D Douglas Miller1,2, Eric W Brown3. 1. 1 Department of Medicine, Medical College of Georgia at Augusta University, 1120 15th St, Office BBR-6518, Augusta, GA 30912. 2. 2 Department of Radiology, Medical College of Georgia at Augusta University, Augusta, GA. 3. 3 Foundational Innovations, IBM Watson Health, Yorktown Heights, NY.
Abstract
OBJECTIVE: Artificial intelligence (AI) neural networks rapidly convert disparate facts and data into highly predictive analytic models. Machine learning maps image-patient phenotype correlations opaque to standard statistics. Deep learning performs accurate image-derived tissue characterization and can generate virtual CT images from MRI datasets. Natural language processing reads medical literature and efficiently reconfigures years of PACS and electronic medical record information. CONCLUSION: AI logistics solve radiology informatics workflow pain points. Imaging professionals and companies will drive health care AI technology insertion. Data science and computer science will jointly potentiate the impact of AI applications for medical imaging.
OBJECTIVE: Artificial intelligence (AI) neural networks rapidly convert disparate facts and data into highly predictive analytic models. Machine learning maps image-patient phenotype correlations opaque to standard statistics. Deep learning performs accurate image-derived tissue characterization and can generate virtual CT images from MRI datasets. Natural language processing reads medical literature and efficiently reconfigures years of PACS and electronic medical record information. CONCLUSION: AI logistics solve radiology informatics workflow pain points. Imaging professionals and companies will drive health care AI technology insertion. Data science and computer science will jointly potentiate the impact of AI applications for medical imaging.
Entities:
Keywords:
artificial intelligence; deep learning; machine learning; natural language processing; technology insertion
Authors: Kevin B Johnson; Wei-Qi Wei; Dilhan Weeraratne; Mark E Frisse; Karl Misulis; Kyu Rhee; Juan Zhao; Jane L Snowdon Journal: Clin Transl Sci Date: 2020-10-12 Impact factor: 4.689