cvetkoska A, Demol-Černe J, Miklavčič D, Kranjc Brezar S, Markelc B, Serša G, Reberšek M. Design, development, and testing of a device for gene electrotransfer to skin cells in vivo. Pharmaceutics 14, 1826PDFDOI
Cvetkoska A, Maček-Lebar A, Trdina P, Miklavčič D, Reberšek M. Muscle contractions and pain sensation accompanying high‑frequency electroporation pulses. Sci. Rep. 12, 8019PDFDOI
Howard B, Verma A, Tzou WS, Mattison L, Kos B, Miklavčič D, Onal B, Stewart MT, Sigg DC. Effects of electrode-tissue proximity on cardiac lesion formation using pulsed field ablation. Circ. Arrhythm. Electrophysiol. 15, e011110PDFDOI
Kranjc M, Dermol-Černe J, Potočnik T, Novickij V, Miklavčič D. High-intensity pulsed electromagnetic field-mediated gene electrotransfection in vitro. Int. J. Mol. Sci. 23, 9543PDFDOI
Muralidharan A, Pesch GR, Hubbe H, Rems L, Nouri-Goushiki M, Boukany PE. Microtrap array on a chip for localized electroporation and electro-gene transfection. Bioelectrochemistry 147, 108197PDFDOI
Novickij V, Balevičiūtė A, Malyško V, Želvys A, Radzevičiūtė E, Kos B, Zinkevičiene A, Miklavčič D, Novickij J, Girkontaite I. Effects of time delay between unipolar pulses in high frequency nano-electrochemotherapy. IEEE Trans. Biomed. Eng. 69(5), 1726-1732PDFDOI
Potočnik T, Maček Lebar A, Kos Š, Reberšek M, Pirc E, Serša G, Miklavčič D. Effect of experimental electrical and biological parameters on gene transfer by electroporation: A systematic review and meta-analysis. Pharmaceutics 14, 2700PDFDOI
Potočnik T, Sachdev S, Polajžer T, Maček Lebar A, Miklavčič D. Efficient gene transfection by electroporation—in vitro and in silico study of pulse parameters. Appl. Sci. 12, 8237PDFDOI
Rems L, Tang X, Zhao F, Perez-Conesa S, Testa I, Delemotte L. Identification of electroporation sites in the complex lipid organization of the plasma membrane. eLife, 11:e74773PDFDOI
Sachdev S, Potočnik T, Rems L, Miklavčič D. Revisiting the role of pulsed electric fields in overcoming the barriers to in vivo gene electrotransfer. Bioelectrochemistry 144, 107994PDFDOI
Scuderi M, Dermol-Černe J, Amaral da Silva C, Muralidharan A, Boukany PE, Rems L. Models of electroporation and the associated transmembrane molecular transport should be revisited. Bioelectrochemistry 147, 108216PDFDOI
Vindiš T, Blažič A, Khayyat D, Potočnik T, Sachdev S, Rems L. Gene electrotransfer into mammalian cells using commercial cell culture inserts with porous substrate. Pharmaceutics 14, 1959PDFDOI
Vižintin A, Marković S, Ščančar J, Kladnik J, Turel I, Miklavčič D. Nanosecond electric pulses are equally effective in electrochemotherapy with cisplatin as microsecond pulses. Radiol. Oncol. 56/3, 326-335PDFDOI
Vižintin A, Miklavčič D. The electropermeome: cellular response to electroporation. Slo. Medical J. 91, 1-13PDFDOI
2021(23)
Balantič K, Miklavčič D, Križaj I, Kramar P. The good and the bad of cell membrane electroporation. Acta Chim. Slov. 68, 753-64PDFDOI
Balantič K, Weiss VU, Allmaier G, Kramar P. Calcium ion effect on phospholipid bilayers as cell membrane analogues. Bioelectrochemistry 143, 107988PDFDOI
Batista Napotnik T, Miklavčič D. Pulse duration dependent asymmetry in molecular transmembrane transport due to electroporation in H9c2 rat cardiac myoblast cells in vitro. Molecules 26, 6571PDFDOI
Batista Napotnik T, Polajžer T, Miklavčič D. Cell death due to electroporation – A review. Bioelectrochemistry 141, 107871PDFDOI
Cindrič H, Kos B, Miklavčič D. Irreversible electroporation as a novel method for soft tissue ablation: review and challenges in clinical practice. Zdrav. Vestn. 90/1-2, 38-53PDFDOI
Cindrič H, Mariappan P, Beyer L, Wiggermann P, Moche M, Miklavčič D, Kos B. Retrospective study for validation and improvement of numerical treatment planning of irreversible electroporation ablation for treatment of liver tumors. IEEE Trans. Biomed. Eng. 68(12), 3513-3524PDFDOI
Djukić-Vuković A, Haberl Meglič S, Flisar K, Mojović L, Miklavčič D. Pulsed electric field treatment of Lacticaseibacillus rhamnosus and Lacticaseibacillus paracasei, bacteria with probiotic potential. LWT 152, 112304PDFDOI
Dovgan B, Miklavčič D, Knežević M, Zupan J, Barlič A. Intracellular delivery of trehalose renders mesenchymal stromal cells viable and immunomodulatory competent after cryopreservation. Cytotechnology, 1-21PDFDOI
Genovese J, Kranjc M, Serša I, Petracci M, Rocculi P, Miklavčič D, Mahnič-Kalamiza S. PEF-treated plant and animal tissues: Insights by approaching with different electroporation assessment methods. Innov. Food Sci. Emerg. Technol. 74, 102872PDFDOI
Haberl Meglič S, Pavlin M. The impact of impaired DNA mobility on gene electrotransfer efficiency: analysis in 3D model. Biomed. Eng. Online 20, 85PDFDOI
Kramar P, Miklavčič D. Effect of the cholesterol on electroporation of planar lipid bilayer. Bioelectrochemistry 144, 108004PDFDOI
Kranjc M, Kranjc Brezar S, Serša G, Miklavčič D. Contactless delivery of plasmid encoding EGFP in vivo by high-intensity pulsed electromagnetic field. Bioelectrochemistry 141, 107847PDFDOI
Lovšin Ž, Klančnik A, Kotnik T. Electroporation as an efficacy potentiator for antibiotics with different target sites. Front. Microbiol. 12, 722232PDFDOI
Mahnič-Kalamiza S. Modeli dvojne poroznosti in njihova raba pri elektroporaciji bioloških tkiv. Elektroteh. Vestn. 88(3), 75-84PDF
Maček Lebar A, Miklavčič D, Kotulska M, Kramar P. Water pores in planar lipid bilayers at fast and slow rise of transmembrane voltage. Membranes 11, 263PDFDOI
Muralidharan A, Rems L, Kreutzer MT, Boukany PE. Actin networks regulate the cell membrane permeability during electroporation. Biochim. Biophys. Acta 1863(1), 183468PDFDOI
Nowosad K, Sujka M, Pankiewicz U, Miklavčič D, Arczewska M. Pulsed electric field (PEF) enhances iron uptake by the yeast Saccharomyces cerevisiae. Biomolecules 11, 850PDFDOI
Pirc E, Miklavčič D, Uršič K, Serša G, Reberšek M. High-frequency and high-voltage asymmetric bipolar pulse generator for electroporation based technologies and therapies. Electronics 10, 1203PDFDOI
Potočnik T, Miklavčič D, Maček Lebar A. Gene transfer by electroporation with high frequency bipolar pulses in vitro. Bioelectrochemistry 140, 107803PDFDOI
Stewart MT, Haines DE, Miklavčič D, Kos B, Kirchof N, Barka N, Mattison L, Martien M, Onal B, Howard B, Verma A. Safety and chronic lesion characterization of pulsed field ablation in a Porcine model. J. Cardiovasc. Electrophysiol., 14980PDFDOI
Sujka M, Pankiewicz U, Flisar K, Miklavčič D, Haberl-Meglič S. Effect of electroporation in a continuous flow system on bioaccumulation of magnesium, zinc and calcium ions in Lactobacillus rhamnosus B 442 cells. Bioelectrochemistry 140, 107769PDFDOI
Vižintin A, Marković S, Ščančar J, Miklavčič D. Electroporation with nanosecond pulses and bleomycin or cisplatin results in efficient cell kill and low metal release from electrodes. Bioelectrochemistry 140, 107798PDFDOI
Štublar J, Žižek D, Jan M, Jarm T, Miklavčič D. Catheter ablation for the treatment of atrial fibrillation – development of various technical modalities. Slov. Med. J. 90/7-8, 410-419PDFDOI
2020(23)
Chiapperino MA, Mescia L, Bia P, Starešinič B, Čemažar M, Novickij V, Tabašnikov A, Smith S, Dermol-Černe J, Miklavčič D. Experimental and numerical study of electroporation induced by long monopolar and short bipolar pulses on realistic 3D irregularly shaped cells. IEEE Trans. Biomed. Eng. 67(10), 2781-1788PDFDOI
Cvetkoska A, Pirc E, Reberšek M, Magjarević R, Miklavčič D. Towards standardization of electroporation devices and protocols. IEEE Instrum. Meas. Mag. 23, 74-81PDFDOI
Dermol-Černe J, Batista Napotnik T, Reberšek M, Miklavčič D. Short microsecond pulses achieve homogeneous electroporation of elongated biological cells irrespective of their orientation in electric field. Sci. Rep. 10:9149, 1-17PDFDOI
Dermol-Černe J, Pirc E, Miklavčič D. Mechanistic view of skin electroporation – models and dosimetry for successful applications: an expert review. Expert Opin. Drug Deliv., 1-16PDFDOI
Djokić M, Dežman R, Čemazar M, Štabuc M, Petrič M, Šmid LM, Janša R, Plesnik B, Bošnjak M, Lampreht Tratar U, Trotovšek B, Kos B, Miklavčič D, Serša G, Popovič P. Percutaneous image guided electrochemotherapy of hepatocellular carcinoma: technological advancement. Radiol. Oncol. 54, 347-352PDFDOI
Djokić M, Čemažar M, Bošnjak M, Dežman R, Badovinac D, Miklavčič D, Kos B, Štabuc M, Štabuc B, Janša R, Popovič P, Šmid LM, Serša G, Trotovšek B. A prospective phase II study evaluating intraoperative electrochemotherapy of hepatocellular carcinoma. Cancers 12, 3778PDFDOI
Eleršek T, Flisar K, Likozar B, Klemenčič M, Golob J, Kotnik T, Miklavčič D. Electroporation as a solvent-free green technique for non-destructive extraction of proteins and lipids from Chlorella vulgaris. Front. Bioeng. Biotechnol. 8:443, 1-9PDFDOI
Geboers, B, Scheffer HJ, Graybill PM, Ruarus AH, Nieuwenhuizen S, Puijk RS, van den Tol PM, Davalos RV, Rubinsky B, de Gruijl TD, Miklavčič D, Meijerink MR. High-Voltage Electrical pulses in oncology: Irreversible electroporation, electrochemotherapy, gene electrotransfer, electrofusion, and electroimmunotherapy. Radiology 295, 254-272PDFDOI
Haberl Meglič S, Janež N, Peterka M, Flisar K, Kotnik T, Miklavčič D. Evaluation and Optimization of Protein Extraction From E. coli by Electroporation. Front. Bioeng. Biotechnol. 8, 543187PDFDOI
Howard B, Haines DE, Verma A, Packer D, Kirchhof N, Barka N, Onal B, Fraasch S, Miklavčič D, Stewart MT. Reduction in pulmonary vein stenosis and collateral damage with pulsed field ablation compared with radiofrequency ablation in a canine model. Circ. Arrhythm. Electrophysiol. 13(9), 910-920PDFDOI
Hu Q, Joshi RP, Miklavcic D. Calculations of cell transmembrane voltage induced by time-varying magnetic fields. IEEE Trans. Plasma Sci., 1-8PDFDOI
Jarm T, Krmac T, Magjarević R, Kos B, Cindrič H, Miklavčič, D. Investigation of safety for electrochemotherapy and irreversible electroporation ablation therapies in patients with cardiac pacemakers. Biomed. Eng. Online 19, 85: 1-18PDFDOI
Kranjc Brezar S, Kranjc M, Čemažar M, Buček S, Serša G, Miklavčič D. Electrotransfer of siRNA to silence enhanced green fluorescent protein in tumor mediated by a high intensity pulsed electromagnetic field. Vaccines 2020, 8, 1-15PDFDOI
Kulbacka J, Kasztelanic R, Kotulska M, Pysz D, Stępniewski G, Stępień R, Saczko J, Miklavčič D, Buczyński R. Ultrathin glass fiber microprobe for electroporation of arbitrary selected cell groups. Bioelectrochemistry 135, 107545PDFDOI
