Development of a cost-effective compact diode-laser-based photoacoustic sensing instrument for breast tissue diagnosis

  • Khan S
  • Mukhopadhyay S
  • Vasudevan S
  • et al.
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Abstract

SignificanceThe photoacoustic (PA) technique, a noninvasive pump–probe technique, has found interesting applications in biomedical tissue diagnosis over the last decade. To take it a step further to clinical applications, the PA technique needs to be designed as an instrument focusing on a compact design, reducing the cost, and quickly providing a quantitative diagnosis.AimThis work presents a design and characterization of a cost-effective, compact PA sensing instrument for biomedical tissue diagnosis.ApproachA compact laser diode case design is developed to house several laser diodes for PA excitation, and a pulsed current supply unit is also developed in-house to power the laser diodes to generate a 25 ns current pulse at a frequency of 20 kHz. After PA experimental data acquisition, the signal's frequency spectra were calculated to characterize the tissue quantitatively and correlated with their mechanobiological properties.ResultsThe corresponding dominant frequency peak in the PA spectral response (PASR) study was low in the fibrofatty normal breast tissue 0.26±0.03 MHz, compared to the dominant frequency peak of 1.60±0.016 MHz in the fibrocystic disease tissue, which had increased glandular and stromal elements, thereby increased tissue density. The histopathological findings correlated with the PASR results, and the fibrocystic breast disease tissue exhibited a higher dominant frequency peak and energy compared to the normal breast tissue.ConclusionsWe experimented with an in vitro PASR study of fibrocystic human breast tissues and successfully differentiated different tissue types using quantitative spectral parameters peak frequency, mean frequency, and spectral energy. This gives the potential to take this technique further for cost-effective and quick clinical applications.

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Khan, S., Mukhopadhyay, S., Vasudevan, S., Goel, G., Joshi, D., Kapoor, N., & Das, S. (2024). Development of a cost-effective compact diode-laser-based photoacoustic sensing instrument for breast tissue diagnosis. Journal of Biomedical Optics, 29(01). https://doi.org/10.1117/1.jbo.29.1.017002

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