Loading…

Loading grant details…

Active HORIZON European Commission

Development of an In-Vivo Brillouin Microscope (with application to Protein Aggregation-based Pathologies)

€3.33M EUR

Funder European Commission
Recipient Organization Fondazione Istituto Italiano Di Tecnologia
Country Italy
Start Date Mar 01, 2023
End Date Aug 31, 2026
Duration 1,279 days
Number of Grantees 5
Roles Participant; Coordinator
Data Source European Commission
Grant ID 101098989
Grant Description

The role and importance of mechanical properties of cells and tissues in cellular function, development and disease has widely beenacknowledged, however standard techniques currently used to assess them exhibit intrinsic limitations (invasive, lack of 3D capabilityand of sub-cellular resolution).

Recently, Brillouin Microscopy (BM), a type of optical elastography, has emerged as a non-destructive,label- and contact-free method that can probe the viscoelastic properties of biological samples with diffraction-limited resolution in3D. This led to increased attention amongst the biological and medical research communities.

However, due to the long acquisitiontime (hours), this novel technique has been applied only to fixed samples.

One important open challenge is to use this approach tofollow the mechano-biological processes in living cells and in real time.

Aim of our project is overcome the spectral-imagingacquisacknowledged, however standard techniques currently used to assess them exhibit intrinsic limitations (invasive, lack of 3D capability and of sub-cellular resolution).

Recently, Brillouin Microscopy (BM), a type of optical elastography, has emerged as a non-destructive, label- and contact-free method that can probe the viscoelastic properties of biological samples with diffraction-limited resolution in 3D. This led to increased attention amongst the biological and medical research communities.

However, due to the long acquisition time (hours), this novel technique has been applied only to fixed samples.

One important open challenge is to use this approach to follow the mechano-biological processes in living cells and in real time.

Aim of our project is overcome the spectral-imaging acquisition time limitation by applying the heterodyne detection scheme, allowing the collection of viscoelastic properties in living sample at a sub-second timescale. We will attempt solving specific physio-pathological open problems in biomedicine for the first time.

All Grantees

Crestoptics S.P.A.; Universidad de Zaragoza; Universite D'Angers; Fondazione Istituto Italiano Di Tecnologia; Universita Degli Studi Di Trento

Advertisement
Apply for grants with GrantFunds
Advertisement
Browse Grants on GrantFunds
Interested in applying for this grant?

Complete our application form to express your interest and we'll guide you through the process.

Apply for This Grant