Open Access
10 July 2024 Non-contact elasticity contrast imaging using photon counting
Zipei Zheng, Yong Meng Sua, Shenyu Zhu, Patrick Rehain, Yu-Ping Huang
Author Affiliations +
Abstract

Significance

Tissues’ biomechanical properties, such as elasticity, are related to tissue health. Optical coherence elastography produces images of tissues based on their elasticity, but its performance is constrained by the laser power used, working distance, and excitation methods.

Aim

We develop a new method to reconstruct the elasticity contrast image over a long working distance, with only low-intensity illumination, and by non-contact acoustic wave excitation.

Approach

We combine single-photon vibrometry and quantum parametric mode sorting (QPMS) to measure the oscillating backscattered signals at a single-photon level and derive the phantoms’ relative elasticity.

Results

We test our system on tissue-mimicking phantoms consisting of contrast sections with different concentrations and thus stiffness. Our results show that as the driving acoustic frequency is swept, the phantoms’ vibrational responses are mapped onto the photon-counting histograms from which their mechanical properties—including elasticity—can be derived. Through lateral and longitudinal laser scanning at a fixed frequency, a contrast image based on samples’ elasticity can be reliably reconstructed upon photon level signals.

Conclusions

We demonstrated the reliability of QPMS-based elasticity contrast imaging of agar phantoms in a long working distance, low-intensity environment. This technique has the potential for in-depth images of real biological tissue and provides a new approach to elastography research and applications.

CC BY: © The Authors. Published by SPIE under a Creative Commons Attribution 4.0 International License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.
Zipei Zheng, Yong Meng Sua, Shenyu Zhu, Patrick Rehain, and Yu-Ping Huang "Non-contact elasticity contrast imaging using photon counting," Journal of Biomedical Optics 29(7), 076003 (10 July 2024). https://doi.org/10.1117/1.JBO.29.7.076003
Received: 23 February 2024; Accepted: 17 May 2024; Published: 10 July 2024
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KEYWORDS
Elasticity

Photon counting

Elastography

Tissues

Image restoration

Acoustic waves

Picosecond phenomena

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