AI Article Synopsis
- Osteoporosis is often diagnosed using DXA scans, but screening is low, leading to preventable fractures; Raman spectroscopy (RS) offers a potentially accessible alternative for assessing fracture risk by evaluating bone quality through the skin.
- The study focused on measuring RS from the phalangeal bones of human hands to see if it correlates with fracture strength in the distal radius, which could indicate risks for fractures in the spine and hip.
- Results showed significant differences in bone composition among healthy, osteopenic, and osteoporotic bones, with RS parameters proving effective in predicting bone strength and matching DXA outcomes, suggesting RS could be a viable method for assessing bone health.
Article Abstract
While osteoporosis is reliably diagnosed using dual energy X-ray absorptiometry (DXA), screening rates are alarmingly low, contributing to preventable fractures. Raman spectroscopy (RS) can detect biochemical changes that occur in bones transcutaneously and can arguably be more accessible than DXA as a fracture risk assessment. A reasonable approach to translate RS is to interrogate phalangeal bones of human hands, where the soft tissues covering the bone are less likely to hamper transcutaneous measurements. To that end, we set out to first determine whether Raman spectra obtained from phalangeal bones correlate with distal radius fracture strength, which can predict subsequent osteoporotic fractures at the spine and hip. We performed RS upon diaphyseal and epiphyseal regions of exposed proximal phalanges from 12 cadaver forearms classified as healthy (n = 3), osteopenic (n = 4), or osteoporotic (n = 5) based on wrist T-scores measured by DXA. We observed a significant decrease in phosphate to matrix ratio and a significant increase in carbonate substitution in the osteoporotic phalanges relative to healthy and osteopenic phalanges. Multivariate regression models produced wrist T-score estimates with significant correlation to the DXA-measured values (r = 0.79). Furthermore, by accounting for phalangeal RS parameters, body mass index, and age, a multivariate regression significantly predicted distal radius strength measured in a simulated-fall biomechanical test (r = 0.81). These findings demonstrate the feasibility of interrogating the phalanges using RS for bone quality assessment of distant clinical sites of fragility fractures, such as the wrist. Future work will address transcutaneous measurement challenges as another requirement for scale-up and translation.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10872783 | PMC |
| http://dx.doi.org/10.1016/j.jbiomech.2023.111852 | DOI Listing |
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