Mahnič-Kalamiza S, Miklavčič, D. Scratching the electrode surface: Insights into a high-voltage pulsed-field application from in vitro & in silico studies in indifferent fluid. Electrochim. Acta 363, 137187PDFDOI
Novickij V, Kranjc M, Staigvila G, Dermol-Černe J, Meleško J, Novickij J, Miklavčič D. High pulsed electromagnetic field generator for contactless permeabilization of cells in vitro. IEEE Trans. Magn., 1-6PDFDOI
Pirc E, Balosetti B, Miklavčič D, Reberšek M. Electronic emulator of biological tissue as an electrical load during electroporation. Appl. Sci. 10, 1-15PDFDOI
Pirc E, Federici C, Bošnjak M, Perić B, Reberšek M, Pecchia L, Glumac N, Čemažar M, Snoj M, Serša G, Miklavčič D. Early cost-effectiveness analysis of electrochemotherapy as a prospect treatment modality for skin melanoma. Clin. Ther. 42(8), 1535-1548PDFDOI
Pirc E, Reberšek M, Miklavčič D. Functional requirements and quality assurance necessary for successful incorporation of electroporation-based therapies into clinical practice. J. Med. Devices 14, 1-9PDFDOI
Polajžer T, Dermol–Černe J, Reberšek M, O’Connor R, Miklavčič D. Cancellation effect is present in high-frequency reversible and irreversible electroporation. Bioelectrochemistry 132, 1-11PDFDOI
Polajžer T, Jarm T, Miklavčič D. Analysis of damage-associated molecular pattern molecules due to electroporation of cells in vitro. Radiol. Oncol. 54, 317-328PDFDOI
Polajžer T, Miklavčič D. Development of adaptive resistance to electric pulsed field treatment in CHO cell line in vitro. Sci. Rep. 10:9988, 1-9PDFDOI
Vižintin A, Vidmar J, Ščančar J, Miklavčič D. Effect of interphase and interpulse delay in high-frequency irreversible electroporation pulses on cell survival, membrane permeabilization and electrode material release. Bioelectrochemistry 134, 1-14PDFDOI
2019(18)
Brloznik M, Boc N, Serša G, Žmuc J, Gasljević G, Seliškar A, Dežman A, Edhemović I, Milevoj N, Plavec T, Erjavec V, Pavlin D, Bošnjak M, Brecelj E, Lampreht Tratar U, Kos B, Izlakar J, Štukelj M, Miklavčič D, Čemazar M. Radiological findings of porcine liver after electrochemotherapy with bleomycin. Radiol. Oncol. 53, 415-426PDFDOI
Campana LG, Edhemovic I, Soden D, Perrone AM, Scarpa M, Campanacci L, Čemažar M, Valpione S, Miklavčič D, Mocellin S, Sieni E, Serša G. Electrochemotherapy – Emerging applications technical advances, new indications, combined approaches, and multi-institutional collaboration. Eur. J. Surg. Oncol. 45, 92-102PDFDOI
Campana LG, Miklavčič D, Bertino G, Marconato R, Valpione S, Imarisio I, Dieci MV, Granziera E, Čemažar M, Alaibac M, Serša G. Electrochemotherapy of superficial tumors – current status: Basic principles, operating procedures, shared indications, and emerging applications. Semin. Oncol. 46, 173-191PDFDOI
Chiapperino MA, Bia P, Caratelli D, Gielis J, Mescia L, Dermol-Černe J, Miklavčič D. Nonlinear dispersive model of electroporation for irregular nucleated cells. Bioelectromagnetics 40, 331-342PDFDOI
Cornelis FH, Cindrič H, Kos B, Fujimori M, Petre EN, Miklavčič D, Srimathveeravalli G. Peri-tumoral metallic implants reduce the efficacy of irreversible electroporation for the ablation of colorectal liver metastases. Cardiovasc. Intervent. Radiol., 1-10PDFDOI
Dermol-Černe J, Miklavčič D. Modeliranje elektroporacije na več ravneh. Elektroteh. Vestn. 86(4), 161-167PDF
Forjanič T, Markelc B, Marčan M, Bellard E, Couillaud F, Golzio M, Miklavčič D. Electroporation-induced stress response and its effect on gene electrotransfer efficacy: in vivo imaging and numerical modeling. IEEE Trans. Biomed. Eng. 66(9), 2671-2683PDFDOI
Gruden T, Jakus G, Jarm T. Merjenje želodčne aktivnosti s preprostim in laboratorijskim merilnim sistemom. Elektroteh. Vestn. 86(5), 290-297
Kotnik T, Rems L, Tarek M, Miklavčič D. Membrane electroporation and electropermeabilization: Mechanisms and models. Annu. Rev. Biophys. 48, 63-91PDFDOI
Miklavčič D, Novickij V, Kranjc M, Polajžer T, Haberl Meglič S, Batista Napotnik T, Romih R, Lisjak D. Contactless electroporation induced by high intensity pulsed electromagnetic fields via distributed nanoelectrodes. Bioelectrochemistry 132, 1-9PDFDOI
Mutsenko V, Barlič A, Pezić T, Dermol-Černe J, Barbara Dovgan B, Sydykov B, Wolkers WF, Katkov II, Glasmacher B, Miklavčič D, Gryshkov O. Me2SO- and serum-free cryopreservation of human umbilical cord mesenchymal stem cells using electroporation-assisted delivery of sugars. Cryobiology 91, 104-114PDFDOI
Pirc E, Miklavčič D, Reberšek M. Nanosecond pulse electroporator with silicon carbide MOSFETs: development and evaluation. IEEE Trans. Biomed. Eng. 66(12), 3526-3533PDFDOI
Potočnik T, Miklavčič D, Maček Lebar A. Effect of electroporation and recovery medium pH on cell membrane permeabilization, cell survival and gene transfer efficiency in vitro. Bioelectrochemistry 130, 107342PDFDOI
Rems L, Viano M, Kasimova MA, Miklavčič D, Tarek M. The contribution of lipid peroxidation to membrane permeability in electropermeabilization: A molecular dynamics study. Bioelectrochemistry 125, 46-57PDFDOI
Scuderi M, Reberšek M, Miklavčič D, Dermol-Černe J. The use of high-frequency short bipolar pulses in cisplatin electrochemotherapy in vitro. Radiol. Oncol. 53, 194-205PDFDOI
Shamoon D, Dermol-Černe J, Rems L, Reberšek M, Kotnik T, Lasquellec S, Brosseau C, Miklavčič D. Assessing the electro-deformation and electro-poration of biological cells using a three-dimensional finite element model. Appl. Phys. Lett. 114, 063701PDFDOI
Sugrue A, Vaidya V, Witt C, DeSimone CV, Yasin O, Maor E, Killu AM, Kapa S, McLeod CJ, Miklavčič D, Asirvatham SJ. Irreversible electroporation for catheter-based cardiac ablation: a systematic review of the preclinical experience. J. Interv. Card. Electrophysiol. 55, 251-265PDFDOI
Žmuc J, Gašljević G, Serša G, Edhemović I, Boc N, Seliškar A, Plavec T, Brloznik M, Milevoj N, Brecelj E, Kos B, Izlakar J, Jarm T, Snoj M, Štukelj M, Miklavčič D, Čemažar M. Large liver blood vessels and bile ducts are not damaged by electrochemotherapy with bleomycin in pigs. Sci. Rep. 9:3649, 1-11PDFDOI
2018(15)
Batista Napotnik T, Miklavčič D. In vitro electroporation detection methods – An overview. Bioelectrochemistry 120, 166-182PDFDOI
Boc N, Edhemović I, Kos B, Marolt-Mušič M, Brecelj E, Trotovšek B, Bošnjak M, Djokić M, Miklavčič D, Čemažar M, Serša G. Ultrasonographic changes in the liver tumors as indicators of adequate tumor coverage with electric field for effective electrochemotherapy. Radiol. Oncol. 52, 383-391PDFDOI
Cindrič H, Kos B, Tedesco G, Cadossi M, Gasbarrini A, Miklavčič D. Electrochemotherapy of spinal metastases using transpedicular approach - A numerical feasibility study. Technol. Cancer Res. Treat. 17, 1-13PDFDOI
Dermol-Černe J, Miklavčič D. From cell to tissue properties – Modeling skin electroporation with pore and local transport region formation. IEEE Trans. Biomed. Eng. 65(2), 458-468PDFDOI
Dermol-Černe J, Miklavčič D, Reberšek M, Mekuč P, Bardet SM, Burke R, Arnaud-Cormos D, Leveque P, O'Connor R. Plasma membrane depolarization and permeabilization due to electric pulses in cell lines of different excitability. Bioelectrochemistry 122, 103-114PDFDOI
Dermol-Černe J, Vidmar J, Ščančar J, Uršič K, Serša G, Miklavčič D. Connecting the in vitro and in vivo experiments in electrochemotherapy - a feasibility study modeling cisplatin transport in mouse melanoma using the dual-porosity model. J. Control. Release 286, 33-45PDFDOI
Djokić M, Čemažar M, Popovič P, Kos B, Dežman R, Bošnjak M, Nikšić Žakelj M, Miklavčič D, Potrč S, Štabuc B, Tomažič A, Serša G, Trotovšek B. Electrochemotherapy as treatment option for hepatocellular carcinoma, a prospective pilot study. Eur. J. Surg. Oncol. 44, 651-657PDFDOI
Forjanič T, Miklavčič D. Numerical study of gene electrotransfer efficiency based on electroporation volume and electrophoretic movement of plasmid DNA. Biomed. Eng. Online 17:80, 1-10PDFDOI
Kulbacka J, Paczuska J, Rembiałkowska N, Saczko J, Kiełbowicz Z, Kinda W, Liszka B, Kotulska M, Kos B, Miklavcic D, Tozon N, Cemazar M. Electrochemotherapy combined with standard and CO2 laser surgeries in canine oral melanoma. Slov Vet Res 54(4), 181-186PDFDOI
Miklavčič D. Cardiac ablation by electroporation. JACC Clin Electrophysiol., 1480-1483PDFDOI
Pintar M, Langus J, Edhemović I, Brecelj E, Kranjc M, Serša G, Šuštar T, Rodič T, Miklavčič D, Kotnik T, Kos B. Time-dependent finite-element analysis of in vivo electrochemotherapy treatment. Technol. Cancer. Res. Treat. 17, 1-9PDFDOI
Pirc E, Pecchia L, Reberšek M, Serša G, Snoj M, Grošelj A, Miklavčič D. Study design of a medical device pre-market assessment: a case study on electrochemotherapy. Zdrav. Vestn. 87(1-2), 22-40PDFDOI
Savarin M, Prevc A, Rzek M, Bošnjak M, Vojvodić I, Čemažar M, Jarm T, Serša G. Intravital monitoring of vasculature after targeted gene therapy alone or combined with tumor irradiation. Technol. Cancer Res. Treat. 17, 1-8PDFDOI
Vera-Tizatl AL, Vera-Tizatl CE, Vera-Hernandez A, Leija-Salas L, Rodriguez S, Miklavčič D, Kos B. Computational feasibility analysis of electrochemotherapy with novel needle-electrode arrays for the treatment of invasive breast ductal carcinoma. Technol. Cancer Res. Treat. 17, 1-13PDFDOI
Čemažar M, Serša G, Frey W, Miklavčič D, Teissié J. Recommendations and requirements for reporting on applications of electric pulse delivery for electroporation of biological samples. Bioelectrochemistry 122, 69-76PDFDOI
2017(8)
Batista Napotnik T, Bello G, Sinner E-K, Miklavčič D. The effect of nanosecond, high-voltage electric pulses on the shape and permeability of polymersome GUVs. J. Membr. Biol. 250, 441-453PDFDOI
Dovgan B, Barlič A, Knežević M, Miklavčič D. Cryopreservation of human adipose-derived stem cells in combination with trehalose and reversible electroporation. J. Membr. Biol. 250, 1-9DOI
Forjanič T, Miklavčič D. Mathematical model of tumor volume dynamics in mice treated with electrochemotherapy. Med. Biol. Eng. Comput. 55(7), 1085–1096PDFDOI
Kranjc M, Kranjc S, Bajd F, Serša G, Serša I, Miklavčič D. Predicting irreversible electroporation-induced tissue damage by means of magnetic resonance electrical impedance tomography. Sci. Rep. 7:10323, 1-10PDFDOI
Mahnič-Kalamiza S, Poklar Ulrih N, Vorobiev E, Miklavčič D. A comprehensive theoretical study of thermal relations in plant tissue following electroporation. Int. J. Heat Mass Transfer, 150-162PDFDOI
Novickij V, Dermol J, Grainys A, Kranjc M, Miklavčič D. Membrane permeabilization of mammalian cells using bursts of high magnetic field pulses. PeerJ 5:e3267, 1-18DOI
