5–11 Jun 2022
McMaster University
America/Toronto timezone
Welcome to the 2022 CAP Congress Program website! / Bienvenue au siteweb du programme du Congrès de l'ACP 2022!

(G*) A novel optical filter-based Raman system operating in strong ambient light for in vivo clinical applications

8 Jun 2022, 11:30
15m
MDCL 1102 (McMaster University)

MDCL 1102

McMaster University

Oral Competition (Graduate Student) / Compétition orale (Étudiant(e) du 2e ou 3e cycle) Atomic, Molecular and Optical Physics, Canada / Physique atomique, moléculaire et photonique, Canada (DAMOPC-DPAMPC) W1-3 Optical Tools (DAMOPC/DPMB) | Outils optiques (DAMOPC/DPMB)

Speaker

Mr Hao Guo (Dalhousie University)

Description

A portable optical system and methods have been developed for real-time synchronous detection of vibration and rotation modes in biotic systems. It consists of a modulated light source, laser beam shaping and light collecting optics, optical detectors, appropriately selected optical filters, a laser beam modulator, current-to-voltage converters, and lock-in amplifiers. The weak signal of characteristic Raman scattering peaks of glycerides is identified using the sensitive lock-in amplification technique, which supersedes the state-of-the-art for other similar approaches and allows for the detection of weak Raman signals in ambient LED and luminescent light conditions. Parallel measurements of duck fat phantoms and duck liver samples using an FT-Raman spectrometer and our handheld probe indicate that our system can provide a quantitative result on the fat content quickly and accurately in lipid phantoms and liver samples, demonstrating a strong linear correlation ($r^{2} >0.97$) between intensities of output voltage signals, MRI readings, and fat contents in the clinically relevant range (20%-60%) with a sensitivity of 16.75μV / 1% change in fat content, though the handheld probe is 10-fold cheaper than an FT-Raman system. An accurate real-time assessment of donor liver fat contents is hopeful to be achieved during organ procurement surgeries, which is crucial in predicting liver graft post-transplant dysfunction risks. Features of this device now need to be further evaluated by studying ex-situ and in-situ human livers.

Primary authors

Mr Hao Guo (Dalhousie University) Dr Alexey B. Tikhomirov (Dalhousie University) Ms Alexandria Mitchell (Dalhousie University) Dr Zeng Haishan (British Columbia Cancer Agency) Dr Ian P. Alwayn (Leiden University Medical Centre) Dr Kevin C. Hewitt (Dalhousie University)

Presentation materials

There are no materials yet.