Apr 27, 2022
New professor at the EKFZ for Digital Health at TU Dresden uses artificial intelligence for decision making in medicine
Jakob Nikolas Kather fills new professorship for "Clinical Artificial Intelligence" at the EKFZ for Digital Health. His team strengthens Dresden University Medicine with AI research in clinical practice. The focus of the research is for example on improved diagnosis and treatment approaches for cancer.
The internist and scientist Jakob Nikolas Kather will fill the new Else Kröner Professorship for "Clinical Artificial Intelligence" at the EKFZ for Digital Health at TU Dresden from June 1, 2022. With his expertise and his team the award-winning physician from Aachen strengthens the research on artificial intelligence (AI) in clinical practice at the University Medical Center Dresden. To ensure a direct link to everyday medical practice, Prof. Kather will work in Medical Clinic I at Dresden's University Hospital, where he will care for patients. With the new professorship, one of the main concerns of the EKFZ for Digital Health will be implemented - research that goes beyond the medical disciplines as well as collaboration in everyday care: physicians learn programming and researchers from computer science or technical subjects learn in return to identify and solve relevant clinical problems.
"The Else Kröner Fresenius Center for Digital Health is a unique institution in Germany. Here, the interaction between high-tech and medicine is institutionalized and professionalized in interdisciplinary research teams. My team and I want to contribute to making TU Dresden a leading location for AI in medicine," says Prof. Kather about his upcoming move. His research focuses on the application of artificial intelligence in cancer in clinical practice. With his Computational Oncology research group, he bridges the gap between different specialties. Physicians learn programming, while researchers with informatics or engineering backgrounds learn to identify and solve relevant clinical problems. The aim is to further develop the evaluation and interpretation of complex image data and thus improve diagnostic and treatment approaches, for example in tumor diseases such as colorectal cancer or gastric cancer, but also in inflammatory diseases or in transplantation medicine. An important partner will be the National Center for Tumor Diseases (NCT/UCC), which is also located on the campus of the University Hospital. At the NCT, research into cancer diseases and the care of tumor patients is linked as closely as possible. In his previous position at the University Hospital of RTWH Aachen, Prof. Kather was already able to show that it is possible to derive medical recommendations for action from routinely available data by means of "Deep Learning".
The background to the interdisciplinary collaboration envisaged at Dresden University Medical Center is to move quickly from idea to prototype and, with the help of artificial intelligence, to improve the diagnosis and treatment of cancer. "Thanks to the comprehensive support of the Else Kröner-Fresenius-Foundation and the professorship it finances, the Faculty of Medicine and the University Hospital can set standards in patient-oriented research on digital medicine," says Prof. Michael Albrecht, Medical Director of Dresden University Hospital. "Prof. Kather and his team form another important pillar for the first truly integrated eHealth campus on the premises of a German university hospital. With the practical relevance and patient focus practiced here by all players, the conditions are in place for playing a decisive role in shaping the future of medicine."
Evaluating clinical data with artificial intelligence
In the clinical care of patients, a huge amount of data is generated that is currently only partially used for clinical decision-making. In particular, image data such as pathological or radiological images contain a great deal of information, but other types of data such as text or laboratory values are also not currently used in their entirety. Artificial intelligence can detect subtle patterns in these data and therefore make them usable. This can help physicians derive more information from available data, which can be used to make better clinical decisions. On the one hand, this concerns the diagnosis of diseases, but also the classification into subtypes or disease stages as well as the prediction of disease progression. One example is tumor diseases, whose treatment has become increasingly complex in recent years. "It is important that the various steps are optimally interlinked: The identification of clinically relevant problems, the development of new AI methods, and the ultimate clinical testing and development of a medical product. This only works in an interdisciplinary environment with short paths and a common vision," says Prof. Kather.
Interdisciplinary education and collaboration
It is precisely this interdisciplinary work that is essential for the digital transformation in medicine. "With Prof. Jakob Kather, we were able to attract an outstanding scientist to TU Dresden who, together with his team, lives what TU Dresden stands for: Interdisciplinarity. Medicine combined with artificial intelligence is a forward-looking field of science that we are also addressing in the new Biomedical Engineering and Medical Informatics degree programs," said Rector Prof. Ursula M. Staudinger. "With his research, Prof. Kather has achieved outstanding scientific recognition. With his expertise and his team, he is a great gain for the EKFZ and the University Hospital," says Prof. Jochen Hampe, scientific spokesperson of the EKFZ for Digital Health as well as director of the Medical Clinic I of the University Hospital Dresden.
Over the next few years, a team of young and creative minds is to be built up on the university medicine campus and trained in an interdisciplinary manner. "My team and I would like to contribute to the EKFZ for Digital Health and the University Hospital Dresden becoming Germany's leading center for artificial intelligence in clinical practice. The whole spectrum of clinical expertise is to be covered: the development of prototypes, clinical validation and regulatory aspects. The Clinical AI department is involved in the entire spectrum," concludes Prof. Kather.
Additional information
Biography: Prof. Dr. med. Jakob Nikolas Kather occupies the newly created Else Kröner Professorship for Clinical Artificial Intelligence at the EKFZ for Digital Health at the TU Dresden. He is a specialist in internal medicine and interdisciplinary scientist, with two university degrees in Medicine and in Medical Physics (MSc). He has been working at the Uniklinik Aachen since 2018 and is a Jun.-Prof. at RWTH Aachen University since 2021. There he leads the research group "Computational Oncology", which develops AI methods for clinical use. He has already received several awards for his outstanding research achievements, including the Heinz Maier-Leibnitz Prize from the German Research Foundation (DFG) and the German Federal Ministry of Education and Research (BMBF) in 2021. In addition, the German Cancer Aid supports his research work. His recent publications are listed at Pubmed and elsewhere.
EKFZ for Digital Health: The Else Kröner Fresenius Center for Digital Health at TU Dresden was founded in September 2019. It is funded by the Else Kröner-Fresenius Foundation with a grant of 40 million euros for a term of ten years. The center focuses its research activities on innovative, medical and digital technologies at the direct interface with patients. The goal here is to foster a new generation of physicians with comprehensive technical knowledge and skills and, conversely, to equip engineers with a comprehensive understanding of the needs of medical professionals and patients. Since March 2022, Prof. Gilbert has been conducting research at the EKFZ on how innovative medical devices can reach patient care faster. We are currently looking for research assistants (m/f/d) for the professorships Clinical AI and Regulatory Science.
Else Kröner-Fresenius-Foundation (EKFS) - Supporting research. Helping people: The non-profit Else Kröner-Fresenius-Foundation is dedicated to promoting medical research and supporting medical-humanitarian projects. To date, it has funded around 2,200 projects. With an annual funding volume of currently more than 60 million euros, it is Germany's largest foundation supporting medicine.
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