Zorec B, Škrabelj D, Marinček M, Miklavčič D, Pavšelj N. The effect of pulse duration, power and energy of fractional Er:YAG laser for transdermal delivery of differently sized FITC dextrans. Int. J. Pharm. 516, 204–213DOI
2016(24)
Batista Napotnik T, Reberšek M, Vernier PT, Mali B, Miklavčič D. Effects of high voltage nanosecond electric pulses on eukaryotic cells (in vitro): A systematic review. Bioelectrochemistry 110, 1-12PDFDOI
Campana LG, Clover AJP, Valpione S, Quaglino P, Gehl J, Kunte C, Snoj M, Čemažar M, Rossi CR, Miklavčič D, Serša G. Recommendations for improving the quality of reporting clinical electrochemotherapy studies based on qualitative systematic review. Radiol. Oncol. 50, 1-13PDFDOI
Casciola M, Kasimova MA, Rems L, Zullino S, Apollonio F, Tarek M. Properties of lipid electropores I: Molecular dynamics simulations of stabilized pores by constant charge imbalance. Bioelectrochemistry 109, 108-116PDFDOI
Dermol J, Pakhomova ON, Pakhomov AG, Miklavčič D. Cell electrosensitization exists only in certain electroporation buffers. PLOS One 11(7), e159434PDFDOI
Golberg A, Sack M, Teissie J, Pataro G, Pliquett U, Saulis G, Töpfl S, Miklavčič D, Vorobiev E, Frey W. Energy-efficient biomass processing with pulsed electric fields for bioeconomy and sustainable development. Biotechnol. Biofuels 9, 94PDFDOI
Haberl Meglič S, Levičnik E, Luengo E, Raso J, Miklavčič D. The effect of temperature and bacterial growth phase on protein extraction by means of electroporation. Bioelectrochemistry 112, 77-82PDFDOI
Kos B, Vásquez JL, Miklavčič D, Hermann GGG, Gehl J. Investigation of the mechanisms of action behind Electromotive Drug Administration (EMDA). Peer J. 4, e2309PDFDOI
Kotnik T, Weaver JC. Abiotic gene transfer: rare or rampant?. J. Membr. Biol. 249, 623-631PDFDOI
Kranjc M, Bajd F, Serša I, de Boevere M, Miklavčič D. Electric field distribution in relation to cell membrane electroporation in potato tuber tissue studied by magnetic resonance techniques. Innov. Food Sci. Emerg. Technol. 37, 384-390PDFDOI
Kranjc S, Kranjc M, Ščančar J, Jelenc J, Serša G, Miklavčič D. Electrochemotherapy by pulsed electromagnetic field treatment (PEMF) in mouse melanoma B16F10 in vivo. Radiol. Oncol. 50, 39-48PDFDOI
Langus J, Kranjc M, Kos B, Šuštar M, Miklavčič D. Dynamic finite-element model for efficient modelling of electric currents in electroporated tissue. Sci. Rep. 6, 26409PDFDOI
Maček Lebar A, Velikonja A, Kramar P, Iglič A. Internal configuration and electric potential in planar negatively charged lipid head group region in contact with ionic solution. Bioelectrochemistry 111, 49-56PDFDOI
Novickij V, Grainys A, Lastauskiene E, Kananavičiute R, Pamedytyte D, Kalediene L, Novickij J, Miklavčič D. Pulsed electromagnetic field assisted in vitro electroporation: a pilot study. Sci. Rep. 6, 33537, 1-10PDFDOI
Pavšelj N, Cuznar P, Veselovskyi S, Miklavčič D, Hart FX. Measuring the viscoelastic properties of tissue using changes in its capacitance: A feasibility study. Elektroteh. Vestn. 83, 99-107PDF
Pillet F, Marjanovič I, Reberšek M, Miklavčič D, Rols MP, Kotnik T. Inactivation of spores by electric arcs. BMC Microbiol. 16, 148PDFDOI
Raso J, Frey W, Ferrari G, Pataro G, Knorr D, Teissié J, Miklavčič D. Recommendations guidelines on the key information to be reported in studies of application of PEF technology in food and biotechnological processes. Innov. Food Sci. Emerg. Technol. 37, 312-321PDFDOI
Rems L, Miklavčič D. Tutorial: Electroporation of cells in complex materials and tissue. J. Appl. Phys. 119, 201101PDFDOI
Rems L, Tarek M, Casciola M, Miklavčič D. Properties of lipid electropores II: Comparison of continuum-level modeling of pore conductance to molecular dynamics simulations. Bioelectrochemistry 112, 112-124PDFDOI
Rosazza C, Haberl Meglič S, Zumbusch A, Rols MP, Miklavčič D. Gene electrotransfer: a mechanistic perspective. Curr. Gene Ther. 16, 98-129PDFDOI
Sharabi S, Kos B, Last D, Guez D, Daniels D, Harnof S, Mardor Y, Miklavčič D. A statistical model describing combined irreversible electroporation and electroporation-induced blood-brain barrier disruption. Radiol. Oncol. 50, 28-38PDFDOI
Stepišnik T, Jarm T, Grošelj A, Edhemović I, Djokić M, Ivanecz A, Trotovšek B, Brecelj E, Potrč S, Čemažar M, Glumac N, Pečnik T, Verberič B, Gadžijev E, Strojan P, Snoj M, Miklavčič D, Serša G. Elektrokemoterapija – učinkovita metoda zdravljenja tumorjev s kombinacijo kemoterapevtika in električnega polja. Zdrav. Vestn. 85, 41-55PDF
Sweeney DC, Reberšek M, Dermol J, Rems L, Miklavčič D, Davalos RV. Quantification of cell membrane permeability induced by monopolar and high-frequency bipolar bursts of electrical pulses. Biochim. Biophys. Acta 1858, 2689-2698PDFDOI
Velikonja A, Kramar P, Miklavčič D, Maček Lebar A. Specific electrical capacitance and voltage breakdown as a function of temperature for different planar lipid bilayers. Bioelectrochemistry 112, 132-137PDFDOI
Čorović S, Mahnič-Kalamiza S, Miklavčič D. Education on electrical phenomena involved in electroporation‑based therapies and treatments: a blended learning approach. Biomed. Eng. Online 15, 36PDFDOI
2015(21)
Chafai DE, Mehle A, Tilmatine A, Maouche B, Miklavčič D. Assessment of the electrochemical effects of pulsed electric fields in a biological cell suspension. Bioelectrochemistry 106, 249-257PDFDOI
Dermol J, Miklavčič D. Mathematical models describing Chinese hamster ovary cell death due to electroporation in vitro. J. Membrane Biol. 248, 865-881PDFDOI
Dymek K, Rems L, Zorec B, Dejmek P, Gómez Galindo F, Miklavčič D. Modeling electroporation of the non-treated and vacuum impregnated heterogeneous tissue of spinach leaves. Innov. Food Sci. Emerg. Technol. 29, 55-64PDFDOI
Grošelj A, Kos B, Čemažar M, Urbančič J, Kragelj G, Bošnjak M, Veberič B, Strojan P, Miklavčič D, Serša G. Coupling treatment planning with navigation system: a new technological approach in treatment of head and neck tumors by electrochemotherapy. Biomed. Eng. Online 14(Suppl. 3), S2PDFDOI
Haberl Meglič S, Marolt T, Miklavčič D. Protein extraction by means of electroporation from E. coli with preserved viability. J. Membrane Biol. 248, 893-901PDFDOI
Kos B, Voigt P, Miklavčič D, Moche M. Careful treatment planning enables safe ablation of liver tumors adjacent to major blood vessels by percutaneous irreversible electroporation (IRE). Radiol. Oncol. 49, 234-241PDFDOI
Kotnik T, Frey W, Sack M, Haberl Meglič S, Peterka M, Miklavčič D. Electroporation-based applications in biotechnology. Trends Biotechnol. 33, 480-488PDFDOI
Kranjc M, Markelc B, Bajd F, Čemažar M, Serša I, Blagus T, Miklavčič D. In situ monitoring of electric field distribution in mouse tumor during electroporation. Radiology 274, 115-123PDFDOI
Mahnič-Kalamiza S, Miklavčič D, Vorobiev E. Dual-porosity model of mass transport in electroporated biological tissue: Simulations and experimental work for model validation. Innov. Food Sci. Emerg. Technol. 29, 41-54PDFDOI
Mali B, Gorjup V, Edhemović I, Brecelj E, Čemažar M, Serša G, Stražišar B, Miklavčič D, Jarm T. Electrochemotherapy of colorectal liver metastases – an observational study of its effects on the electrocardiogram. Biomed. Eng. Online 14(Suppl. 3), S5PDFDOI
Marčan M, Kos B, Miklavčič D. Effect of blood vessel segmentation on the outcome of electroporation-based treatments of liver tumors. PLOS One 10(5), e125591PDFDOI
Marčan M, Pavliha D, Kos B, Forjanič T, Miklavčič D. Web-based tool for visualization of electric field distribution in deep-seated body structures and planning of electroporation-based treatments. Biomed. Eng. Online 14(Suppl. 3), S4PDFDOI
Miklavčič D, Davalos RV. Electrochemotherapy (ECT) and irreversible electroporation (IRE) – advanced techniques for treating deep-seated tumors based on electroporation. Biomed. Eng. Online 14(Suppl. 3), I1PDFDOI
Pavšelj N, Zorec B, Miklavčič D, Becker S. Experimental factors to be considered in electroporation-mediated transdermal diffusion experiments. J. Biomech. Eng. 137, 124501PDFDOI
Peyman A, Kos B, Djokić M, Trotovšek B, Limbaeck-Stokin C, Serša G, Miklavčič D. Variation in dielectric properties due to pathological changes in human liver. Bioelectromagnetics 36, 603-612PDFDOI
Polak A, Velikonja A, Kramar P, Tarek M, Miklavčič D. Electroporation threshold of POPC lipid bilayers with incorporated polyoxyethylene glycol (C12 E8 ). J. Phys. Chem. B 119, 192-200PDFDOI
Reberšek M, Marjanovič I, Beguš S, Pillet F, Rols MP, Miklavčič D, Kotnik T. Generator and setup for emulating exposures of biological samples to lightning strokes. IEEE T. Biomed. Eng. 62, 2535-2543PDFDOI
Serša G, Teissié J, Čemažar M, Signori E, Kamenšek U, Marshall G, Miklavčič D. Electrochemotherapy of tumors as in situ vaccination boosted by immunogene electrotransfer. Cancer Immunol. Immunother. 64, 1315-1327PDFDOI
Serša I, Kranjc M, Miklavčič D. Current density imaging sequence for monitoring current distribution during delivery of electric pulses in irreversible electroporation. Biomed. Eng. Online 14(Suppl. 3), S6PDFDOI
Zorec B, Jelenc J, Miklavčič D, Pavšelj N. Ultrasound and electric pulses for transdermal drug delivery enhancement: Ex vivo assessment of methods with in vivo oriented experimental protocols. Int. J. Pharm. 490, 65-73PDFDOI
Čorovič S, Markelc B, Dolinar M, Čemažar M, Jarm T. Modeling of microvascular permeability changes after electroporation. PLOS One 10(3), e121370PDFDOI
2014(23)
Becker S, Zorec B, Miklavčič D, Pavšelj N. Transdermal transport pathway creation: Electroporation pulse order. Math. Biosci. 257, 60-68PDFDOI
Campana LG, Mali B, Serša G, Valpione S, Giorgi CA, Strojan P, Miklavčič D, Rossi CR. Electrochemotherapy in non-melanoma head and neck cancers: a retrospective analysis of the treated cases. Br. J. Oral Maxillofac. Surg. 52, 957-964PDFDOI
Dehez F, Delemotte L, Kramar P, Miklavčič D, Tarek M. Evidence of conducting hydrophobic nanopores across membranes in response to an electric field. J. Phys. Chem. C 118, 6752-6757PDFDOI
Dermol J, Miklavčič D. Predicting electroporation of cells in an inhomogeneous electric field based on mathematical modeling and experimental CHO-cell permeabilization to propidium iodide determination. Bioelectrochemistry 100, 52-61PDFDOI
Edhemović I, Brecelj E, Gašljević G, Marolt Mušič M, Gorjup V, Mali B, Jarm T, Kos B, Pavliha D, Grčar Kuzmanov B, Čemažar M, Snoj M, Miklavčič D, Gadžijev EM, Serša G. Intraoperative electrochemotherapy of colorectal liver metastases. J. Surg. Oncol. 110, 320-327PDFDOI
