Add to ORKGOver the past years, computer assisted drug repurposing methods have started to gain more attention as they offer a faster and a more effective way to treat many diseases. While these methods are quite promising in terms of power of prediction, the hesitation regarding the use of these methods in practice still remains due to their highly complex working mechanisms, which limits their interpretability. Explainable Artificial Intelligence (XAI), which takes transparency, interpretability, informativeness as its main foundations, could address the limitations of the black-box models. In this context, Knowledge Graphs (KGs) could leverage the explanations provided to the user in the biomedical domain, as they are capable of represent relations...
This paper provides an extensive overview of the use of knowledge graphs in the context of Explainab...
Background Knowledge is often produced from data generated in scientific investigations. An ever-gro...
Artificial intelligence (AI) is having a growing impact in many areas related to drug discovery. How...
Over the past years, computer assisted drug repurposing methods have started to gain more attention ...
Drug repurposing is more relevant than ever due to drug development's rising costs and the need to r...
An emerging challenge in high stakes fields such as healthcare is to build a more transparent artifi...
To date, there are no effective treatments for most neurodegenerative diseases. Knowledge graphs can...
National audienceAdverse drug reactions (ADRs) are statistically characterized within randomized cli...
We introduce a methodology to efficiently exploit natural-language expressed biomedical knowledge fo...
We introduce a methodology to efficiently exploit natural-language expressed biomedical knowledge fo...
For Artificial Intelligence to have a greater impact in biology and medicine, it is crucial that rec...
Drug repositioning holds great promise because it can reduce the time and cost of new drug developme...
<div><p>We introduce a methodology to efficiently exploit natural-language expressed biomedical know...
This paper provides an extensive overview of the use of knowledge graphs in the context of Explainab...
Background Knowledge is often produced from data generated in scientific investigations. An ever-gro...
Artificial intelligence (AI) is having a growing impact in many areas related to drug discovery. How...
Over the past years, computer assisted drug repurposing methods have started to gain more attention ...
Drug repurposing is more relevant than ever due to drug development's rising costs and the need to r...
An emerging challenge in high stakes fields such as healthcare is to build a more transparent artifi...
To date, there are no effective treatments for most neurodegenerative diseases. Knowledge graphs can...
National audienceAdverse drug reactions (ADRs) are statistically characterized within randomized cli...
We introduce a methodology to efficiently exploit natural-language expressed biomedical knowledge fo...
We introduce a methodology to efficiently exploit natural-language expressed biomedical knowledge fo...
For Artificial Intelligence to have a greater impact in biology and medicine, it is crucial that rec...
Drug repositioning holds great promise because it can reduce the time and cost of new drug developme...
<div><p>We introduce a methodology to efficiently exploit natural-language expressed biomedical know...
This paper provides an extensive overview of the use of knowledge graphs in the context of Explainab...
Background Knowledge is often produced from data generated in scientific investigations. An ever-gro...
Artificial intelligence (AI) is having a growing impact in many areas related to drug discovery. How...