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Speckle pattern analysis with deep learning for low-cost stroke detection: a phantom-based feasibility study.

Avraham Yosovich1, Sergey Agdarov1, Yafim Beiderman1

  • 1Bar-Ilan University Faculty of Engineering and the Nanotechnology Center, Ramat-Gan, Israel.

Journal of Biomedical Optics
|May 8, 2025
PubMed
Summary
This summary is machine-generated.

A new laser speckle imaging technique combined with deep learning shows promise for rapid stroke detection. This method accurately identifies simulated blood flow changes, offering a potential low-cost diagnostic tool for stroke.

Keywords:
deep learningphotonicsremote sensingspeckle patternstroke

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Area of Science:

  • Biomedical Optics
  • Medical Imaging
  • Artificial Intelligence in Medicine

Background:

  • Stroke is a major cause of global disability, requiring prompt diagnosis to prevent irreversible brain damage.
  • Current advanced imaging techniques are often inaccessible in resource-limited settings due to cost and logistical challenges.

Purpose of the Study:

  • To evaluate a laser speckle-based imaging technique integrated with deep learning for detecting simulated stroke conditions.
  • To assess the feasibility of differentiating healthy blood flow from restricted flow states using speckle patterns in artificial arteries.

Main Methods:

  • Artificial arteries (3-6 mm diameter) were embedded in chicken tissue at depths of 0-10 mm to simulate various blood flow scenarios.
  • A high-speed camera captured laser-induced speckle patterns, which were then analyzed by a 3D convolutional neural network (X3D_M) for flow condition classification.

Main Results:

  • The technique achieved high classification accuracy, ranging from 95% to 100% for superficial, larger vessels.
  • Robust detection was maintained for smaller or deeper arteries, indicating the reliability of spatiotemporal speckle pattern analysis.

Conclusions:

  • Combining speckle imaging with deep learning presents a potential solution for accessible and rapid stroke detection.
  • Future research will focus on in vivo experiments, addressing challenges like skull optical properties and near-infrared illumination for intracranial applications.