Flisar K, Haberl Meglič S, Morelj J, Golob J, Miklavčič D. Testing a prototype pulse generator for a continuous flow system and its use for E. coli inactivation and microalgae lipid extraction. Bioelectrochemistry 100, 44-51PDFDOI
Garcia PA, Davalos RV, Miklavčič D. A numerical investigation of the electric and thermal cell kill distributions in electroporation-based therapies in tissue. PLOS One 9(8), e103083PDFDOI
Hudej R, Miklavčič D, Čemažar M, Todorović V, Serša G, Bergamo A, Sava G, Martinčič A, Ščančar J, Keppler BK, Turel I. Modulation of activity of known cytotoxic ruthenium(III) compound (KP418) with hampered transmembrane transport in electrochemotherapy in vitro and in vivo. J. Membrane Biol. 247, 1239-1251PDFDOI
Kos B, Valič B, Kotnik T, Gajšek P. Induced electric fields in workers near low-frequency induction heating machines. Bioelectromagnetics 35, 222-226PDFDOI
Kranjc M, Bajd F, Serša I, Miklavčič D. Magnetic resonance electrical impedance tomography for measuring electrical conductivity during electroporation. Physiol. Meas. 35, 985-996PDFDOI
Mahnič-Kalamiza S, Miklavčič D, Vorobiev E. Dual-porosity model of solute diffusion in biological tissue modified by electroporation. Biochim. Biophys. Acta 1838, 1950-1966PDFDOI
Mahnič-Kalamiza S, Vorobiev E. Dual-porosity model of liquid extraction by pressing from biological tissue modified by electroporation. J. Food Eng. 137, 76-87PDFDOI
Mahnič-Kalamiza S, Vorobiev E, Miklavčič D. Electroporation in food processing and biorefinery. J. Membrane Biol. 247, 1279-1304PDFDOI
Mali B, Žulj S, Magjarević R, Miklavčič D, Jarm T. Matlab-based tool for ECG and HRV analysis. Biomed. Signal Process. Control 10, 108-116PDFDOI
Mali B, Žulj S, Magjarević R, Miklavčič D, Jarm T. Matlab-based tool for ECG and HRV analysis. Biomed. Signal Process. Control 10, 108-116PDFDOI
Marjanovič I, Kandušer M, Miklavčič D, Manček Keber M, Pavlin M. Comparison of flow cytometry, fluorescence microscopy and spectrofluorometry for analysis of gene electrotransfer efficiency. J. Membrane Biol. 247, 1259-1267PDFDOI
Marčan M, Pavliha D, Marolt Mušič M, Fučkan I, Magjarević R, Miklavčič D. Segmentation of hepatic vessels from MRI images for planning of electroporation-based treatments in the liver. Radiol. Oncol. 48, 267-281PDFDOI
Miklavčič D, Mali B, Kos B, Heller R, Serša G. Electrochemotherapy: from the drawing board into medical practice. Biomed. Eng. Online 13, 29PDFDOI
Polak A, Tarek M, Tomšič M, Valant J, Poklar Ulrih N, Jamnik A, Kramar P, Miklavčič D. Electroporation of archaeal lipid membranes using MD simulations. Bioelectrochemistry 100, 18-26PDFDOI
Polak A, Tarek M, Tomšič M, Valant J, Poklar Ulrih N, Jamnik A, Kramar P, Miklavčič D. Structural properties of archaeal lipid bilayers: small-angle X‑ray scattering and molecular dynamics simulation study. Langmuir 30, 8308-8315PDFDOI
Reberšek M, Miklavčič D, Bertacchini C, Sack M. Cell membrane electroporation – Part 3: The equipment. IEEE Electr. Insul. M. 30(3), 8-18PDFDOI
Rems L, Miklavčič D. Različni modeli elektroporacije in transporta molekul prek celične membrane. Elektroteh. Vestn. 81, 64-72PDF
Yarmush ML, Golberg A, Serša G, Kotnik T, Miklavčič D. Electroporation-based technologies for medicine: principles, applications, and challenges. Annu. Rev. Biomed. Eng. 16, 295-320PDFDOI
2013(22)
Batista Napotnik T, Valant J, Gmajner D, Passamonti S, Miklavčič D, Poklar Ulrih N. Cytotoxicity and uptake of archaeosomes prepared from Aeropyrum pernix lipids. Hum. Exp. Toxicol. 32, 950-959PDFDOI
Blagus T, Markelc B, Čemažar M, Kosjek T, Preat V, Miklavčič D, Serša G. In vivo real-time monitoring system of electroporation mediated control of transdermal and topical drug delivery. J. Control. Release 172, 862-871PDFDOI
Chopinet L, Batista Napotnik T, Montigny A, Reberšek M, Teissié J, Rols MP, Miklavčič D. Nanosecond electric pulse effects on gene expression. J. Membrane Biol. 246, 851-859PDFDOI
Haberl S, Jarc M, Štrancar A, Peterka M, Hodžić D, Miklavčič D. Comparison of alkaline lysis with electroextraction and optimization of electric pulses to extract plasmid DNA from Escherichia coli. J. Membrane Biol. 246, 861-857PDFDOI
Haberl S, Kandušer M, Flisar K, Bregar VB, Miklavčič D, Escoffre JM, Rols MP, Pavlin M. Effect of different parameters used for in vitro gene electrotransfer on gene expression efficiency, cell viability and visualization of plasmid DNA at the membrane level. J. Gene Med. 15, 169-181PDFDOI
Haberl S, Miklavčič D, Serša G, Frey W, Rubinsky B. Cell membrane electroporation – Part 2: The applications. IEEE Electr. Insul. M. 29(1), 29-37PDFDOI
Kotnik T. Lightning-triggered electroporation and electrofusion as possible contributors to natural horizontal gene transfer. Phys. Life Rev. 10, 351-370PDFDOI
Kotnik T. Prokaryotic diversity, electrified DNA, lightning waveforms, abiotic gene transfer, and the Drake equation: Assessing the hypothesis of lightning-driven evolution. Phys. Life Rev. 10, 384-388PDFDOI
Mali B, Jarm T, Snoj M, Serša G, Miklavčič D. Antitumor effectiveness of electrochemo-therapy: A systematic review and meta-analysis. Eur. J. Surg. Oncol. 39, 4-16PDFDOI
Mali B, Miklavčič D, Campana LG, Čemažar M, Serša G, Snoj M, Jarm T. Tumor size and effectiveness of electrochemotherapy. Radiol. Oncol. 47, 32-41PDFDOI
Marjanovič I, Kotnik T. An experimental system for controlled exposure of biological samples to electrostatic discharges. Bioelectrochemistry 94, 79-86PDFDOI
Pavliha D, Kos B, Marčan M, Županič A, Serša G, Miklavčič D. Planning of electroporation-based treatments using web-based treatment-planning software. J. Membrane Biol. 246, 833-842PDFDOI
Pavliha D, Mušič MM, Serša G, Miklavčič D. Electroporation-based treatment planning for deep-seated tumors based on automatic liver segmentation of MRI images. PLOS One 8(8), e69068PDFDOI
Polak A, Bonhenry D, Dehez F, Kramar P, Miklavčič D, Tarek M. On the electroporation thresholds of lipid bilayers: Molecular dynamics simulation investigations. J. Membrane Biol. 246, 843-850PDFDOI
Rems L, Ušaj M, Kandušer M, Reberšek M, Miklavčič D, Pucihar G. Cell electrofusion using nanosecond electric pulses. Sci. Rep. 3, 3382PDFDOI
Retelj L, Pucihar G, Miklavčič D. Electroporation of intracellular liposomes using nanosecond electric pulses – a theoretical study. IEEE T. Biomed. Eng. 60, 2624-2635PDFDOI
Ušaj M, Flisar K, Miklavčič D, Kandušer M. Electrofusion of B16-F1 and CHO cells: The comparison of the pulse first and contact first protocols. Bioelectrochemistry 89, 34-41PDFDOI
Velikonja A, Perutkova Š, Gongadze E, Kramar P, Polak A, Maček Lebar A, Iglič A. Monovalent ions and water dipoles in contact with dipolar zwitterionic lipid headgroups – theory and MD simulations. Int. J. Mol. Sci. 14, 2846-2861PDFDOI
Zorec B, Becker S, Reberšek M, Miklavčič D, Pavšelj N. Skin electroporation for transdermal drug delivery: The influence of the order of different square wave electric pulses. Int. J. Pharm. 457, 214-223PDFDOI
Zorec B, Préat V, Miklavčič D, Pavšelj N. Active enhancement methods for intra- and transdermal drug delivery: a review. Zdrav. Vestn. 82, 339-356PDF
Čemažar J, Miklavčič D, Kotnik T. Microfluidic devices for manipulation, modification and characterization of biological cells in electric fields – a review. Inform. MIDEM 43, 143-161PDF
Čorović S, Lacković I, Šuštarič P, Šuštar T, Rodič T, Miklavčič D. Modeling of electric field distribution in tissues during electroporation. Biomed. Eng. Online 12, 16PDFDOI
2012(24)
Batista Napotnik T, Wu YH, Gundersen AM, Miklavčič D, Vernier PT. Nanosecond electric pulses cause mitochondrial membrane permeabilization in Jurkat cells. Bioelectromagnetics 33, 257-264PDFDOI
Essone Mezeme M, Kranjc M, Bajd F, Serša I, Brosseau C, Miklavčič D. Assessing how electroporation affects the effective conductivity tensor of biological tissues. Appl. Phys. Lett. 101, 213702PDFDOI
Essone Mezeme M, Pucihar G, Pavlin M, Brosseau C, Miklavčič D. A numerical analysis of multicellular environment for modeling tissue electroporation. Appl. Phys. Lett. 100, 143701PDFDOI
Gider F, Likar B, Kern T, Miklavčič D. Implementation of a multidisciplinary professional skills course at an electrical engineering school. IEEE T. Educ. 55, 332-340PDFDOI
Hudej R, Kljun J, Kandioller W, Repnik U, Turk B, Hartinger CG, Keppler BK, Miklavčič D, Turel I. Synthesis and biological evaluation of the thionated antibacterial agent nalidixic acid and its organoruthenium(II) complex. Organometallics 31, 5867-5874PDFDOI
Jelenc J, Jelenc J, Miklavčič D, Maček Lebar A. Low-frequency sonoporation in vitro: experimental system evaluation. Strojn. Vestn. 58, 319-326PDFDOI
Kos B, Valič B, Kotnik T, Gajšek P. Occupational exposure assessment of magnetic fields generated by induction heating equipment – the role of spatial averaging. Phys. Med. Biol. 57, 5943-5953PDFDOI
Kotnik T, Kramar P, Pucihar G, Miklavčič D, Tarek M. Cell membrane electroporation – Part 1: The phenomenon. IEEE Electr. Insul. M. 28(5), 14-23PDFDOI
Kramar P, Delemotte L, Maček Lebar A, Kotulska M, Tarek M, Miklavčič D. Molecular-level characterization of lipid membrane electroporation using linearly rising current. J. Membrane Biol. 245, 651-659PDFDOI
Kramar P, Delemotte L, Maček Lebar A, Kotulska M, Tarek M, Miklavčič D. Molecular-level characterization of lipid membrane electroporation using linearly rising current. J. Membrane Biol. 245, 651-659PDFDOI
Kranjc M, Bajd F, Serša I, Woo EJ, Miklavčič D. Ex vivo and in silico feasibility study of monitoring electric field distribution in tissue during electroporation based treatments. PLOS One 7(9), e45737PDFDOI
Mahnič-Kalamiza S, Kotnik T, Miklavčič D. Educational application for visualization and analysis of electric field strength in multiple electrode electroporation. BMC Med. Educ. 12, 102PDFDOI
Miklavčič D. Network for development of electroporation-based technologies and treatments. J. Membrane Biol. 245, 591-598PDFDOI
Miklavčič D, Serša G, Brecelj E, Gehl J, Soden D, Bianchi G, Ruggieri P, Rossi CR, Campana LG, Jarm T. Electrochemotherapy: technological advancements for efficient electroporation-based treatment of internal tumors. Med. Biol. Eng. Comput. 50, 1213-1225PDFDOI
Pavliha D, Kos B, Županič A, Marčan M, Serša G, Miklavčič D. Patient-specific treatment planning of electrochemotherapy: Procedure design and possible pitfalls. Bioelectrochemistry 87, 265-273PDFDOI
Pavlin M, Pucihar G, Kandušer M. The role of electrically stimulated endocytosis in gene electrotransfer. Bioelectrochemistry 83, 38-45PDFDOI
