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hemorrhage-detection

This repository contains our implementation and training of a combined recurrent-convolutional DNN for intracranial hemorrhage (bleeding inside the brain) detection on CT scans.

model

The architecture that we have developed vastly outperforms the standard convolution-only approach: Our model achieves a recall (that is, it correctly detects bleeding) of 94% compared to a recall of 73% when only using a CNN.

The bidirectional recurrent neural network enables our model to incorporate information from CT slices of the brain above and below the current slice when predicting whether the current slice contains a hemorrhage or not. Of course, surrounding slices containing hemorrhages make it more likely for the current slice to also contain one (especially when the slices right above and right below show bleeding).

This work is a collaboration of Richard Qiu, Philippe Noël, Jonathan Berman, and Jorma Görns.

Contents

  • "EDA and Data Preprocessing.ipynb": DESCRIPTION

  • "Windowing PNGs.ipynb": When examining brain CT scans, radiologists rarely look at the raw images (they appear mostly gray to the human eye). Instead, they use so-called "windows"---simple transformations of the raw data that serve to highlight structures of different density in the human brain. The three most common windows for hemorrhage detection are the bone, brain, and subdural window. These are also the three windows that we apply to help our model detect hemorrhages. Specifically, we read in black-and-white, one-channel PNGs and turn them into RGB, three-channel PNGs where each channel contains one specific window.

  • "MISSING NAME.ipynb": DESCRIPTION

  • "Training the CNN.ipynb": Details the training of our feature extractor (specifically, a VGG19 CNN that we train to detect hemorrhages using transfer learning)

  • "Training the R-CNN.ipynb": Details the training of our final model, an LSTM using features extracted by the CNN

  • Finally, the docs folder also contains a verbal report of this project.