Faculty Collaboration Database

Radiation oncology physicists will need to better understand medical imaging. J Am Coll Radiol 2007 Jan;4(1):40-4

Date

04/07/2007

Pubmed ID

17412223

DOI

10.1016/j.jacr.2006.06.004

Scopus ID

2-s2.0-33845808739 (requires institutional sign-in at Scopus site)   4 Citations

Abstract

Imaging is affecting radiation oncology at a dramatically advancing pace and scale and is likely to create a transformation to individualized, biologically conformal radiation therapy. Deploying and improving imaging technologies and ensuring their correct uses in treatment planning and delivery are the responsibilities of radiation oncology physicists. The potential magnitude of errors arising from the incorrect use of imaging may be far greater than that resulting from typical errors in dose calibration. A major effort is required for radiation oncology physicists to raise the quality assurance of image guidance to a level comparable with that achieved in the maintenance of dosimetric performance. Most radiation oncology physicists lack adequate knowledge to assume this emerging responsibility. Their knowledge of imaging must be enhanced, in most cases through on-the-job training and self-learning. Effective learning strategies include routine interactions with diagnostic radiology and nuclear medicine physicists and physicians and the use of educational opportunities provided by professional organizations and vendors.

Author List

Li XA, Hendee WR

MESH terms used to index this publication - Major topics in bold

Diagnostic Imaging
Health Physics
Humans
Interprofessional Relations
Needs Assessment
Professional Competence
Radiation Oncology
Total Quality Management
United States