Pavlin M, Pucihar G, Kandušer M. The role of electrically stimulated endocytosis in gene electrotransfer. Bioelectrochemistry 83, 38-45PDFDOI
Polak A, Mulej B, Kramar P. System for measuring planar lipid bilayer properties. J. Membrane Biol. 245, 625-632PDFDOI
Towhidi L, Firoozabadi SMP, Mozdarani H, Miklavčič D. Lucifer uptake by CHO cells exposed to magnetic and electric pulses. Radiol. Oncol. 46, 119-125PDFDOI
Ušaj M, Kandušer M. The systematic study of the electroporation and electrofusion of B16-F1 and CHO cells in isotonic and hypotonic buffer. J. Membrane Biol. 245, 583-590PDFDOI
Čemažar J, Kotnik T. Dielectrophoretic field-flow fractionation of electroporated cells. Electrophoresis 33, 2867-2874PDFDOI
Čorović S, Mir LM, Miklavčič D. In vivo muscle electroporation threshold determination: realistic numerical models and in vivo experiments. J. Membrane Biol. 245, 509-520PDFDOI
Žgalin MK, Hodžić D, Reberšek M, Kandušer M. Combination of microsecond and nanosecond pulsed electric field treatments for inactivation of Escherichia coli in water samples. J. Membrane Biol. 245, 643-650PDFDOI
Županič A, Kos B, Miklavčič D. Treatment planning of electroporation-based medical interventions: electrochemotherapy, gene electrotransfer and irreversible electroporation. Phys. Med. Biol. 57, 5425-5440PDFDOI
2011(23)
Edhemović I, Gadžijev EM, Brecelj E, Miklavčič D, Kos B, Županič A, Mali B, Jarm T, Pavliha D, Marčan M, Gašljevič G, Gorjup V, Mušič M, Pečnik Vavpotič T, Čemažar M, Snoj M, Serša G. Electrochemotherapy: A new technological approach in treatment of metastases in the liver. Technol. Cancer Res. Treat. 10, 475-485PDF
Gerževič M, Strojnik V, Jarm T. Differences in muscle activation between submaximal and maximal 6-minute rowing tests. J. Strength Cond. Res. 25, 2470-2481PDFDOI
Jarm T, Miklavčič D. Novi študijski program biomedicinske tehnike na Fakulteti za elektrotehniko Univerze v Ljubljani. Elektroteh. Vestn. 78, 236-241PDF
Kos B, Valič B, Kotnik T, Gajšek P. Exposure assessment in front of a multi-band base station antenna. Bioelectromagnetics 32, 234-242PDFDOI
Kos B, Valič B, Miklavčič D, Kotnik T, Gajšek P. Pre- and post-natal exposure of children to EMF generated by domestic induction cookers. Phys. Med. Biol. 56, 6149-6160PDFDOI
Kranjc M, Bajd F, Serša I, Miklavčič D. Magnetic resonance electrical impedance tomography for monitoring electric field distribution during tissue electroporation. IEEE T. Med. Imaging 30, 1771-1778PDFDOI
Magjarević R, Lacković I, Miklavčič D. Pet godina šire primjene elektrokemoterapije u klinici. Liječničke novine 97, 36-39PDF
Marjanovič I, Miklavčič D. Elektroporacija. Življenje in tehnika 62(7/8), 34-43PDF
Pavliha D, Reberšek M, Miklavčič D. Krmilnik biomedicinskega visokonapetostnega signalnega generatorja z grafičnim uporabniškim vmesnikom. Elektroteh. Vestn. 78, 79-84PDF
Pavliha D, Reberšek M, Miklavčič D. Načrtovanje in ovrednotenje kakovosti programske opreme grafičnega uporabniškega vmesnika visokonapetostnega signalnega generatorja. Elektroteh. Vestn. 78, 281-286PDF
Pavliha D, Trost A. MPEG-2 TS multiplexer in FPGA technology. Inform. MIDEM 41, 53-58PDF
Pavlin M, Haberl S, Reberšek M, Miklavčič D, Kandušer M. Changing the direction and orientation of electric field during electric pulses application improves plasmid gene transfer in vitro (Video Article). J. Visual Exp. 55, 3309PDFVideoDOI
Pavšelj N, Miklavčič D. Resistive heating and electropermeabilization of skin tissue during in vivo electroporation: A coupled nonlinear finite element model. Int. J. Heat Mass Transfer 54, 2294-2302PDFDOI
Pucihar G, Krmelj J, Reberšek M, Batista Napotnik T, Miklavčič D. Equivalent pulse parameters for electroporation. IEEE T. Biomed. Eng. 58, 3279-3288PDFDOI
Reberšek M, Kandušer M, Miklavčič D. Pipette tip with integrated electrodes for gene electrotransfer of cells in suspension: a feasibility study in CHO cells. Radiol. Oncol. 45, 204-208PDFDOI
Reberšek M, Miklavčič D. Advantages and disadvantages of different concepts of electroporation pulse generation. Automatika (Zagreb) 52, 12-19PDF
Todorovič V, Serša G, Mlakar V, Glavač D, Flisar K, Čemažar M. Metastatic potential of melanoma cells is not affected by electrochemotherapy. Melanoma Res. 21, 196-205PDFDOI
Ušaj M, Torkar D, Kandušer M, Miklavčič D. Cell counting tool parameters optimization approach for electroporation efficiency determination of attached cells in phase contrast images. J. Microscopy 241, 303-314PDFDOI
Čemažar J, Vrtačnik D, Amon S, Kotnik T. Dielectrophoretic field-flow microchamber for separation of biological cells based on their electrical properties. IEEE T. Nanobiosci. 10, 36-43PDFDOI
Čorović S, Kos A, Bešter J, Miklavčič D. An e-learning application on cell and tissue eletroporation. Simul. Notes Europe 21(2), 11-16PDF
Štirn I, Jarm T, Kapus V, Strojnik V. Evaluation of muscle fatigue during 100-m front crawl. Eur. J. Appl. Physiol. 111, 101-113PDFDOI
Štirn I, Jarm T, Kapus V, Strojnik V. Evaluation of muscle fatigue during 100-m front crawl. Eur. J. Appl. Physiol. 111, 101-113PDFDOI
Županič A, Miklavčič D. Segrevanje tkiva med ablacijo tumorjev z ireverzibilno elektroporacijo. Elektroteh. Vestn. 78, 42-47PDF
2010(26)
Batista Napotnik T, Reberšek M, Kotnik T, Lebrasseur E, Cabodevila G, Miklavčič D. Electropermeabilization of endocytotic vesicles in B16 F1 mouse melanoma cells. Med. Biol. Eng. Comput. 48, 407-413PDFDOI
Daugimont L, Baron N, Vandermeulen G, Pavšelj N, Miklavčič D, Jullien MC, Cabodevila G, Mir LM, Préat V. Hollow microneedle arrays for intradermal drug delivery and DNA electroporation. J. Membrane Biol. 236, 117-125PDFDOI
Daugimont L, Baron N, Vandermeulen G, Pavšelj N, Miklavčič D, Jullien MC, Cabodevila G, Mir LM, Préat V. Hollow microneedle arrays for intradermal drug delivery and DNA electroporation. J. Membrane Biol. 236, 117-125PDFDOI
Faurie C, Reberšek M, Golzio M, Kandušer M, Escoffre JM, Pavlin M, Teissié J, Miklavčič D, Rols MP. Electro-mediated gene transfer and expression are controlled by the life-time of DNA/membrane complex formation. J. Gene Med. 12, 117-125PDFDOI
Haberl S, Miklavčič D, Pavlin M. Effect of Mg ions on efficiency of gene electrotransfer and on cell electropermeabilization. Bioelectrochemistry 79, 265-271PDFDOI
Haberl S, Pavlin M. Use of collagen gel as a three-dimensional in vitro model to study electropermeabilization and gene electrotransfer. J. Membrane Biol. 236, 87-95PDFDOI
Hudej R, Turel I, Kandušer M, Ščančar J, Kranjc S, Serša G, Miklavčič D, Jakupec MA, Keppler BH, Čemažar M. The influence of electroporation on cytotoxicity of anticancer ruthenium (III) complex KP1339 in vitro and in vivo. Anticancer Res. 30, 2055-2064PDF
Jarm T, Čemažar M, Miklavčič D, Serša G. Antivascular effects of electrochemotherapy: implications in treatment of bleeding metastases. Expert Rev. Anticancer Ther. 10, 729-746PDFDOI
Kljun J, Petriček S, Žigon D, Hudej R, Miklavčič D, Turel I. Synthesis and characterization of novel ruthenium(III) complexes with histamine. Bioinorg. Chem. Appl. 2010, 183097PDFDOI
Kos B, Županič A, Kotnik T, Snoj M, Serša G, Miklavčič D. Robustness of treatment planning for electrochemotherapy of deep-seated tumors. J. Membrane Biol. 236, 147-153PDFDOI
Kotnik T, Pucihar G, Miklavčič D. Induced transmembrane voltage and its correlation with electroporation-mediated molecular transport. J. Membrane Biol. 236, 3-13PDFDOI
Kranjc M, Županič A, Miklavčič D, Jarm T. Numerical analysis and thermographic investi-gation of induction heating. Int. J. Heat Mass Transfer 53, 3585-3591PDFDOI
Marjanovič I, Haberl S, Miklavčič D, Kandušer M, Pavlin M. Analysis and comparison of electrical pulse parameters for gene electrotransfer of two different cell lines. J. Membrane Biol. 236, 97-105PDFDOI
Miklavčič D, Snoj M, Županič A, Kos B, Čemažar M, Kropivnik M, Bračko M, Pečnik T, Gadžijev E, Serša G. Towards treatment planning and treatment of deep-seated solid tumors by electrochemotherapy. Biomed. Eng. Online 9, 10PDFDOI
Miklavčič D, Towhidi L. Numerical study of the electroporation pulse shape effect on molecular uptake of biological cells. Radiol. Oncol. 44, 34-41PDFDOI
Olaiz N, Maglietti F, Suarez C, Molina FV, Miklavčič D, Mir L, Marshall G. Electrochemical treatment of tumors using a one-probe two-electrode device. Electrochim. Acta. 55, 6010-6014PDFDOI
Pavlin M, Flisar K, Kandušer M. The role of electrophoresis in gene electrotransfer. J. Membrane Biol. 236, 75-79PDFDOI
Trontelj K, Ušaj M, Miklavčič D. Cell electrofusion visualized with fluorescence micro-scopy (Video Article). J. Visual Exp. 41, 1991PDFDOI
Trontelj K, Ušaj M, Čurin Šerbec V, Miklavčič D. Zlivanje celic z elektrofuzijo. Med. Razgl. 49, 247-254PDF
Ušaj M, Trontelj K, Miklavčič D, Kandušer M. Cell–cell electrofusion: Optimization of electric field amplitude and hypotonic treatment for mouse melanoma (B16-F1) and Chinese hamster ovary (CHO) cells. J. Membrane Biol. 236, 107-116PDFDOI
Vrhovec J, Rudel D, Pajntar M, Maček Lebar A. A uterine electromyographic activity as a measure of labour progression. Zdrav. Vestn. 79, 109-116PDF
Čemažar M, Jarm T, Serša G. Cancer electrogene therapy with Interleukin-12. Curr. Gene Ther. 10, 300-311PDF
Čorović S, Županič A, Kranjc S, Al Sakere B, Leroy-Willig A, Mir LM, Miklavčič D. The influence of skeletal muscle anisotropy on electroporation: in vivo study and numerical modeling. Med. Biol. Eng. Comput. 48, 637-648PDFDOI
Županič A, Čorović S, Miklavčič D, Pavlin M. Numerical optimization of gene electrotransfer into muscle tissue. Biomed. Eng. Online 9, 66PDFDOI
2009(17)
Kandušer M, Miklavčič D, Pavlin M. Mechanisms involved in gene electrotransfer using high- and low-voltage pulses — An in vitro study. Bioelectrochemistry 74, 265-271PDFDOI
Kramar P, Miklavčič D, Maček Lebar A. A system for the determination of planar lipid bilayer breakdown voltage and its applications. IEEE T. Nanobiosci. 8, 132-138PDFDOI
Kramar P, Miklavčič D, Maček Lebar A. Merjenje lastnosti ravninskih lipidnih dvoslojev. Elektroteh. Vestn. 76, 293-298PDF
Kranjc M, Županič A, Jarm T, Miklavčič D. Optimizacija indukcijskega segrevanja z numeričnim modeliranjem in genetskim algoritmom. Elektroteh. Vestn. 76, 63-68PDF
Lacković I, Magjarević R, Miklavčič D. Three-dimensional finite-element analysis of joule heating in electrochemotherapy and in vivo gene electrotransfer. IEEE T. Diel. El. Insul. 15, 1338-1347PDFDOI
