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View article: Modeling of morphologically realistic large-scale multicellular electroporation for population-level analysis
Modeling of morphologically realistic large-scale multicellular electroporation for population-level analysis Open
This study explores the dynamics of multicellular electroporation within a monolayer cluster of HCMEC/D3 cells subjected to pulsed electric fields. By proposing an automated approach capable of reconstructing realistic multicellular morpho…
View article: Micro-spring force sensors using conductive photosensitive resin fabricated via two-photon polymerization
Micro-spring force sensors using conductive photosensitive resin fabricated via two-photon polymerization Open
View article: High‐frequency irreversible electroporation for gliomas: A feasibility study using patient‐specific finite element models
High‐frequency irreversible electroporation for gliomas: A feasibility study using patient‐specific finite element models Open
Background High‐frequency irreversible electroporation (H‐FIRE) has gradually become an attractive alternative treatment of intracranial tumors due to its clinically favorable characteristics, such as mild muscle contractions, precise abla…
View article: Comprehensive modeling of corkscrew motion in micro-/nano-robots with general helical structures
Comprehensive modeling of corkscrew motion in micro-/nano-robots with general helical structures Open
View article: Development of 3D‐Printed Magnetic Micro‐Nanorobots for Targeted Therapeutics: the State of Art
Development of 3D‐Printed Magnetic Micro‐Nanorobots for Targeted Therapeutics: the State of Art Open
Micro‐/nanorobots (mn‐robots), inspired by the versatile mechanisms found in natural microorganisms, show great potential in enabling innovative bio‐applications. The 3D‐printed magnetic mn‐robots are substantially advanced to swim in vivo…
View article: A Single-Cell Electroporation Model for Quantitatively Estimating the Pore Area Ratio by High-Frequency Irreversible Electroporation
A Single-Cell Electroporation Model for Quantitatively Estimating the Pore Area Ratio by High-Frequency Irreversible Electroporation Open
The electroporation technique utilizes pulsed electric fields to induce porous defects in the cell membrane, and the technique can be used for delivering drugs into cells and killing cancer cells. To develop an electric pulse protocol in t…
View article: Irreversible Electroporation Mediates Glioma Apoptosis via Upregulation of AP-1 and Bim: Transcriptome Evidence
Irreversible Electroporation Mediates Glioma Apoptosis via Upregulation of AP-1 and Bim: Transcriptome Evidence Open
The heat-sink effect and thermal damage of conventional thermal ablative technologies can be minimized by irreversible electroporation (IRE), which results in clear ablative boundaries and conservation of blood vessels, facilitating maxima…
View article: An <i>in vivo</i> study of a custom-made high-frequency irreversible electroporation generator on different tissues for clinically relevant ablation zones
An <i>in vivo</i> study of a custom-made high-frequency irreversible electroporation generator on different tissues for clinically relevant ablation zones Open
Our work serves to complement the current H-FIRE pulse waveforms, which can be optimized to significantly improve the quality of ablation zone in terms of precision for liver and kidney tumors in clinical setting.