1 / 17

What is “Biomedical Informatics”?

What is “Biomedical Informatics”?. Biomedical Informatics.

mhofmann
Download Presentation

What is “Biomedical Informatics”?

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. What is “Biomedical Informatics”?

  2. Biomedical Informatics Biomedical informatics (BMI) is the interdisciplinary field that studies and pursues the effective uses of biomedical data, information, and knowledge for scientific inquiry, problem solving, and decision making, motivated by efforts to improve human health.

  3. Biomedical Informatics:Corollaries to the Definition • BMI develops, studies and applies theories, methods and processes for the generation, storage, retrieval, use, and sharing of biomedical data, information, and knowledge. • BMI builds on computing, communication and information sciences and technologies and their application in biomedicine.

  4. Biomedical Informatics:Corollaries to the Definition • BMI investigates and supports reasoning, modeling, simulation, experimentation and translation across the spectrum from molecules to populations, dealing with a variety of biological systems, bridging basic and clinical research and practice, and the healthcare enterprise. • BMI, recognizing that people are the ultimate users of biomedical information, draws upon the social and behavioral sciences to inform the design and evaluation of technical solutions and the evolution of complex economic, ethical, social, educational, and organizational systems.

  5. Biomedical Informatics in Perspective Imaging Informatics Clinical Informatics Public Health Informatics Bioinformatics Applied Research And Practice Biomedical Informatics Methods, Techniques, and Theories Basic Research Biomedical Informatics ≠ Bioinformatics

  6. Computer Science (software) Computer Science (hardware) Cognitive Science & Decision Making Bioengineering Epidemiology And Statistics Management Sciences Clinical Sciences Basic Biomedical Sciences Interdisciplinary Nature ofBiomedical Informatics Biomedical Informatics

  7. Biomedical Informatics Textbook (4th edition) Springer Verlag - 2013

  8. Biomedical Informatics in Perspective Applied Research And Practice Molecular and Cellular Processes Tissues and Organs Individuals (Patients) Populations And Society Biomedical Informatics Methods, Techniques, and Theories Basic Research Biomedical Informatics ≠ Health Informatics Health Informatics Imaging Informatics Clinical Informatics Public Health Informatics Bioinformatics

  9. Biomolecular Imaging Biomedical Informatics in Perspective Biomedical Informatics Methods, Techniques, and Theories Basic Research Consumer Health Pharmaco-genomics Imaging Informatics Clinical Informatics Public Health Informatics Bioinformatics Applied Research And Practice Continuum with “Fuzzy” Boundaries Molecular and Cellular Processes Tissues and Organs Individuals (Patients) Populations And Society

  10. Biomedical Informatics in Perspective Biomedical Informatics Methods, Techniques, and Theories Basic Research Clinical Translational Science Imaging Informatics Clinical Informatics Public Health Informatics Bioinformatics Applied Research And Practice Continuum with “Fuzzy” Boundaries Molecular and Cellular Processes Tissues and Organs Individuals (Patients) Populations And Society

  11. Contribute to... Computer Science Draw upon…. Contributes to…. Clinical or Biomedical Domain of Interest Draws upon…. Biomedical Informatics in Perspective Biomedical Informatics Methods, Techniques, and Theories Other Component Sciences Management Sciences Information Sciences Decision Science Cognitive Science Applied Informatics

  12. Education and Experience at Both Levels Contributions Expected Imaging Informatics Clinical Informatics Public Health Informatics Bioinformatics Applied Research Education of BiomedicalInformatics Researchers Biomedical Informatics Methods, Techniques, and Theories Basic Research

  13. Biomedical and Clinical Research Electronic Health Records Regional and National Public Health and Disease Registries Providers Caring for Patients Standards for Prevention and Treatment Information, Decision-Support, and Order-Entry Systems Creation of Protocols, Guidelines, and Educational Materials An Envisioned Cycle That Ties Patient Care with Knowledge Creation and Dissemination A “Learning Healthcare System”

  14. BMI Clinical Systems Companies Biomedical Informatics Training, Research and Development Hospitals, Health Systems, Practices, Healthcare Industry • Academia • Research Institutes • Corporate Research Labs Academic Medical Centers Biomedical Research Community HIT BMI and HIT PEOPLE IDEAS METHODS SOFTWARE

  15. BMI Clinical Systems Companies Biomedical Informatics Training, Research and Development Hospitals, Health Systems, Practices, Healthcare Industry • Academia • Research Institutes • Corporate Research Labs Academic Medical Centers HIT BMI and HIT Synergies

  16. BMI HIT BMI and HIT

  17. AMIA:The Professional Home for Biomedical and Health Informatics

More Related