Mazères S, Šel D, Golzio M, Pucihar G, Tamzali Y, Miklavčič D, Teissié J. Non invasive contact electrodes for in vivo localized cutaneous electropulsation and associated drug and nucleic acid delivery. J. Control. Release 134, 125-131PDFDOI
Pavlin M, Miklavčič D. The effective conductivity and the induced transmembrane potential in dense cell system exposed to DC and AC electric fields. IEEE T. Plasma Sci. 37, 99-106PDFDOI
Pavlović I, Kern T, Miklavčič D. Comparison of paper-based and electronic data collec-tion process in clinical trials: Costs simulation study. Contemp. Clin. Trials 30, 300-316PDFDOI
Pucihar G, Kotnik T, Miklavčič D. Measuring the induced membrane voltage with di-8-ANEPPS (Video Article). J. Visual Exp. 33, 1659PDFDOI
Pucihar G, Miklavčič D, Kotnik T. A time-dependent numerical model of transmembrane voltage inducement and electroporation of irregularly shaped cells. IEEE T. Biomed. Eng. 56, 1491-1501PDFDOI
Reberšek M, Kranjc M, Pavliha D, Batista Napotnik T, Vrtačnik D, Amon S, Miklavčič D. Blumlein configuration for high-repetition-rate pulse generation of variable duration and polarity using synchronized switch control. IEEE T. Biomed. Eng. 56, 2642-2648PDFDOI
Sabotin I, Maček Lebar A, Miklavčič D, Kramar P. Measurement protocol for planar lipid bilayer viscoelastic properties. IEEE T. Diel. El. Insul. 15, 1236-1242PDFDOI
Todorović V, Serša G, Flisar K, Čemažar M. Enhanced cytotoxicity of bleomycin and cisplatin after electroporation in murine colorectal carcinoma cells. Radiol. Oncol. 43, 264-273PDFDOI
Ušaj M, Trontelj K, Hudej R, Kandušer M, Miklavčič D. Cell size dynamics and viability of cells exposed to hypotonic treatment and electroporation for electrofusion optimization. Radiol. Oncol. 43, 108-119PDFDOI
Valič B, Gajšek P, Miklavčič D. Current density in a model of a human body with a conductive implant exposed to ELF electric and magnetic fields. Bioelectromagnetics 30, 591-599PDFDOI
Vrhovec J. Evaluating the progress of the labour with sample entropy calculated from the uterine EMG activity. Elektroteh. Vestn. 76, 165-170PDF
Čorović S, Bešter J, Miklavčič D. An e-learning application on electrochemotherapy. Biomed. Eng. Online 8, 26PDFDOI
2008(26)
André F, Gehl J, Serša G, Préat V, Hojman P, Eriksen J, Golzio M, Čemažar M, Pavšelj N, Rols MP, Miklavčič D, Neumann E, Teissié J, Mir LM. Efficiency of high- and low-voltage pulse combinations for gene electrotransfer in muscle, liver, tumor, and skin. Human Gene Ther. 19, 1261-1271PDFDOI
Batista Napotnik T, Reberšek M, Kotnik T, Miklavčič D. Učinki visokonapetostnih nanose-kundnih električnih pulzov na celice in tkiva. Med. Razgl. 47, 271-281PDF
Kandušer M, Šentjurc M, Miklavčič D. The temperature effect during pulse application on cell membrane fluidity and permeabilization. Bioelectrochemistry 74, 52-57PDFDOI
Kotnik T. Computational estimation of the constant β(1) characterizing the order of ζ(1 + it). Math. Comp. 77, 1713-1723PDFDOI
Kotnik T. The prime-counting function and its analytic approximations. Adv. Comput. Math. 29, 55-70PDFDOI
Magjarević R, Lacković I, Mir LM, Miklavčič D. Elektrokemoterapija – metodologija i klinička primjena. Liječničke novine 67, 32-35PDF
Mali B, Jarm T, Čorović S, Paulin-Košir MS, Čemažar M, Serša G, Miklavčič D. The effect of electroporation pulses on functioning of the heart. Med. Biol. Eng. Comput. 46, 745-757PDFDOI
Pavlin M, Miklavčič D. Theoretical and experimental analysis of conductivity, ion diffusion and molecular transport during cell electroporation — Relation between short-lived and long-lived pores. Bioelectrochemistry 74, 38-46PDFDOI
Pavšelj N, Cukjati D, Čorović S, Jarm T, Serša G, Miklavčič D. Spremljanje, modeliranje in analiza dogajanja med elektroporacijo celičnih membran in vivo ter njena uporaba. Med. Razgl. 47, 177-191PDF
Pavšelj N, Miklavčič D. A numerical model of permeabilized skin with local transport regions. IEEE T. Biomed. Eng. 55, 1927-1930PDFDOI
Pavšelj N, Miklavčič D. Numerical modeling in electroporation-based biomedical applications. Radiol. Oncol. 42, 159-168PDFDOI
Pavšelj N, Miklavčič D. Numerical models of skin electropermeabilization taking into account conductivity changes and the presence of local transport regions. IEEE T. Plasma Sci. 36, 1650-1658PDFDOI
Pucihar G, Kotnik T, Miklavčič D, Teissié J. Kinetics of transmembrane transport of small molecules into electropermeabilized cells. Biophys. J. 95, 2837-2848PDFDOI
Reberšek M, Čorović S, Serša G, Miklavčič D. Electrode commutation sequence for honeycomb arrangement of electrodes in electrochemotherapy and corresponding electric field distribution. Bioelectrochemistry 74, 26-31PDFDOI
Serša G, Jarm T, Kotnik T, Coer A, Podkrajšek M, Šentjurc M, Miklavčič D, Kadivec M, Kranjc S, Šečerov A, Čemažar M. Vascular disrupting action of electroporation and electroche-motherapy with bleomycin in murine sarcoma. Br. J. Cancer 98, 388-398PDFDOI
Serša G, Miklavčič D. Electrochemotherapy of tumours (Video Article). J. Visual Exp. 22, 1038PDFDOI
Serša G, Miklavčič D, Čemažar M, Rudolf Z, Pucihar G, Snoj M. Electrochemotherapy in treatment of tumours. Eur. J. Surg. Oncol. 34, 232-240PDFDOI
Towhidi L, Kotnik T, Pucihar G, Firoozabadi SMP, Mozdarani H, Miklavčič D. Variability of the minimal transmembrane voltage resulting in detectable membrane electroporation. Electromagn. Biol. Med. 27, 372-385PDFDOI
Trontelj K, Reberšek M, Kandušer M, Čurin-Šerbec V, Šprohar M, Miklavčič D. Optimization of bulk cell electrofusion in vitro for production of human–mouse heterohybridoma cells. Bioelectrochemistry 74, 124-129PDFDOI
Čemažar M, Tamzali Y, Serša G, Tozon N, Mir LM, Miklavčič D, Lowe R, Teissié J. Electrochemotherapy in veterinary oncology. J. Vet. Intern. Med. 22, 826-831PDFDOI
Čorović S, Al Sakere B, Haddad V, Miklavčič D, Mir LM. Importance of contact surface between electrodes and treated tissue in electrochemotherapy. Technol. Cancer Res. Treat. 7, 393-399PDF
Čorović S, Al Sakere B, Haddad V, Miklavčič D, Mir LM. Importance of contact surface between electrodes and treated tissue in electrochemotherapy. Technol. Cancer Res. Treat. 7, 393-399PDF
Čorović S, Županič A, Miklavčič D. Numerical modeling and optimization of electric field distribution in subcutaneous tumor treated with electrochemotherapy using needle electrodes. IEEE T. Plasma Sci. 36, 1665-1672PDFDOI
Štirn I, Jarm T, Strojnik V. Evaluation of the mean power frequency of the EMG signal power spectrum at endurance levels during fatiguing isometric muscle contractions. Kinesiol. Slov. 14, 28-38PDF
Županič A, Čorović S, Miklavčič D. Optimization of electrode position and electric pulse amplitude in electrochemotherapy. Radiol. Oncol. 42, 93-101PDFDOI
Županič A, Čorović S, Miklavčič D. Optimization of electrode position and electric pulse amplitude in electrochemotherapy. Radiol. Oncol. 42, 93-101PDFDOI
2007(15)
Biček A, Turel I, Kandušer M, Miklavčič D. Combined therapy of the antimetastatic com-pound NAMI-A and electroporation on B16F1 tumour cells in vitro. Bioelectrochemistry 71, 113-117PDFDOI
Cukjati D, Batiuskaite D, André F, Miklavčič D, Mir LM. Real time electroporation control for accurate and safe in vivo non-viral gene therapy. Bioelectrochemistry 70, 501-507PDFDOI
Kotnik T. Evaluation of some integrals of sums involving the Möbius function. Int. J. Comput. Math. 84, 469-475PDFDOI
Kramar P, Miklavčič D, Maček Lebar A. Determination of the lipid bilayer breakdown voltage by means of a linear rising signal. Bioelectrochemistry 70, 23-27PDFDOI
Oblak J, Križaj D, Amon S, Maček Lebar A, Miklavčič D. Feasibility study for cell electroporation detection and separation by means of dielectrophoresis. Bioelectrochemistry 71, 164-171PDFDOI
Pavlin M, Leben V, Miklavčič D. Electroporation in dense cell suspension – Theoretical and experimental analysis of ion diffusion and cell permeabilization. Biochim. Biophys. Acta 1770, 12-23PDFDOI
Pavlović I, Miklavčič D. Web-based electronic data collection system to support electro-chemotherapy clinical trial. IEEE T. Inform. Tech. Biomed. 11, 222-230PDFDOI
Pavšelj N, Préat V, Miklavčič D. A numerical model of skin electropermeabilization based on in vivo experiments. Annals Biomed. Eng. 35, 2138-2144PDFDOI
Pavšelj N, Préat V, Miklavčič D. A numerical model of skin electropermeabilization based on in vivo experiments. Annals Biomed. Eng. 35, 2138-2144PDFDOI
Pucihar G, Kotnik T, Teissié J, Miklavčič D. Electroporation of dense cell suspensions. Eur. Biophys. J. 36, 173-185PDFDOI
Reberšek M, Faurie C, Kandušer M, Čorović S, Teissié J, Rols MP, Miklavčič D. Electroporator with automatic change of electric field direction improves gene electrotransfer in vitro. Biomed. Eng. Online 6, 25PDFDOI
Čorović S, Pavlin M, Miklavčič D. Analytical and numerical quantification and comparison of the local electric field in the tissue for different electrode configurations. Biomed. Eng. Online 6, 37PDFDOI
Čorović S, Pavlović I, Serša G, Miklavčič D. Elektroporacija ćelije i njena primena u medicini. Sanamed 2(2), 99-107PDF
Šel D, Maček Lebar A, Miklavčič D. Feasibility of employing model-based optimization of pulse amplitude and electrode distance for effective tumor electropermeabilization. IEEE T. Biomed. Eng. 54, 773-781PDFDOI
Županič A, Ribarič S, Miklavčič D. Increasing the repetition frequency of electric pulse delivery reduces unpleasant sensations that occur in electrochemotherapy. Neoplasma 54, 246-250PDF
2006(8)
Kandušer M, Šentjurc M, Miklavčič D. Cell membrane fluidity related to electroporation and resealing. Eur. Biophys. J. 35, 196-204PDFDOI
Kanthou C, Kranjc S, Serša G, Tozer G, Županič A, Čemažar M. The endothelial cytoskeleton as a target of electroporation-based therapies. Mol. Cancer Ther. 5, 3145-3152PDFDOI
Kotnik T, Miklavčič D. Theoretical evaluation of voltage inducement on internal membranes of biological cells exposed to electric fields. Biophys. J. 90, 480-491PDFDOI
Kotnik T, te Riele H. The Mertens conjecture revisited. Lect. Notes Comp. Sci. 4076, 156-167PDFDOI
Marty M, Serša G, Garbay JR, Gehl J, Collins CG, Snoj M, Billard V, Geertsen PF, Larkin JO, Miklavčič D, Pavlović I, Paulin-Košir SM, Čemažar M, Morsli N, Soden DM, Rudolf Z, Robert C, O’Sullivan GC, Mir LM. Electrochemotherapy – An easy, highly effective and safe treatment of cutaneous and subcutaneous metastases: Results of ESOPE (European Standard Operating Procedures of Electrochemotherapy) study. Eur. J. Cancer Suppl. 4, 3-13PDFDOI
Miklavčič D, Čorović S, Pucihar G, Pavšelj N. Importance of tumour coverage by sufficiently high local electric field for effective electrochemotherapy. Eur. J. Cancer Suppl. 4, 45-51PDFDOI
