Characterization of novel water-equivalent PRESAGE® dosimeters for megavoltage and kilovoltage x-ray beam dosimetry. (March 2015)
- Record Type:
- Journal Article
- Title:
- Characterization of novel water-equivalent PRESAGE® dosimeters for megavoltage and kilovoltage x-ray beam dosimetry. (March 2015)
- Main Title:
- Characterization of novel water-equivalent PRESAGE® dosimeters for megavoltage and kilovoltage x-ray beam dosimetry
- Authors:
- Alqathami, Mamdooh
Blencowe, Anton
Geso, Moshi
Ibbott, Geoffrey - Abstract:
- Abstract: In this paper we introduce three novel PRESAGE ® dosimeters referred to as metal optimized dosimeters (MODs) 1, 2 and 3, and determine their sensitivity, as well as their water equivalency. All three formulations contained very small concentrations (0.01 wt%) of metal compounds. The radiological properties were key factors that were considered when designing and formulating the new dosimeters. The dosimeters were prepared in spectrophotometric cuvettes, irradiated with a 6 MV X-ray beam, and the change in optical density of each dosimeter was measured using a spectrophotometer. Results show that all three MOD formulations exhibit radiological properties closer to water than the recently introduced PRESAGE ® dosimeter formulation referred to as formulation A, with mass densities of the novel formulations varying by only 3.9% from that of water, as compared to 5.3% for the commercial formulation. Whereas the novel formulations have almost identical Zeff values to that of water (Zeff = 7.42), the Zeff for the commercial formulation was 3.7% higher than that of water. Comparison of mass energy coefficients for all MOD formulations showed a maximum variation of approximately 0.6 times closer to water especially MOD 3 whereas commercial formulation was 1.23 times larger than water at approximately 40 keV. The same effect was observed fo r mass attenuation coefficients comparison . MOD 3 was also more sensitive to radiation than MOD 1 and 2 as a result of the inclusionAbstract: In this paper we introduce three novel PRESAGE ® dosimeters referred to as metal optimized dosimeters (MODs) 1, 2 and 3, and determine their sensitivity, as well as their water equivalency. All three formulations contained very small concentrations (0.01 wt%) of metal compounds. The radiological properties were key factors that were considered when designing and formulating the new dosimeters. The dosimeters were prepared in spectrophotometric cuvettes, irradiated with a 6 MV X-ray beam, and the change in optical density of each dosimeter was measured using a spectrophotometer. Results show that all three MOD formulations exhibit radiological properties closer to water than the recently introduced PRESAGE ® dosimeter formulation referred to as formulation A, with mass densities of the novel formulations varying by only 3.9% from that of water, as compared to 5.3% for the commercial formulation. Whereas the novel formulations have almost identical Zeff values to that of water (Zeff = 7.42), the Zeff for the commercial formulation was 3.7% higher than that of water. Comparison of mass energy coefficients for all MOD formulations showed a maximum variation of approximately 0.6 times closer to water especially MOD 3 whereas commercial formulation was 1.23 times larger than water at approximately 40 keV. The same effect was observed fo r mass attenuation coefficients comparison . MOD 3 was also more sensitive to radiation than MOD 1 and 2 as a result of the inclusion of bromine-based halocarbons in the formulation. All novel MOD formulations were comparable to commercial formulation in terms of probability of Compton scatter and pair production compared to water. However, the probability of photoelectric absorption in the three novel MOD formulations varied significantly less (1.3 times greater) from that of water as compared to the commercial formulation (1.8 times greater). Given that all three novel MOD formulations displayed improved radiological properties over any of the currently available PRESAGE ® dosimeter formulations makes them ideal candidates for tissue mimics in dosimetry of clinical megavoltage and kilovoltage x-ray beams. Highlights: We have formulated three novel PRESAGE ® dosimeters. The novel formulations are superior to benchmark formulations in terms of water-equivalency. All novel formulation are better suited for clinical dosimetry of both kilovoltage and megavoltage clinical x-ray beams. All formulations had spectroscopic characteristics typical of the commercial PRESAGE ® . … (more)
- Is Part Of:
- Radiation measurements. Volume 74(2015:Mar.)
- Journal:
- Radiation measurements
- Issue:
- Volume 74(2015:Mar.)
- Issue Display:
- Volume 74 (2015)
- Year:
- 2015
- Volume:
- 74
- Issue Sort Value:
- 2015-0074-0000-0000
- Page Start:
- 12
- Page End:
- 19
- Publication Date:
- 2015-03
- Subjects:
- PRESAGE® -- Dosimetry -- 3D dosimetry -- Water equivalency
Nuclear emulsions -- Periodicals
Particle tracks (Nuclear physics) -- Periodicals
Thermoluminescence -- Periodicals
Cosmic rays -- Periodicals
Radiation -- Measurement -- Periodicals
Radiometry -- Periodicals
Radiation Monitoring -- Periodicals
Émulsions nucléaires -- Périodiques
Particules (Physique nucléaire) -- Traces -- Périodiques
Thermoluminescence -- Périodiques
Rayonnement cosmique -- Périodiques
Radiométrie -- Périodiques
539.77 - Journal URLs:
- http://www.sciencedirect.com/science/journal/13504487 ↗
http://www.elsevier.com/journals ↗
http://www.journals.elsevier.com/radiation-measurements/ ↗ - DOI:
- 10.1016/j.radmeas.2015.02.002 ↗
- Languages:
- English
- ISSNs:
- 1350-4487
- Deposit Type:
- Legaldeposit
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library DSC - 7227.973000
British Library DSC - BLDSS-3PM
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