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Melvin F. Lorenzo
ORCID
Publication Activity (10 Years)
Years Active: 2018-2022
Publications (10 Years): 7
Top Topics
Electric Field
Top Venues
IEEE Trans. Biomed. Eng.
EMBC
Biomed. Signal Process. Control.
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Publications
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Natalie Beitel-White
,
Melvin F. Lorenzo
,
Yajun Zhao
,
Kenneth N. Aycock
,
Navid M. Manuchehrabadi
,
Rebecca M. Brock
,
Sheryl Coutermarsh-Ott
,
Khan Mohammad Imran
,
Irving C. Allen
,
Rafael V. Davalos
Comparison of analysis methods for determination of dynamic tissue conductivity during microseconds-long pulsed electric fields.
Biomed. Signal Process. Control.
72 (Part) (2022)
Kenneth N. Aycock
,
Sabrina N. Campelo
,
Zaid S. Salameh
,
Ram Anand Vadlamani
,
Melvin F. Lorenzo
,
Rafael V. Davalos
Extended interpulse delays improve therapeutic efficacy of microsecond-duration pulsed electric fields.
EMBC
(2022)
Natalie Beitel-White
,
Kenneth N. Aycock
,
Navid Manuchehrabadi
,
Yajun Zhao
,
Khan Mohammad Imran
,
Sheryl Coutermarsh-Ott
,
Irving C. Allen
,
Melvin F. Lorenzo
,
Rafael V. Davalos
Properties of tissue within prostate tumors and treatment planning implications for ablation therapies.
EMBC
(2021)
Melvin F. Lorenzo
,
Suyashree Bhonsle
,
Christopher B. Arena
,
Rafael V. Davalos
Rapid Impedance Spectroscopy for Monitoring Tissue Impedance, Temperature, and Treatment Outcome During Electroporation-Based Therapies.
IEEE Trans. Biomed. Eng.
68 (5) (2021)
Natalie Beitel-White
,
Melvin F. Lorenzo
,
Yajun Zhao
,
Rebecca M. Brock
,
Sheryl Coutermarsh-Ott
,
Irving C. Allen
,
Navid Manuchehrabadi
,
Rafael V. Davalos
Multi-Tissue Analysis on the Impact of Electroporation on Electrical and Thermal Properties.
IEEE Trans. Biomed. Eng.
68 (3) (2021)
Kenneth N. Aycock
,
Yajun Zhao
,
Melvin F. Lorenzo
,
Rafael V. Davalos
A Theoretical Argument for Extended Interpulse Delays in Therapeutic High-Frequency Irreversible Electroporation Treatments.
IEEE Trans. Biomed. Eng.
68 (6) (2021)
Suyashree Bhonsle
,
Melvin F. Lorenzo
,
Ahmad Safaai-Jazi
,
Rafael V. Davalos
Characterization of Nonlinearity and Dispersion in Tissue Impedance During High-Frequency Electroporation.
IEEE Trans. Biomed. Eng.
65 (10) (2018)