Pucihar G, Kotnik T, Valič B, Miklavčič D. Numerical determination of transmembrane voltage induced on irregularly shaped cells. Annals Biomed. Eng. 34, 642-652PDFDOI
Serša G, Čemažar M, Miklavčič D, Rudolf Z. Electrochemotherapy of tumours. Radiol. Oncol. 40, 163-174PDF
2005(10)
Kotnik T, Maček Lebar A, Kandušer M, Pucihar G, Pavlin M, Valič B, Miklavčič D. Elektroporacija celične membrane: teorija ter poizkusi in vitro. Med. Razgl. 44, 81-90PDF
Mali B, Jarm T, Jager F, Miklavčič D. An algorithm for synchronization of in vivo electroporation with ECG. J. Med. Eng. Tech. 29, 288-296PDFDOI
Maček Lebar A, Mencinger T, Miklavčič D. Surface EMG as a method for following-up sports training efficiency. Acta Univ. Palacki. Olomuc. Gymn. 35, 27-34PDF
Miklavčič D, Pucihar G, Pavlovec M, Ribarič S, Mali M, Maček Lebar A, Petkovšek M, Nastran J, Kranjc S, Čemažar M, Serša G. The effect of high frequency electric pulses on muscle contractions and antitumor efficiency in vivo for a potential use in clinical electrochemotherapy. Bioelectrochemistry 65, 121-128PDFDOI
Pavlin M, Kandušer M, Reberšek M, Pucihar G, Hart FX, Magjarević R, Miklavčič D. Effect of cell electroporation on the conductivity of a cell suspension. Biophys. J. 88, 4378-4390PDFDOI
Pavšelj N, Bregar Z, Cukjati D, Batiuskaite D, Mir LM, Miklavčič D. The course of tissue permeabilization studied on a mathematical model of a subcutaneous tumor in small animals. IEEE T. Biomed. Eng. 52, 1373-1381PDFDOI
Pavšelj N, Préat V. DNA electrotransfer into the skin using a combination of one high- and one low-voltage pulse. J. Control. Release 106, 407-415PDFDOI
Tomšič N, Babnik B, Lombardo D, Mavčič B, Kandušer M, Iglič A, Kralj-Iglič V. Shape and size of giant unilamellar phospholipid vesicles containing cardiolipin. J. Chem. Inf. Model. 45, 1676-1679PDFDOI
Šatkauskas S, André F, Bureau MF, Scherman D, Miklavčič D, Mir LM. Electrophoretic component of electric pulses determines the efficacy of in vivo DNA electrotransfer. Human Gene Ther. 16, 1194-1201PDFDOI
Šel D, Cukjati D, Batiuskaite D, Slivnik T, Mir LM, Miklavčič D. Sequential finite element model of tissue electropermeabilization. IEEE T. Biomed. Eng. 52, 816-827PDFDOI
2004(7)
Bregar VB, Pavlin M. Effective-susceptibility tensor for a composite with ferromagnetic inclusions: enhancement of effective-media theory and alternative ferromagnetic approach. J. Appl. Phys. 95, 6289-6293PDFDOI
Kotnik T. Computational estimation of the order of ζ(½ + it). Math. Comp. 73, 949-956PDFDOI
Kotnik T, van de Lune J. On the order of the Mertens function. Exp. Math. 13, 473-481PDFDOI
Mavčič B, Babnik B, Iglič A, Kandušer M, Slivnik T, Kralj-Iglič V. Shape transformation of giant phospholipid vesicles at high concentrations of C12 E8. Bioelectrochemistry 63, 183-187PDFDOI
Pavlović I, Kramar P, Čorović S, Cukjati D, Miklavčič D. A web-application that extends functionality of medical device for tumor treatment by means of electrochemotherapy. Radiol. Oncol. 38, 49-54PDF
Puc M, Čorović S, Flisar K, Petkovšek M, Nastran J, Miklavčič D. Techniques of signal generation required for electropermeabilization. Survey of electropermeabilization devices. Bioelectrochemistry 64, 113-124PDFDOI
Valič B, Pavlin M, Miklavčič D. The effect of resting transmembrane voltage on cell electropermeabilization: a numerical analysis. Bioelectrochemistry 63, 311-315PDFDOI
2003(14)
Babnik B, Miklavčič D, Kandušer M, Hägerstrand H, Kralj-Iglič V, Iglič A. Shape transformation and burst of giant POPC unilamellar liposomes modulated by non-ionic detergent C12 E8. Chem. Phys. Lipids 125, 123-138PDFDOI
Batiuškaite D, Cukjati D, Mir LM. Comparison of in vivo electropermeabilization of normal and malignant tissue using the 51 Cr-EDTA uptake test. Biologija 2003, 45-47PDF
Flisar K, Puc M, Kotnik T, Miklavčič D. Cell membrane electropermeabilization with arbitrary pulse waveforms. IEEE Eng. Med. Biol. 22(1), 77-81PDFDOI
Jarm T, Kragelj R, Liebert A, Lukasiewitz P, Erjavec T, Prešeren-Štrukelj M, Maniewski R, Poredoš P, Miklavčič D. Postocclusive reactive hyperemia in healthy volunteers and patients with peripheral vascular disease measured by three noninvasive methods. Adv. Exp. Med. Biol. 530, 661-669PDF
Jarm T, Podobnik B, Serša G, Miklavčič D. Effect of hydralazine on blood flow, oxygenation, and interstitial fluid pressure in subcutaneous tumors. Adv. Exp. Med. Biol. 510, 25-29PDF
Jarm T, Čemažar M, Steinberg F, Streffer C, Serša G, Miklavčič D. Perturbation of blood flow as a mechanism of anti-tumour action of direct current electrotherapy. Physiol. Meas. 24, 75-90PDFDOI
Kandušer M, Fošnarič M, Šentjurc M, Kralj-Iglič V, Hägerstrand H, Iglič A, Miklavčič D. Effect of surfactant polyoxyethylene glycol (C12 E8 ) on electroporation of cell line DC3F. Colloid. Surface. A 214, 205-217PDFDOI
Kotnik T, Pucihar G, Reberšek M, Mir LM, Miklavčič D. Role of pulse shape in cell membrane electropermeabilization. Biochim. Biophys. Acta 1614, 193-200PDFDOI
Pavlin M, Jarm T, Miklavčič D. Monte-Carlo simulation of light transport for NIRS measurements in tumors of elliptic geometry. Adv. Exp. Med. Biol. 530, 41-49PDF
Pavlin M, Miklavčič D. Effective conductivity of a suspension of permeabilized cells: a theoretical analysis. Biophys. J. 85, 719-729PDF
Puc M, Kotnik T, Mir LM, Miklavčič D. Quantitative model of small molecules uptake after in vitro cell electropermeabilization. Bioelectrochemistry 60, 1-10PDFDOI
Serša G, Čemažar M, Miklavčič D. Tumor blood flow modifying effects of electrochemotherapy: a potential vascular targeted mechanism. Radiol. Oncol. 37, 43-48PDF
Valič B, Golzio M, Pavlin M, Schatz A, Faurie C, Gabriel B, Teissié J, Rols MP, Miklavčič D. Effect of electric field induced transmembrane potential on spheroidal cells: theory and experiment. Eur. Biophys. J. 32, 519-528PDFDOI
Šel D, Mazeres S, Teissié J, Miklavčič D. Finite-element modeling of needle electrodes in tissue from the perspective of frequent model computation. IEEE T. Biomed. Eng. 50, 1221-1232PDFDOI
2002(9)
Iglič A, Kralj-Iglič V, Daniel M, Maček Lebar A. Computer determination of contact stress distribution and size of weight bearing area in the human hip joint. Comp. Meth. Biomech. Biomed. Eng. 5, 185-192PDF
Jarm T, Serša G, Miklavčič D. Oxygenation and blood flow in tumors treated with hydralazine: Evaluation with a novel luminescence-based optic sensor. Techol. Health Care 10, 363-380PDF
Maček Lebar A, Serša G, Kranjc S, Grošelj A, Miklavčič D. Optimisation of pulse parameters in vitro for in vivo electrochemotherapy. Anticancer Res. 22, 1731-1736PDF
Maček Lebar A, Troiano GC, Tung L, Miklavčič D. Inter-pulse interval between rectangular voltage pulses affects electroporation threshold of artificial lipid bilayers. IEEE T. Nanobiosci. 1, 116-120PDF
Pavlin M, Pavšelj N, Miklavčič D. Dependence of induced transmembrane potential on cell density, arrangement, and cell position inside a cell system. IEEE T. Biomed. Eng. 49, 605-612PDF
Pavlin M, Slivnik T, Miklavčič D. Effective conductivity of cell suspensions. IEEE T. Biomed. Eng. 49, 77-80PDF
Petkovšek M, Nastran J, Vončina D, Zajec P, Miklavčič D, Serša G. High voltage pulse generation. Electron. Lett. 38, 680-682PDF
Pucihar G, Mir LM, Miklavčič D. The effect of pulse repetition frequency on the uptake into electropermeabilized cells in vitro with possible applications in electrochemotherapy. Bioelectrochemistry 57, 167-172PDF
Šatkauskas S, Bureau MF, Puc M, Mahfoudi A, Scherman D, Miklavčič D, Mir LM. Mechanisms of in vivo DNA electrotransfer: respective contributions of cell electropermeabilization and DNA electrophoresis. Mol. Ther. 5, 133-140PDF
2001(13)
Bernard R, Kandušer M, Pernuš F. Model-based automated detection of mammalian cell colonies. Phys. Med. Biol. 46, 3061-3072PDF
Cukjati D, Reberšek S, Miklavčič D. A reliable method of determining wound healing rate. Med. Biol. Eng. Comput. 39, 263-271PDF
Cukjati D, Robnik-Šikonja M, Reberšek S, Kononenko I, Miklavčič D. Prognostic factors in the prediction of chronic wound healing by electrical stimulation. Med. Biol. Eng. Comput. 39, 542-550PDF
Jarm T, Lesničar H, Serša G, Miklavčič D. First experience with a novel luminescence-based optical sensor for measurement of oxygenation in tumors. Radiol. Oncol. 35, 277-291PDF
Kotnik T, Miklavčič D, Mir LM. Cell membrane electropermeabilization by symmetrical bipolar rectangular pulses. Part II. Reduced electrolytic contamination. Bioelectrochemistry 54, 91-95PDF
Kotnik T, Mir LM, Flisar K, Puc M, Miklavčič D. Cell membrane electropermeabilization by symmetrical bipolar rectangular pulses. Part I. Increased efficiency of permeabilization. Bioelectrochemistry 54, 83-90PDF
Kragelj R, Jarm T, Erjavec T, Prešeren-Štrukelj M, Miklavčič D. Parameters of postocclusive reactive hyperemia measured by near-infrared spectroscopy in patients with vascular disease and in healthy volunteers. Annals Biomed. Eng. 29, 311-320PDF
Maček Lebar A, Miklavčič D. Cell electropermeabilization to small molecules in vitro: control by pulse parameters. Radiol. Oncol. 35, 193-202PDF
Podobnik B, Serša G, Miklavčič D. Effect of hydralazine on interstitial fluid pressure in experimental tumours and in normal tissue. In Vivo 15, 417-424PDF
Pohar C, Arh K, Škufca K. Heats of mixing of mixed solvent solutions of alkali metal salts of substituted benzenesulfonic acids. J. Therm. Anal. Calorim. 64, 707-712PDF
Puc M, Flisar K, Reberšek S, Miklavčič D. Electroporator for in vitro cell permeabilization. Radiol. Oncol. 35, 203-207PDF
Pucihar G, Kotnik T, Kandušer M, Miklavčič D. The influence of medium conductivity on electropermeabilization and survival of cells in vitro. Bioelectrochemistry 54, 107-115PDF
Čemažar M, Miklavčič D, Mir LM, Belehradek JJr, Bonnay M, Fourcault D, Serša G. Electrochemotherapy of tumours resistant to cisplatin: a study in a murine tumour model. Eur. J. Cancer 37, 1166-1172PDF
2000(12)
Cukjati D, Reberšek S, Karba R, Miklavčič D. Modelling of chronic wound healing dynamics. Med. Biol. Eng. Comput. 38, 339-347PDF
Kotnik T, Maček Lebar A, Miklavčič D, Mir LM. Evaluation of cell membrane electropermeabilization by means of nonpermeant cytotoxic agent. Biotechniques 28, 921-926PDF
Kotnik T, Miklavčič D. Analytical description of transmembrane voltage induced by electric fields on spheroidal cells. Biophys. J. 79, 670-679PDF
Kotnik T, Miklavčič D. Second-order model of membrane electric field induced by alternating external electric fields. IEEE T. Biomed. Eng. 47, 1074-1081PDF
