Radiation therapy and clinical physics practices in the midwest (1982-1986).

As a part of an on-site physics review procedure, the Midwest Center for Radiological Physics (MWCRP) interviewed midwest clinical radiotherapy physicists and radiation therapists in institutions that participated in federally funded Cancer Control Programs. Information from 77 institutions was compiled regarding types of megavoltage units, daily patient load, radiotherapy personnel, treatment planning responsibilities, dosimetric practices, and treatment planning computers. Even though some practices, such as frequency of patient charge checks, were consistent throughout the midwest, other practices varied considerably such as patient load with the number of megavoltage units. This information may be useful either for planning a new facility, considering the needs for staff, or for comparing existing practices and responsibilities.

Calibration and use of the Wisconsin kVp test cassette.

The Ardran-Crooks kVp test cassette is widely used in diagnostic radiology to provide a rapid, simple, noninvasive measurement of x-ray tube potential. A modified version of this cassette called the Wisconsin kVp Test Cassette was introduced commercially in the U. S. in 1972. Since then, the method of calibration of these cassettes has changed significantly. Wisconsin kVp Test Cassettes calibrated by the manufacturer prior to August 1982 may yield underestimates of kVp measurements, particularly when using the 90-110 and 110-130 kVp regions with single-phase units. In August 1982 significant improvements in the calibration methods were implemented. The resultant change in calibration is demonstrated by data from the Centers for Radiological Physics. Present calibration methods are believed to be accurate within the greater of +/- 2 kVp or 2% of actual peak tube potential. Proper use of the cassette is necessary to achieve this level of accuracy.

The use of Teflon-embedded calcium sulphate: dysprosium thermoluminescent dosimeters for chest radiography.

As part of a U.S. multi-regional pilot study conducted by the six Centers for Radiological Physics, 12-mm-diameter by 0.4-mm-thick CaSO4:Dy Teflon-embedded discs were evaluated and used to measure patient entrance exposure on 60 "average" patients at 12 clinical centers. The discs were found to have adequate sensitivity, reproducibility and linearity up to 69.7 microC kg-1 (270 mR). The minimum measurable exposure was estimated as 0.4 microC kg-1 (1.5 mR). All responses were corrected for energy dependence, which varied +/- 20% from 1.7 to 6.5 mm Al half-value layer. Patient entrance exposure values ranged from 1.3 to 28 microC kg-1 (5 to 110 mR), with a median value of 5.2 microC kg-1 (20 mR). This value agreed with exposure measurements made on the chest radiography equipment using an ionization chamber and a phantom which simulated an "average" patient, and with published Nationwide Evaluation of X-Ray Trends (NEXT) data for the same period.