Automated detection of primary soft tissue sarcomas of the extremities using artificial intelligence and ChatGPT
Hendrik Voigtländer, Fabian Schmitz, Dimitrios Strauss, Hans-Ulrich Kauczor, Sebastian Voigtländer, Svea Sauerwein, Sam Sedaghat

TL;DR
This study shows how AI and ChatGPT can simplify and improve the detection of soft tissue sarcomas in MRI scans, reducing the need for IT expertise.
Contribution
The novel use of ChatGPT to streamline CNN adaptation for sarcoma detection, reducing reliance on specialized IT skills.
Findings
The adapted CNN model achieved up to 98.5% accuracy in MRI sequence analysis.
Test set accuracy reached 93.9% in identifying tumor presence in MR images.
Grad-CAM heat maps improved interpretability of AI diagnostic outputs.
Abstract
Developing effective Convolutional Neural Networks (CNN) for soft tissue sarcoma detection often requires numerous iterations and adjustments, demanding specialized IT (Information Technology) skills. This study aims to use ChatGPT 4 to simplify CNN adaptation, reducing the need for specialized IT skills while enabling efficient exploration of training configurations to enhance diagnostic accuracy. This study leveraged a preexisting Artificial Intelligence (AI) model adapted using a preexisting Convolutional Neural Network (CNN). The study involved 54 participants diagnosed with primary soft tissue sarcomas in the extremities and possessing complete Magnetic Resonance Imaging (MRI) datasets. AI adaptations and programming were conducted using TensorFlow and verified with ChatGPT. Model training involved a dataset split of 70% training, 15% validation and 15% test set on patient level…
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Taxonomy
TopicsSarcoma Diagnosis and Treatment · Artificial Intelligence in Healthcare and Education · Brain Tumor Detection and Classification