Kotnik T, Miklavčič D. Theoretical evaluation of the distributed power dissipation in biological cells exposed to electric fields. Bioelectromagnetics 21, 385-394PDF
Kragelj R, Jarm T, Miklavčič D. Reproducibility of parameters of postocclusive reactive hyperemia measured by near-infrared spectroscopy and transcutaneous oximetry. Annals Biomed. Eng. 28, 168-173PDF
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, 73-83PDF
Podobnik B, Miklavčič D. Influence of hydralizine on interstitial fluid pressure in experimental tumors – a preliminary study. Radiol. Oncol. 34, 59-65PDF
Pušenjak J, Miklavčič D. Modeling of interstitial fluid pressure in solid tumor. Sim. Pract. Theory 8, 17-24PDF
Serša G, Štabuc B, Čemažar M, Miklavčič D, Rudolf Z. Clinical experience in malignant melanoma patients. Clin. Canc. Res. 6, 863-867PDF
Serša G, Štabuc B, Čemažar M, Miklavčič D, Rudolf Z. Electrochemotherapy with cisplatin: the systemic antitumor effectiveness of cisplatin can be potentiated locally by the application of electric pulses in the treatment of malignant melanoma skin metastases. Melanoma Res. 10, 381-385PDF
Šemrov D, Miklavčič D. Numerical modeling for in vivo electroporation. Meth. Mol. Med. 37, 63-81PDF
1999(6)
Bobanović F, Bottman DM, Berridge JM, Parkinson AN, Lipp P. Elementary [Ca2+ ]i signals generated by electroporation functionally mimic those evoked by hormonal stimulation. FASEB J. 13, 365-376PDF
Bobanović F, Bottman DM, Berridge JM, Parkinson AN, Lipp P. Elementary [Ca2+]i signals generated by electroporation functionally mimic those evoked by hormonal stimulation. FASEB J. 13, 365-376PDF
Jarm T, Wickramasinghe YABD, Deakin M, Čemažar M, Elder J, Rolfe P, Serša G, Miklavčič D. Blood perfusion of subcutaneous tumours in mice following the application of low-level direct electric current. Adv. Exp. Med. Biol. 471, 497-506PDF
Serša G, Čemažar M, Miklavčič D, Chaplin DJ. Tumor blood flow modifying effect of electrochemotherapy with bleomycin. Anticancer Res. 19, 4017-4022PDF
Serša G, Čemažar M, Miklavčič D, Chaplin DJ. Tumor blood flow modifying effect of electrochemotherapy with bleomycin. Anticancer Res. 19, 4017-4022PDF
Čemažar M, Miklavčič D, Ščančar J, Dolžan V, Golouh R, Serša G. Increased platinum accumulation in SA-1 tumor cells after in vivo electrochemotherapy with cisplatin. Br. J. Cancer 79, 1386-1391PDF
1998(15)
Cukjati D, Reberšek S, Karba R, Miklavčič D. Mathematical modeling of chronic wound healing. Electro. Magnetobiol. 17, 235-240PDF
Jarm T, Čemažar M, Serša G, Miklavčič D. Blood perfusion in a murine fibrosarcoma tumor model after direct current electrotherapy – a study with 86Rb extraction technique. Electro. Magnetobiol. 17, 273-282PDF
Kotnik T, Miklavčič D, Slivnik T. Time course of transmembrane voltage induced by time-varying electric fields – a method for theoretical analysis and its application. Bioelectrochem. Bioenerg. 45, 3-16PDF
Maček Lebar A, Kopitar NA, Ihan A, Serša G, Miklavčič D. Significance of treatment energy in cell electropermeabilization. Electro. Magnetobiol. 17, 255-262PDF
Maček Lebar A, Serša G, Čemažar M, Miklavčič D. Elektroporacija. Med. Razgl. 37, 339-354PDF
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, 2152-2158PDF
Mir LM, Glass LF, Serša G, Teissie J, Domenge C, Miklavčič D, Jaroszeski MJ, Orlowski S, Reintgen DS, Rudolf Z, Belehradek M, Gilbert R, Rols MP, Belehradek JJr, Bachaud JM, DeConti R, Štabuc B, Čemažar M, Coninx P, Heller R. Effective treatment of cutaneous and subcutaneous malignant tumors by electrochemotherapy. Br. J. Cancer 77, 2336-2342PDF
Serša G, Beravs K, Čemažar M, Miklavčič D, Demšar F. Contrast enhanced MRI assessment of tumor blood volume after application of electric pulses. Electro. Magnetobiol. 17, 299-306PDF
Serša G, Štabuc B, Čemažar M, Jančar B, Miklavčič D, Rudolf Z. Electrochemotherapy with cisplatin – potentiation of local cisplatin antitumor effectiveness by application of electric pulses in cancer patients. Eur. J. Cancer 34, 1213-1218PDF
Susil R, Šemrov D, Miklavčič D. Electric field induced transmembrane potential depends on cell density and organization. Electro. Magnetobiol. 17, 391-399PDF
Čemažar M, Jarm T, Miklavčič D, Maček Lebar A, Ihan A, Kopitar NA, Serša G. Effect of electric-field intensity on electropermeabilization and electrosensitivity of various tumor-cell lines in vitro. Electro. Magnetobiol. 17, 263-272PDF
Čemažar M, Miklavčič D, Serša G. Intrinsic sensitivity of tumor cells to bleomycin as an indicator of tumor response to electrochemotherapy. Jpn. J. Cancer Res. 89, 328-333PDF
Čemažar M, Milačič R, Miklavčič D, Dolžan V, Serša G. Intratumoral cisplatin administration in electrochemotherapy: antitumor effectiveness, sequence dependence and platinum content. Anti-Cancer Drugs 9, 525-530PDF
Čemažar M, Serša G, Miklavčič D. Electrochemotherapy with cisplatin in the treatment of tumour cells resistant to cisplatin. Anticancer Res. 18, 4463-4466PDF
Šemrov D, Miklavčič D. Calculation of the electrical parameters in electrochemotherapy of solid tumours in mice. Comput. Biol. Med. 28, 439-448PDF
1997(13)
Jarm T, An DJ, Belehradek JJr, Mir LM, Serša G, Čemažar M, Kotnik T, Pušenjak J, Miklavčič D. Study of blood perfusion with Patent Blue staining method in LPB fibrosarcoma tumors in immuno-competent and immuno-deficient mice after electrotherapy by direct current. Radiol. Oncol. 31, 33-38PDF
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, 265-270PDF
Kotnik T, Bobanović F, Miklavčič D. Sensitivity of transmembrane voltage induced by applied electric fields – a theoretical analysis. Bioelectrochem. Bioenerg. 43, 285-291PDF
Miklavčič D, An DJ, Belehradek JJr, Mir LM. Host's immune response in electrotherapy of murine tumors by direct current. Eur. Cytokine Netw. 8, 275-279PDF
Miklavčič D, Jarm T, Čemažar M, Serša G, An DJ, Belehradek J Jr, Mir LM. Tumor treatment by direct electric current – tumor perfusion changes. Bioelectrochem. Bioenerg. 43, 253-256PDF
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, 119-128PDF
Puc M, Reberšek S, Miklavčič D. Requirements for a clinical electrochemotherapy device – electroporator. Radiol. Oncol. 31, 368-373PDF
Pušenjak J, Miklavčič D. Interstitial fluid pressure as an obstacle in treatment of solid tumors. Radiol. Oncol. 31, 291-297PDF
Serša G, Miklavčič D, Čemažar M, Belehradek JJr, Jarm T, Mir LM. Electrochemotherapy with CDDP on LPB sarcoma: cmparison of the anti-tumor effectiveness in immunocompetent and immunodeficient mice. Bioelectrochem. Bioenerg. 43, 279-283PDF
Serša G, Čemažar M, Menart V, Gaberc-Porekar V, Miklavčič D. Anti-tumor effectiveness of electrochemotherapy with bleomycin is increased by TNF-a on SA-1 tumors in mice. Cancer Lett. 116, 85-92PDF
Serša I, Beravs K, Dodd NJF, Zhao S, Miklavčič D, Demšar F. Electric current density imaging of mice tumours. Magnet. Reson. Med. 37, 404-409PDF
Simčič S, Bobanovič F, Kotnik V, Vodovnik L. Local changes in membrane potential inten- sify neutrophil oxidative burst. Physiol. Chem. Phys. Med. NMR 29, 39-50PDF
Šemrov D, Karba R, Valenčič V. DC electrical stimulation for chronic wound healing enhancement. Part 2. Parameter determination by numerical modelling. Bioelectrochem. Bioenerg. 43, 271-277PDF
1996(3)
Serša G, Kotnik V, Čemažar M, Miklavčič D, Kotnik A. Electrochemotherapy with bleomycin in SA-1 tumor-bearing mice – natural resistance and immune responsiveness. Anti-Cancer Drugs 7, 785-791PDF
Serša G, Čemažar M, Šemrov D, Miklavčič D. Changing electrode orientation improves the efficacy of electrochemotherapy of solid tumors in mice. Bioelectrochem. Bioenerg. 39, 61-66PDF
Šemrov D, Kotnik T, Miklavčič D. Modeliranje bioloških in kemijskih sistemov s celičnimi avtomati. Elektroteh. Vestn. 63, 241-248PDF
1995(7)
Karba R, Benko H, Šavrin R, Vodovnik L. Combination of occlusive dressings and electrical stimulation in pressure ulcer treatment. Med. Sci. Res. 23, 671-673PDF
Miklavčič D, Jarm T, Karba R, Serša G. Mathematical modelling of tumor growth in mice following electrotherapy and bleomycin treatment. Math. Comput. Simulat. 39, 597-602PDF
Mir LM, Orlowski S, Belehradek JJr, Teissie J, Rols MP, Serša G, Miklavčič D, Gilbert R, Heller R. Biomedical applications of electric pulses with special emphasis on antitumor electrochemotherapy. Bioelectrochem. Bioenerg. 38, 203-207PDF
Rudolf Z, Štabuc R, Čemažar M, Miklavčič D, Vodovnik L, Serša G. Electrochemotherapy with bleomycin. The first clinical experience in malignant melanoma patients. Radiol. Oncol. 29, 229-235PDF
Serša G, Čemažar M, Miklavčič D. Antitumor effectiveness of electrochemotherapy with cis-diamminedichloroplatinum(II) in mice. Cancer Res. 55, 3450-3455PDF
Vodovnik L, Miklavčič D. A theoretical approach to perturbation of biological systems by electrical currents. Electro. Magnetobiol. 14, 51-62PDF
Čemažar M, Miklavčič D, Vodovnik L, Jarm T, Rudolf Z, Štabuc R, Čufer T, Serša G. Improved therapeutic effect of electrochemotherapy with cisplatin by intratumoral drug administration and changing of electrode orientation for electropermeabilization on EAT tumor model in mice. Radiol. Oncol. 29, 121-127PDF
1994(4)
Batista U, Miklavčič D, Serša G. Low level direct current – cell culture fibroblast model. Bioelectrochem. Bioenerg. 35, 99-101PDF
Jerčinović A, Karba R, Vodovnik L, Stefanovska A, Krošelj P, Turk R, Džidić I, Benko H, Šavrin R. Low frequency pulsed current and pressure ulcer healing. IEEE T. Rehab. Eng. 2, 225-233PDF
Miklavčič D, Fajgelj A, Serša G. Tumour treatment by direct electric current – electrode material deposition. Bioelectrochem. Bioenerg. 35, 93-97PDF
Serša G, Čemažar M, Miklavčič D, Mir LM. Electrochemotherapy: variable anti-tumor effect on different tumor models. Bioelectrochem. Bioenerg. 35, 23-27PDF
1993(5)
Jerčinović A, Bobanović F, Vodovnik L. Endogenous potentials in two different models of human skin injuries. Bioelectrochem. Bioenerg. 30, 221-227PDF
Miklavčič D, Serša G, Kryžanovski M, Novaković S, Bobanović F, Golouh R, Vodovnik L. Tumor treatment by direct electric current – tumor temperature and pH. Bioelectrochem. Bioenerg. 30, 209-220PDF
Serša G, Miklavčič D. Combined treatment of murine SA-1 tumors by human leukocyte interferon alpha and electrotherapy. Radiol. Oncol. 27, 280-285PDF
Serša G, Miklavčič D. The feasibility of low level direct current electrotherapy for regional cancer treatment. Reg. Cancer Treatment 1, 31-35PDF
Serša G, Novaković S, Miklavčič D. Potentiation of bleomycin antitumor effectiveness by electrotherapy. Cancer Lett. 69, 81-84PDF
