APPLICATIONS OF PRECISION MEDICINERamanan, ChitraBagesar, Manoj M.Advances in Pharmacology & Toxicology
the identification of key genes and signal pathways related to life activities and diseases is sustaining the rapid development of life science, agriculture, and medicine. In this paper, the concept and development
Scheme of Single-Cell Analysis in Precision Medicine for Atherosclerosis. The combination of single-cell analysis, CRISPR/Cas9 gene editing, three-dimensional cell (3D cell) analysis and artificial intelligence (AI) enables in-depth exploration of tissue heterogeneity in atherosclerosis plaques, blood, ...
In this review, we describe such organoid technologies and their deployment in drug development and precision medicine efforts. Organoid technologies are rapidly being developed for these applications and now represent a wide variety of tissue types and diseases. Evidence is emerging that organoids are...
The increasing use of biomarkers in cancer have led to the concept of personalized medicine for patients. Personalized medicine provides better diagnosis a... V Parekh,MA Jacobs - 《Expert Review of Precision Medicine & Drug Development》 被引量: 29发表: 2016年 Precision Medicine and Radiogenomics...
The term biomarker in medicine most often stands for a protein measured in the circulation (blood) whose concentration indicates a normal or a pathological... Majki?-Singh,Nada - 《Journal of Medical Biochemistry》 被引量: 106发表: 2011年 Towards Precision Medicine in the Clinic: From Biomarker...
Potential applications of organoid models in precision medicine. As a versatile in vitro model, organoids can cover many applications from disease modeling to clinical trials and achieve the purpose of precise and personalized treatment. The scope of organoid research includes (1) Disease modeling. (...
It now has promising applications in clinical and translational medicine. fMRI can assess changes in relative blood oxygenation accompanying increased blood flow in regions of the brain that are active while a task (for example, hand movement) is performed. The most well-established clinical ...
Artificial Intelligence (AI) is revolutionizing many aspects of human activities thanks to recent advances in technology and boost to computing power, and the availability of data on which AI models depend for training. Over the last few years, the potential of AI in Medicine has become clear wi...
computing for wearable medical devices Virtual tele-rehabilitation Biometric analysis (gait analysis, eye-tracking, falls, mHealth) Signal processing for virus early detection Bioinformatics AI for precision medicine AI-driven drug discovery and development processes Federated learning for privacy-preserving ...