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Predicting contrast sensitivity functions with digital twins.

Yukai Zhao1, Luis Andres Lesmes2, Michael Dorr2

  • 1Center for Neural Science, New York University, New York, USA.

Scientific Reports
|October 15, 2024
PubMed
Summary
This summary is machine-generated.

Digital twins (DTs) for contrast sensitivity function (CSF) show high accuracy in predicting vision test results. These DTs can significantly reduce data collection needs, improving efficiency in vision assessment and personalized medicine.

Keywords:
Contrast sensitivity functionDigital twinHierarchical Bayesian modelingPrediction

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Area of Science:

  • Ophthalmology and Vision Science
  • Computational Biology
  • Biomedical Engineering

Background:

  • Contrast sensitivity function (CSF) is a key measure of visual performance.
  • Accurate and efficient CSF assessment is crucial for diagnosing and managing visual impairments.
  • Current methods for CSF testing can be time-consuming and require substantial data collection.

Purpose of the Study:

  • To develop and validate digital twins (DTs) for contrast sensitivity function (CSF) prediction.
  • To assess the accuracy, precision, and efficiency of DT-generated CSF predictions.
  • To evaluate the potential of DTs in reducing data collection burden for qCSF testing.

Main Methods:

  • Utilized a data-driven, generative model approach based on a hierarchical Bayesian model (HBM).
  • Computed joint distributions of CSF hyperparameters and parameters at population, subject, and test levels.
  • Generated predicted CSFs using posterior distributions from unmeasured conditions as input for the CSF generative model.

Main Results:

  • DTs demonstrated high accuracy in group-level predictions across 12 tasks.
  • Individual subject-level accuracy was maintained with new data, comparable to observed data.
  • DT predictions could reduce data collection burden by over 50% in qCSF testing.
  • DT predictions showed potential as informative priors for generating synthetic or rescoring existing qCSF data.

Conclusions:

  • Digital twins show significant potential for enhancing vision assessment accuracy, precision, and efficiency.
  • DTs can reduce the data collection burden in quantitative CSF testing.
  • This approach supports personalized medicine by enabling more efficient and effective patient care solutions.