A method of producing CaSO4:Dy thermoluminescent mini-dosimeters was reported in 1986 by B W Wessels for determination of the in vivo absorbed dose in radioimmunotherapy, a field in which absorbed dose gradients are important. These dosimeters, which undergo dissolution when used in a liquid environment, showed a sensitivity loss of up to 30% after 4 days of immersion in our tests. Moreover, several studies have shown that biocompatibility problems can occur during in vivo studies in animals. This paper describes the production and testing of a new type of thermoluminescent mini-dosimeter obtained by microextrusion of a mixture of LiF:Mg,Cu,P polypropylene and plastic adjuvants. These dosimeters, in the form of long 400 microm diameter filaments, can be cut to the desired length. The production process allows an LiF:Mg,Cu,P load of up to 50%. Results obtained in external irradiation indicate that these new miniature LiF:Mg,Cu,P dosimeters have good sensitivity (about 1.6 times that of CaSO4:Dy mini-TLDs), homogeneous response within a production batch (mean +/-4%), response stability in water (0.7% of variation in sensitivity after 2 weeks of immersion) and stability in aqueous solutions at different pH. LiF:Mg,Cu,P mini-dosimeters appear to be highly promising for internal dosimetry, and evaluation is in progress in animals.
A common 137Cs brachytherapy source has a 2-cm physical length and 1.38-cm active length. The active length is not symmetric with respect to the source center because one source end contains an eyelet. Current dose rate tables assume a symmetric source loading with respect to the source center. A computer program was written to calculate an asymmetric distribution using the manufacturers' source specifications. Corrections were made for attenuation and obliquity through the source materials. Dose rate values in cGy/h for a 137Cs source equivalent to 1 mg of 226Ra are shown as a function of the radius from the source center and angle from the source end containing the eyelet. Dose rate values in the table were confirmed by ferrous sulfate measurements using small volumes. The table values agree with published values at points more distant than a few cm and lying at an angle such that the asymmetry of the source loading has its minimum influence.
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