C. Heinz scite author profile

C. Heinz

4Publications

15Citation Statements Received

26Citation Statements Given

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RWTH Aachen University, Westfälische Hochschule, FH Aachen

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The future of artificial intelligence in digital pathology – results of a survey across stakeholder groups

et al. 2022

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Aims Artificial intelligence (AI) provides a powerful tool to extract information from digitised histopathology whole slide images. During the last 5 years, academic and commercial actors have developed new technical solutions for a diverse set of tasks, including tissue segmentation, cell detection, mutation prediction, prognostication and prediction of treatment response. In the light of limited overall resources, it is presently unclear for researchers, practitioners and policymakers which of these topics are stable enough for clinical use in the near future and which topics are still experimental, but worth investing time and effort into. Methods and results To identify potentially promising applications of AI in pathology, we performed an anonymous online survey of 75 computational pathology domain experts from academia and industry. Participants enrolled in 2021 were queried about their subjective opinion on promising and appealing subfields of computational pathology with a focus upon solid tumours. The results of this survey indicate that the prediction of treatment response directly from routine pathology slides is regarded as the most promising future application. This item was ranked highest in the overall analysis and in subgroups by age and professional background. Furthermore, prediction of genetic alterations, gene expression and survival directly from routine pathology images scored consistently high throughout subgroups. Conclusions Together, these data demonstrate a possible direction for the development of computational pathology systems in clinical, academic and industrial research in the near future.

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Motorrechnung im X₁₊₃₊₃

Heinz

1987

Z Angew Math Mech

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Das Hamiltonsche Prinzip f�r reibende und w�rmeleitende Gase

Heinz

1968

Acta Mechanica

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Reflexion ebener Druckwellen an einer festen Wand

Heinz¹

1957

Z Angew Math Mech

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Es wird ein einfaches Verfahren angegeben, um die Reflexion einer aus einem Verdichtungsstoß und einer nachfolgenden Verdünnungswelle bestehenden ebenen Druckwelle an einer festen Wand zu berechnen. Hierbei werden die von Hadamard angegebenen Lösungen der Darbouxschen Gleichung, die bei dem hier behandelten Problem als Potentialgleichung in der Geschwindigkeitsebene auftritt, in iterativer Form zur gleichzeitigen Bestimmung des Stoßes und des Strömungsfeldes zwischen dem Stoß und der Wand benutzt. Auch die inverse Aufgabe, bei der der Druck an der Wand gegeben und daraus die ankommende Welle zu berechnen ist, wird behandelt. Ala Beispiel wird die Reflexion einiger Wellen durchgerechnet. Ein Vergleich mit dem Ergebnis der wesentlich umständlicheren Charakteristikentheorie ergibt keinen merklichen Unterschied.

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C. Heinz

The future of artificial intelligence in digital pathology – results of a survey across stakeholder groups

Motorrechnung im X₁₊₃₊₃

Das Hamiltonsche Prinzip f�r reibende und w�rmeleitende Gase

Reflexion ebener Druckwellen an einer festen Wand

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C. Heinz

The future of artificial intelligence in digital pathology – results of a survey across stakeholder groups

Motorrechnung im X1+3+3

Das Hamiltonsche Prinzip f�r reibende und w�rmeleitende Gase

Reflexion ebener Druckwellen an einer festen Wand

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Motorrechnung im X₁₊₃₊₃