A comparison of solid phantoms with water for dosimetry of 1                         2                         5I brachytherapy sources

Ali S. Meigooni; Jerome A. Meli; Ravinder Nath

doi:10.1118/1.596182

A comparison of solid phantoms with water for dosimetry of ¹ ² ⁵I brachytherapy sources

Ali S. Meigooni
, Jerome A. Meli
, Ravinder Nath

Radiation Medicine

Research output: Contribution to journal › Article › peer-review

111 Scopus citations

Abstract

Dosimetry of brachytherapy sources is critically dependent on precise measurement of the sourceâ€“detector distance. A solid phantom can be precisely machined and hence distances can be accurately determined. In this work LiF thermoluminescent chips are used for absolute dose rate measurements in solid water, polymethylmethacrylate (PMMA), and polystyrene. These media are examined for their suitability in the dosimetry of ¹ ² ⁵I by comparing depth doses in each phantom. Measurements and Monte Carlo calculations show that solid water is equivalent to water for the dosimetry of ¹ ² ⁵I seeds, however, polystyrene and PMMA are not equivalent to water. Also, photon energy spectra for several depths in each phantom material have been calculated and are used to determine average photon energy and mass energy absorption coefficients as a function of depth.

Original language	English
Pages (from-to)	695-701
Number of pages	7
Journal	Medical Physics
Volume	15
Issue number	5
DOIs	https://doi.org/10.1118/1.596182
State	Published - Sep 1988

Keywords

COMPARATIVE EVALUATIONS
DEPTH DOSE DISTRIBUTIONS
DOSE RATES
GAMMA DOSIMETRY
ICE
IODINE 125
PHANTOMS
PMMA
POLYSTYRENE
RADIATION SOURCE IMPLANTS
THERMOLUMINESCENT DOSIMETRY
WATER

ASJC Scopus subject areas

Biophysics
Radiology Nuclear Medicine and imaging

Access to Document

10.1118/1.596182

Cite this

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title = "A comparison of solid phantoms with water for dosimetry of 1 2 5I brachytherapy sources",

abstract = "Dosimetry of brachytherapy sources is critically dependent on precise measurement of the source{\^a}€“detector distance. A solid phantom can be precisely machined and hence distances can be accurately determined. In this work LiF thermoluminescent chips are used for absolute dose rate measurements in solid water, polymethylmethacrylate (PMMA), and polystyrene. These media are examined for their suitability in the dosimetry of 1 2 5I by comparing depth doses in each phantom. Measurements and Monte Carlo calculations show that solid water is equivalent to water for the dosimetry of 1 2 5I seeds, however, polystyrene and PMMA are not equivalent to water. Also, photon energy spectra for several depths in each phantom material have been calculated and are used to determine average photon energy and mass energy absorption coefficients as a function of depth.",

keywords = "COMPARATIVE EVALUATIONS, DEPTH DOSE DISTRIBUTIONS, DOSE RATES, GAMMA DOSIMETRY, ICE, IODINE 125, PHANTOMS, PMMA, POLYSTYRENE, RADIATION SOURCE IMPLANTS, THERMOLUMINESCENT DOSIMETRY, WATER",

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T1 - A comparison of solid phantoms with water for dosimetry of 1 2 5I brachytherapy sources

AU - Meigooni, Ali S.

AU - Meli, Jerome A.

AU - Nath, Ravinder

PY - 1988/9

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N2 - Dosimetry of brachytherapy sources is critically dependent on precise measurement of the sourceâ€“detector distance. A solid phantom can be precisely machined and hence distances can be accurately determined. In this work LiF thermoluminescent chips are used for absolute dose rate measurements in solid water, polymethylmethacrylate (PMMA), and polystyrene. These media are examined for their suitability in the dosimetry of 1 2 5I by comparing depth doses in each phantom. Measurements and Monte Carlo calculations show that solid water is equivalent to water for the dosimetry of 1 2 5I seeds, however, polystyrene and PMMA are not equivalent to water. Also, photon energy spectra for several depths in each phantom material have been calculated and are used to determine average photon energy and mass energy absorption coefficients as a function of depth.

AB - Dosimetry of brachytherapy sources is critically dependent on precise measurement of the sourceâ€“detector distance. A solid phantom can be precisely machined and hence distances can be accurately determined. In this work LiF thermoluminescent chips are used for absolute dose rate measurements in solid water, polymethylmethacrylate (PMMA), and polystyrene. These media are examined for their suitability in the dosimetry of 1 2 5I by comparing depth doses in each phantom. Measurements and Monte Carlo calculations show that solid water is equivalent to water for the dosimetry of 1 2 5I seeds, however, polystyrene and PMMA are not equivalent to water. Also, photon energy spectra for several depths in each phantom material have been calculated and are used to determine average photon energy and mass energy absorption coefficients as a function of depth.

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KW - POLYSTYRENE

KW - RADIATION SOURCE IMPLANTS

KW - THERMOLUMINESCENT DOSIMETRY

KW - WATER

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