A. L. Vera-Tizatl scite author profile

A. L. Vera-Tizatl

5Publications

16Citation Statements Received

73Citation Statements Given

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Affiliations

University of Twente, Center for Research and Advanced Studies of the National Polytechnic Institute, Instituto Politécnico Nacional

Publications

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Computational Feasibility Analysis of Electrochemotherapy With Novel Needle-Electrode Arrays for the Treatment of Invasive Breast Ductal Carcinoma

Vera-Tizatl

Vera-Hernandez

et al. 2018

Technol Cancer Res Treat

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Breast cancer represents a rising problem concerning public health worldwide. Current efforts are aimed to the development of new minimally invasive and conservative treatment procedures for this disease. A treatment approach for invasive breast ductal carcinoma could be based on electroporation. Hence, in order to determine the effectiveness of electrochemotherapy in the treatment of this disease, 12 electrode models were investigated on realistic patient-specific computational breast models of 3 patients diagnosed by Digital Breast Tomosynthesis imaging. The electrode models exhibit 4, 5, and 6 needles arranged in 4 geometric configurations (delta, diamond, and star) and 3 different needle spacing resulting in a total of 12 needle-electrode arrays. Electric field distribution in the tumors and a surrounding safety margin of 1 cm around the tumor edge is computed using the finite element method. Efficiency of the electrode arrays was determined hierarchically based on (1) percentage of tumor volume reversibly electroporated, (2) percentage of tumor volume irreversibly electroporated, (3) percentage of treated safety margin volume, (4) minimal invasiveness, that is, minimal number of electrodes used, (5) minimal activated electrode pairs, and (6) minimal electric current. Results show that 3 electrode arrays (4 needle-delta, 5 needle-diamond, and 6 needle-star) with fixed-geometry configuration could be used in the treatment with electrochemotherapy of invasive breast ductal carcinomas ranging from 1 to 5 cm3 along with a surrounding safety margin of 1 cm.

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Cell morphology impact on the set-up of electroporation protocols for in-suspension and adhered breast cancer cells

Vera-Tizatl

Talamás-Rohana

Vera-Hernandez

et al. 2020

Electromagnetic Biology and Medicine

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Transmembrane Voltage on Realistic Models of Suspended and Adhered Cells Induced by Electroporation

Vera-Tizatl

Talamás-Rohana

et al. 2020

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Investigation of numerical models for planning of electrochemotherapy treatments of invasive ductal carcinoma

Vera-Tizatl

Kos

Miklavčič

et al. 2017

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Establishment of Electroporation Protocols in BT-20 and SKOV-3 Cell Lines based on Finite Element Modeling

Vera-Tizatl

Osorio-Trujillo

et al. 2018

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A. L. Vera-Tizatl

Computational Feasibility Analysis of Electrochemotherapy With Novel Needle-Electrode Arrays for the Treatment of Invasive Breast Ductal Carcinoma

Cell morphology impact on the set-up of electroporation protocols for in-suspension and adhered breast cancer cells

Transmembrane Voltage on Realistic Models of Suspended and Adhered Cells Induced by Electroporation

Investigation of numerical models for planning of electrochemotherapy treatments of invasive ductal carcinoma

Establishment of Electroporation Protocols in BT-20 and SKOV-3 Cell Lines based on Finite Element Modeling

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