A Dual-Mode Near-Infrared Optical Probe and Monte Carlo Framework for Functional Monitoring of Rheumatoid Arthritis: Addressing Diagnostic Ambiguity and Skin Tone Robustness
Parmveer Atwal, Ryley McWilliams, Ramani Ramaseshen, Farid Golnaraghi

TL;DR
A new low-cost near-infrared probe and simulation framework are developed to monitor rheumatoid arthritis inflammation, offering a functional alternative to traditional imaging methods.
Contribution
A dual-mode NIR probe and Monte Carlo framework for functional RA monitoring, addressing diagnostic ambiguity and skin tone variability.
Findings
Reflectance geometry detects synovial turbidity onset, while transmission flux correlates with pannus volume.
Transmission flux remains robust across diverse skin tones, unlike beam-shape metrics in darker skin phenotypes.
The effective attenuation coefficient increased significantly in RA subjects compared to healthy baselines.
Abstract
Current diagnostic modalities for rheumatoid arthritis (RA), such as Magnetic Resonance Imaging (MRI) and ultrasound (US), excel at visualizing structural pathology but are either resource-intensive or often limited to morphological assessment. In this work, we present the design and technical validation of a low-cost continuous-wave near-infrared (NIR) dual-mode optical probe for functional monitoring of joint inflammation. Unlike superficial imaging, NIR light penetrates approximately 3–5 cm and is tissue and wavelength dependent, enabling trans-illumination of the synovial volume. The system combines reflectance and transmission geometries to resolve the ambiguity between disease presence and disease severity. To validate the diagnostic logic, we employed mcxyzn Monte Carlo (MC) simulations to model the optical signature of RA progression from early onset to EULAR-OMERACT grade 2…
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Taxonomy
TopicsRheumatoid Arthritis Research and Therapies · Optical Imaging and Spectroscopy Techniques · Photoacoustic and Ultrasonic Imaging
