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Explaining Graph Convolutional Neural Networks: Patient-Specific Subnetworks and Biomarker Discovery in Cancer

Veranstaltungsdetails
Datum: 24.07.2025, 16:00 Uhr - 17:30 Uhr 
Ort: Geb?ude N, Raum 2045, Universit?tsstra?e 6a, 86159 Augsburg
Veranstalter: Prof. Frank Kramer
Themenbereiche: Studium, Wissenschaftliche Weiterbildung, Informatik, Gesundheit und 伟德国际_伟德国际1946$娱乐app游戏izin
Veranstaltungsreihe: 伟德国际_伟德国际1946$娱乐app游戏ical Information Sciences
Veranstaltungsart: Vortragsreihe
Vortragende: Dr. Hryhorii Chereda
BIOINF ASFDASDF DSFASF ASDF ASDF ? Universit?t Augsburg

In diesem Semester wird die im WiSe 2022/23 erfolgreich gestartete Vortragsreihe 伟德国际_伟德国际1946$娱乐app游戏ical Information Sciences fortgesetzt. Renommierte Wissenschaftlerinnen und Wissenschaftler unterschiedlicher Fachdisziplinen und Forschungsstandorte geben jeden Donnerstag ab 16:00 Uhr Einblicke in aktuelle Fragestellungen und Anwendungsgebiete des breiten Forschungsfeldes 伟德国际_伟德国际1946$娱乐app游戏ical Information Sciences.


High-throughput technologies are becoming increasingly important in discovering prognostic biomarkers and in identifying novel drug targets. With various prognostic molecular signatures, cancer serves as a paradigmatic example of the utility of high-throughput data in identifying prognostic biomarkers, often distilled into relatively short gene lists. Such gene lists can be obtained as a set of features (genes) that are important for the decisions of a Machine Learning (ML) method applied to high-dimensional gene expression data. This high-dimensional data can be structured by graphs, which are very common in the biomedical domain. For instance, a patient can be represented by a protein-protein interaction (PPI) network where the nodes contain the patient-specific omics features. Graph Neural Networks (GNNs) can classify these graph-based representations.?

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?Explanation methods applied to GNNs produce explanations of individual predictions that can be utilized to construct patient-specific subnetworks. When ag
gregated across patients, these explanations enable model-wide feature selection. In this talk, I will discuss both aspects and present a methodology to: (i) derive patient-specific subnetworks that are potentially valuable for precision medicine approaches, and (ii) systematically and quantitatively analyze the stability, impact on classification performance, and biological interpretability of the model-wide selected feature sets. Finally, I will present our Ensemble-GNN approach for classifying graph-structured data, which can be used to deploy federated, ensemble-based GNNs in Python.

Weitere Veranstaltungen der Veranstaltungsreihe "伟德国际_伟德国际1946$娱乐app游戏ical Information Sciences"

Weitere Veranstaltungen: Institut für Informatik


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