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Ross A Petrella

Showing results (1-10 of 11) with videos related to

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IEEE Transactions on Plasma Science. IEEE Nuclear and Plasma Sciences Society|August 27, 2016
A Dielectric Rod Antenna for Picosecond Pulse Stimulation of Neurological TissueRoss A Petrella, Karl H Schoenbach, Shu Xiao
Annals of Biomedical Engineering|May 17, 2020
Electro-Thermal Therapy Algorithms and Active Internal Electrode Cooling Reduce Thermal Injury in High Frequency Pulsed Electric Field Cancer TherapiesMichael B Sano, Christopher C Fesmire, Ross A Petrella
IEEE Transactions on Bio-Medical Engineering|January 13, 2022
Polymer Nanoparticles Enhance Irreversible Electroporation In VitroRoss A Petrella, Shani L Levit, Christopher C Fesmire, et al.
Bioelectrochemistry (Amsterdam, Netherlands)|May 22, 2020
Irreversible electroporation is a thermally mediated ablation modality for pulses on the order of one microsecondChristopher C Fesmire, Ross A Petrella, Jacob D Kaufman, et al.
Annals of Biomedical Engineering|May 16, 2020
Temperature Dependence of High Frequency Irreversible Electroporation Evaluated in a 3D Tumor ModelChristopher C Fesmire, Ross A Petrella, Callie A Fogle, et al.
IEEE Transactions on Bio-Medical Engineering|December 25, 2023
Integrated Time Nanosecond Pulse Irreversible Electroporation (INSPIRE): Assessment of Dose, Temperature, and Voltage on Experimental and Clinical Treatment OutcomesChristopher C Fesmire, Robert H Williamson, Ross A Petrella, et al.
Computers in Biology and Medicine|June 23, 2020
Electro-thermal therapy: Microsecond duration pulsed electric field tissue ablation with dynamic temperature control algorithmsMichael B Sano, Ross A Petrella, Jacob D Kaufman, et al.
Journal of Vascular and Interventional Radiology : JVIR|September 19, 2019
High-Frequency Irreversible Electroporation Using 5,000-V Waveforms to Create Reproducible 2- and 4-cm Ablation Zones-A Laboratory Investigation Using Mechanically Perfused LiverJacob D Kaufman, Christopher C Fesmire, Ross A Petrella, et al.
Journal of Neural Engineering|June 1, 2018
3D bioprinter applied picosecond pulsed electric fields for targeted manipulation of proliferation and lineage specific gene expression in neural stem cellsRoss A Petrella, Peter A Mollica, Martina Zamponi, et al.
IEEE Transactions on Bio-Medical Engineering|April 29, 2024
Treatment of Spontaneous Tumors With Algorithmically Controlled ElectroporationChristopher C Fesmire, Ross A Petrella, Robert H Williamson, et al.
Pageof 2

Showing results (1-10 of 11) with videos related to

Sort By:
Pageof 2
IEEE Transactions on Plasma Science. IEEE Nuclear and Plasma Sciences Society|August 27, 2016
A Dielectric Rod Antenna for Picosecond Pulse Stimulation of Neurological TissueRoss A Petrella, Karl H Schoenbach, Shu Xiao
Annals of Biomedical Engineering|May 17, 2020
Electro-Thermal Therapy Algorithms and Active Internal Electrode Cooling Reduce Thermal Injury in High Frequency Pulsed Electric Field Cancer TherapiesMichael B Sano, Christopher C Fesmire, Ross A Petrella
IEEE Transactions on Bio-Medical Engineering|January 13, 2022
Polymer Nanoparticles Enhance Irreversible Electroporation In VitroRoss A Petrella, Shani L Levit, Christopher C Fesmire, et al.
Bioelectrochemistry (Amsterdam, Netherlands)|May 22, 2020
Irreversible electroporation is a thermally mediated ablation modality for pulses on the order of one microsecondChristopher C Fesmire, Ross A Petrella, Jacob D Kaufman, et al.
Annals of Biomedical Engineering|May 16, 2020
Temperature Dependence of High Frequency Irreversible Electroporation Evaluated in a 3D Tumor ModelChristopher C Fesmire, Ross A Petrella, Callie A Fogle, et al.
IEEE Transactions on Bio-Medical Engineering|December 25, 2023
Integrated Time Nanosecond Pulse Irreversible Electroporation (INSPIRE): Assessment of Dose, Temperature, and Voltage on Experimental and Clinical Treatment OutcomesChristopher C Fesmire, Robert H Williamson, Ross A Petrella, et al.
Computers in Biology and Medicine|June 23, 2020
Electro-thermal therapy: Microsecond duration pulsed electric field tissue ablation with dynamic temperature control algorithmsMichael B Sano, Ross A Petrella, Jacob D Kaufman, et al.
Journal of Vascular and Interventional Radiology : JVIR|September 19, 2019
High-Frequency Irreversible Electroporation Using 5,000-V Waveforms to Create Reproducible 2- and 4-cm Ablation Zones-A Laboratory Investigation Using Mechanically Perfused LiverJacob D Kaufman, Christopher C Fesmire, Ross A Petrella, et al.
Journal of Neural Engineering|June 1, 2018
3D bioprinter applied picosecond pulsed electric fields for targeted manipulation of proliferation and lineage specific gene expression in neural stem cellsRoss A Petrella, Peter A Mollica, Martina Zamponi, et al.
IEEE Transactions on Bio-Medical Engineering|April 29, 2024
Treatment of Spontaneous Tumors With Algorithmically Controlled ElectroporationChristopher C Fesmire, Ross A Petrella, Robert H Williamson, et al.
Pageof 2