Long-term imaging and spatio-temporal control of living cells using light

Neshika S Wijewardhane; Ana Rubio Denniss; Matthew Uppington; Helmut Hauser; Thomas E Gorochowski; Eugenia Piddini; Sabine Hauert

doi:10.1109/MARSS55884.2022.9870487

Long-term imaging and spatio-temporal control of living cells using light

Neshika S Wijewardhane^*, Ana Rubio Denniss, Matthew Uppington, Helmut Hauser, Thomas E Gorochowski, Eugenia Piddini, Sabine Hauert

^*Corresponding author for this work

Research output: Contribution to conference › Conference Paper › peer-review

3 Citations (Scopus)

Abstract

The ability to optically interact with cells on both an individual and collective level has applications from wound healing to cancer treatment. Building systems which can facilitate both localised light illumination and visualisation of cells can however, be challenging and costly. This work takes the DOME, an existing platform for the closed-loop optical control of microscale agents, and adapts the design to support live-cell imaging. Through modifications made to the imaging and projection systems within the DOME, a significantly higher imaging resolution is achieved as well as the ability to customise the light projection wavelengths. Changes to the fundamental design allow for long-term use in an environment of higher temperature and humidity, facilitating the long-term imaging of live cells.

Original language	English
DOIs	https://doi.org/10.1109/MARSS55884.2022.9870487
Publication status	Published - 2 Sept 2022
Event	MARSS 2022 Conference - University of Toronto, Toronto, Canada Duration: 25 Jul 2022 → 29 Jul 2022 Conference number: 55884X https://marss-conference.org/

Conference

Conference	MARSS 2022 Conference
Country/Territory	Canada
City	Toronto
Period	25/07/22 → 29/07/22
Internet address	https://marss-conference.org/

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "Long-term imaging and spatio-temporal control of living cells using light",

abstract = "The ability to optically interact with cells on both an individual and collective level has applications from wound healing to cancer treatment. Building systems which can facilitate both localised light illumination and visualisation of cells can however, be challenging and costly. This work takes the DOME, an existing platform for the closed-loop optical control of microscale agents, and adapts the design to support live-cell imaging. Through modifications made to the imaging and projection systems within the DOME, a significantly higher imaging resolution is achieved as well as the ability to customise the light projection wavelengths. Changes to the fundamental design allow for long-term use in an environment of higher temperature and humidity, facilitating the long-term imaging of live cells.",

author = "Wijewardhane, {Neshika S} and {Rubio Denniss}, Ana and Matthew Uppington and Helmut Hauser and Gorochowski, {Thomas E} and Eugenia Piddini and Sabine Hauert",

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doi = "10.1109/MARSS55884.2022.9870487",

language = "English",

note = "MARSS 2022 Conference ; Conference date: 25-07-2022 Through 29-07-2022",

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T1 - Long-term imaging and spatio-temporal control of living cells using light

AU - Wijewardhane, Neshika S

AU - Rubio Denniss, Ana

AU - Uppington, Matthew

AU - Hauser, Helmut

AU - Gorochowski, Thomas E

AU - Piddini, Eugenia

AU - Hauert, Sabine

N1 - Conference code: 55884X

PY - 2022/9/2

Y1 - 2022/9/2

N2 - The ability to optically interact with cells on both an individual and collective level has applications from wound healing to cancer treatment. Building systems which can facilitate both localised light illumination and visualisation of cells can however, be challenging and costly. This work takes the DOME, an existing platform for the closed-loop optical control of microscale agents, and adapts the design to support live-cell imaging. Through modifications made to the imaging and projection systems within the DOME, a significantly higher imaging resolution is achieved as well as the ability to customise the light projection wavelengths. Changes to the fundamental design allow for long-term use in an environment of higher temperature and humidity, facilitating the long-term imaging of live cells.

AB - The ability to optically interact with cells on both an individual and collective level has applications from wound healing to cancer treatment. Building systems which can facilitate both localised light illumination and visualisation of cells can however, be challenging and costly. This work takes the DOME, an existing platform for the closed-loop optical control of microscale agents, and adapts the design to support live-cell imaging. Through modifications made to the imaging and projection systems within the DOME, a significantly higher imaging resolution is achieved as well as the ability to customise the light projection wavelengths. Changes to the fundamental design allow for long-term use in an environment of higher temperature and humidity, facilitating the long-term imaging of live cells.

U2 - 10.1109/MARSS55884.2022.9870487

DO - 10.1109/MARSS55884.2022.9870487

M3 - Conference Paper

T2 - MARSS 2022 Conference

Y2 - 25 July 2022 through 29 July 2022

ER -

Long-term imaging and spatio-temporal control of living cells using light

Abstract

Conference

UN SDGs

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