Background <p>Optimal contrast agent dosing in computed tomography (CT) depends on accurate patient weight, yet manual measurements increase workload and self-reporting can introduce bias. We developed and tested a deep-learning-based algorithm to automate the approximation of contrast agent dosage directly from CT scout images.</p> Methods <p>We retrospectively analyzed 817 patients undergoing thorax/abdomen CT. Prior to examination, patient weight was collected via manual scale measurements and self-reporting. We developed an EfficientNet convolutional neural network pipeline to estimate weight from scout images and used in-context learning and dataset distillation to analyze body-weight-informative CT features. The model was used in a browser-based user interface to provide dosing estimates for various contrast agent compounds.</p> Results <p>Self-reported patient weights were statistically significantly lower than manual scale measurements (75.13 kg vs. 77.06 kg; <i>p</i> &lt; 10<sup>− 5</sup>, Wilcoxon signed-rank test). In 5-fold cross-validation, the pipeline predicted patient weight with a mean absolute error (MAE) of 3.90 ± 0.20 kg. This error corresponds to a difference of roughly 4.48–11.70 ml of contrast agent, depending on the specific agent. Interpretability analysis confirmed that both larger anatomical shape and higher overall attenuation were the predictive features of body weight.</p> Conclusions <p>This open-source deep learning pipeline enables automatic, accurate contrast agent dosing in routine CT workflows. The approach has the potential to improve patient safety and clinical efficiency by providing accurate weight estimates without requiring additional measurements or relying on potentially outdated records. Further validation on larger cohorts and across different clinical centers is required.</p>

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Automated scout-image-based estimation of contrast agent dosing: a deep learning approach

  • Robin Tibor Schirrmeister,
  • Laetitia Taleb,
  • Paul Friemel,
  • Marco Reisert,
  • Fabian Bamberg,
  • Jakob Weiß,
  • Alexander Rau

摘要

Background

Optimal contrast agent dosing in computed tomography (CT) depends on accurate patient weight, yet manual measurements increase workload and self-reporting can introduce bias. We developed and tested a deep-learning-based algorithm to automate the approximation of contrast agent dosage directly from CT scout images.

Methods

We retrospectively analyzed 817 patients undergoing thorax/abdomen CT. Prior to examination, patient weight was collected via manual scale measurements and self-reporting. We developed an EfficientNet convolutional neural network pipeline to estimate weight from scout images and used in-context learning and dataset distillation to analyze body-weight-informative CT features. The model was used in a browser-based user interface to provide dosing estimates for various contrast agent compounds.

Results

Self-reported patient weights were statistically significantly lower than manual scale measurements (75.13 kg vs. 77.06 kg; p < 10− 5, Wilcoxon signed-rank test). In 5-fold cross-validation, the pipeline predicted patient weight with a mean absolute error (MAE) of 3.90 ± 0.20 kg. This error corresponds to a difference of roughly 4.48–11.70 ml of contrast agent, depending on the specific agent. Interpretability analysis confirmed that both larger anatomical shape and higher overall attenuation were the predictive features of body weight.

Conclusions

This open-source deep learning pipeline enables automatic, accurate contrast agent dosing in routine CT workflows. The approach has the potential to improve patient safety and clinical efficiency by providing accurate weight estimates without requiring additional measurements or relying on potentially outdated records. Further validation on larger cohorts and across different clinical centers is required.