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TU-FG-209-07: Medical Physics 1.0 Versus Medical Physics 2.0: A Case Study.

Publication ,  Conference
Carver, D; Willis, C; Stauduhar, P; Nishino, T; Wells, J; Samei, E
Published in: Med Phys
June 2016

PURPOSE: To illustrate how performance analytics can identify performance decrement in digital radiography systems. METHODS: Subsequent to a radiologist's image quality complaint, four different advanced methods contributed to root cause analysis. Our system was a GE Revolution XQi digital radiography unit. Initially, we reviewed weekly GE Quality Assurance Procedures (QAP) results in a database dating from 2001. Next, we evaluated objective image quality metrics of individual PA Chest radiographs acquired. These images were anonymized, securely transferred, and analyzed by the Duke University Clinical Imaging Physics Group with software previously described(1) and validated(2) . Third, we compared the exposure-dependent SNR(2) (NEQ) of the unit with previously established confidence limits(3) . Finally, we explored our service database to reveal events that might affect detector performance. RESULTS: QAP reported a decrease in CNR reflected in a significant increase in lung noise(Ln), mediastinum noise(Mn), and subdiaphragm-lung contrast(Slc) with a significant decrease in lung grey level(Lgl) after detector replacement. Most change occurred during week 1, before the QAP indicated one-half the ultimate decrease in CNR. After detector recalibration, QAP CNR improved, but was not restored to previous levels. Lgl and Slc were no longer significantly different from before, however Ln and Mn remained significantly different. Exposure-dependent SNR2 show the detector to be operating within limits in October 2006 but subsequently became miscalibrated sometime before acquisition of the 2011-2014 data. Service records revealed catastrophic failure of the Image Detection Controller that contained the 2007 calibration. Traditional metrics did not indicate that the system was performing outside of normal limits. CONCLUSION: Performance analytics are powerful tools whose proper application could allow early intervention in degraded system performance. The image-quality metrics appear to be highly sensitive to system performance and are reported with every acquisition rather than at arbitrary intervals. Confidence intervals may require customization for individual systems or detectors.

Duke Scholars

Published In

Med Phys

DOI

EISSN

2473-4209

Publication Date

June 2016

Volume

43

Issue

6

Start / End Page

3762

Location

United States

Related Subject Headings

  • Nuclear Medicine & Medical Imaging
  • 5105 Medical and biological physics
  • 4003 Biomedical engineering
  • 1112 Oncology and Carcinogenesis
  • 0903 Biomedical Engineering
  • 0299 Other Physical Sciences
 

Citation

APA
Chicago
ICMJE
MLA
NLM
Carver, D., Willis, C., Stauduhar, P., Nishino, T., Wells, J., & Samei, E. (2016). TU-FG-209-07: Medical Physics 1.0 Versus Medical Physics 2.0: A Case Study. In Med Phys (Vol. 43, p. 3762). United States. https://doi.org/10.1118/1.4957577
Carver, D., C. Willis, P. Stauduhar, T. Nishino, J. Wells, and E. Samei. “TU-FG-209-07: Medical Physics 1.0 Versus Medical Physics 2.0: A Case Study.” In Med Phys, 43:3762, 2016. https://doi.org/10.1118/1.4957577.
Carver D, Willis C, Stauduhar P, Nishino T, Wells J, Samei E. TU-FG-209-07: Medical Physics 1.0 Versus Medical Physics 2.0: A Case Study. In: Med Phys. 2016. p. 3762.
Carver, D., et al. “TU-FG-209-07: Medical Physics 1.0 Versus Medical Physics 2.0: A Case Study.Med Phys, vol. 43, no. 6, 2016, p. 3762. Pubmed, doi:10.1118/1.4957577.
Carver D, Willis C, Stauduhar P, Nishino T, Wells J, Samei E. TU-FG-209-07: Medical Physics 1.0 Versus Medical Physics 2.0: A Case Study. Med Phys. 2016. p. 3762.

Published In

Med Phys

DOI

EISSN

2473-4209

Publication Date

June 2016

Volume

43

Issue

6

Start / End Page

3762

Location

United States

Related Subject Headings

  • Nuclear Medicine & Medical Imaging
  • 5105 Medical and biological physics
  • 4003 Biomedical engineering
  • 1112 Oncology and Carcinogenesis
  • 0903 Biomedical Engineering
  • 0299 Other Physical Sciences