Search Results - "Graybill, Philip M"

Seasonal changes in morphology govern wettability of Katsura leaves by Kang, Hosung, Graybill, Philip M, Fleetwood, Sara, Boreyko, Jonathan B, Jung, Sunghwan

“…Deciduous broad-leaf trees survive and prepare for winter by shedding their leaves in fall. During the fall season, a change in a leaf's wettability and its…”
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Correction: Seasonal changes in morphology govern wettability of Katsura leaves by Kang, Hosung, Graybill, Philip M, Fleetwood, Sara, Boreyko, Jonathan B, Jung, Sunghwan

“…[This corrects the article DOI: 10.1371/journal.pone.0202900.]…”
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High-Voltage Electrical Pulses in Oncology: Irreversible Electroporation, Electrochemotherapy, Gene Electrotransfer, Electrofusion, and Electroimmunotherapy by Geboers, Bart, Scheffer, Hester J, Graybill, Philip M, Ruarus, Alette H, Nieuwenhuizen, Sanne, Puijk, Robbert S, van den Tol, Petrousjka M, Davalos, Rafael V, Rubinsky, Boris, de Gruijl, Tanja D, Miklavčič, Damijan, Meijerink, Martijn R

“…This review summarizes the use of high-voltage electrical pulses (HVEPs) in clinical oncology to treat solid tumors with irreversible electroporation (IRE) and…”
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Cytoskeletal Disruption after Electroporation and Its Significance to Pulsed Electric Field Therapies by Graybill, Philip M, Davalos, Rafael V

“…Pulsed electric fields (PEFs) have become clinically important through the success of Irreversible Electroporation (IRE), Electrochemotherapy (ECT), and…”
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Single Cell Forces after Electroporation by Graybill, Philip M, Jana, Aniket, Kapania, Rakesh K, Nain, Amrinder S, Davalos, Rafael V

“…Exogenous high-voltage pulses increase cell membrane permeability through a phenomenon known as electroporation. This process may also disrupt the cell…”
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Ultra-thin and ultra-porous nanofiber networks as a basement-membrane mimic by Graybill, Philip M, Jacobs, 4th, Edward J, Jana, Aniket, Agashe, Atharva, Nain, Amrinder S, Davalos, Rafael V

“…Current basement membrane (BM) mimics used for modeling endothelial and epithelial barriers do not faithfully recapitulate key physiological properties such as…”
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Engineering high post-electroporation viabilities and transfection efficiencies for elongated cells on suspended nanofiber networks by Jacobs IV, Edward J., Graybill, Philip M., Jana, Aniket, Agashe, Atharva, Nain, Amrinder S., Davalos, Rafael V.

“…•Nanofiber Scaffolds can control cell shape and orientation to an electric field.•Cell orientation and buffer conductivity affect post-electroporation…”
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Generation of Tumor-activated T cells Using Electroporation by Alinezhadbalalami, Nastaran, Graybill, Philip M., Imran, Khan Mohammad, Verbridge, Scott S., Allen, Irving C., Davalos, Rafael V.

“…[Display omitted] •Cytotoxic T cells can be activated, expanded, and produced using high-frequency irreversible electroporation (HFIRE).•Longer HFIRE pulse…”
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A Multiplexed Microfluidic Device to Measure Blood-Brain Barrier Disruption by Pulsed Electric Fields by Graybill, Philip M., Davalos, Rafael V.

“…Local disruption of the blood-brain barrier (BBB) by pulsed electric fields shows significant potential for treating neurological conditions. Microfluidic BBB…”
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Frequency-specific, valveless flow control in insect-mimetic microfluidic devices by Chatterjee, Krishnashis, Graybill, Philip M, Socha, John J, Davalos, Rafael V, Staples, Anne E

“…Inexpensive, portable lab-on-a-chip devices would revolutionize fields like environmental monitoring and global health, but current microfluidic chips are…”
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