Skip to content

A Novel, all-optical tool for controllable and non-destructive poration of cells with single-micron resolution

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Original languageEnglish
Title of host publicationBio-Optics: Design and Application, BODA 2015
Publisher or commissioning bodyOptical Society of America (OSA)
ISBN (Electronic)9781557529541
DatePublished - 6 Apr 2015
EventBio-Optics: Design and Application, BODA 2015 - Vancouver, Canada
Duration: 12 Apr 201515 Apr 2015

Conference

ConferenceBio-Optics: Design and Application, BODA 2015
CountryCanada
CityVancouver
Period12/04/1515/04/15

Abstract

We demonstrate controllable poration within ≈1 μm regions of individual cells, mediated by a near-IR laser interacting with thin-layer amorphous silicon substrates. This technique will allow new experiments in single-cell biology, particularly in neuroscience. As our understanding of the fundamental mechanistic processes underpinning biology expands, so does the need for high-precision tools to allow the dissection of the heterogeneity and stochastic processes that dominate at the single- and sub-cellular level. Here, we demonstrate a highly controllable and reproducible optical technique for inducing poration within specific regions of a target cell's plasma membrane, permitting localized delivery of payloads, depolarization and lysis experiments to be conducted in unprecedented detail. Experiments support a novel mechanism for the process, based upon a thermally-induced change triggered by the interactions of a near-IR laser with a biocompatible thin film substrate at powers substantially below that used in standard optoporation experiments.

Event

Bio-Optics: Design and Application, BODA 2015

Duration12 Apr 201515 Apr 2015
CityVancouver
CountryCanada
SponsorsOSA (External organisation)

Event: Conference

Documents

View research connections

Related faculties, schools or groups