A method to calibrate the RS 2000 x-ray biological irradiator for radiobiological flank irradiation of mice

C. S. Moore; T. J. Wood; C. Cawthorne; K. L. Hilton; S. Maher; J. R. Saunderson; S. Archibald; A. W. Beavis

doi:10.1088/2057-1976/2/3/037001

A method to calibrate the RS 2000 x-ray biological irradiator for radiobiological flank irradiation of mice

C. S. Moore, T. J. Wood, C. Cawthorne, K. L. Hilton, S. Maher, J. R. Saunderson, S. Archibald, A. W. Beavis

Imaging Chemistry & Biology

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

4 Citations (Scopus)

Abstract

This work investigated a method to calibrate the irradiation by an x-ray cabinet of tumours inserted on the flanks of mice. For the x-ray energies used by such devices, the radiotherapy treatment metric of absorbed dose to water (D_W) requires knowledge of the half value layer (HVL)of the beam spectrum. This isusually measured in ascatter free environment, but such a measurement inside a cabinet with our specific exposure geometry is impractical. Therefore, a novel way of evaluating HVL was devised and used to calibratean RS 2000 cabinet interms of D_W. This calibration used the relevant IPEMB code of practice and was traceable to the UK primary standard for air kerma. This codeis used by every radio therapy department in the UK. To facilitate convenient calibration of different types of dosimeter in the hospital radio therapy department a cabinet was produced in-house and used with aclinical superficial x-ray deviceto mimic the spectral properties in the university based RS 2000.To measure the HVL inside the cabinet, the response of thermoluminescent dosimeters (TLDs) to that of a secondary-standard ionisation chamber (M_TLD/M_S) was derived across an appropriate range of HVLs free-in-air. Measurements were then taken in the in-house cabinet with TLDs and ion chamber under conditions that simulated the position of the animal flank implanted tumour (i.e. with our specific experimental geometry) to derive an average M_TLD/M_Sfrom which the HVL of the incident beam was calculated. Chamber readings were converted to D_W (without the need to use modified backscatter factors) and used to calibrate TLDs which were subsequently employed in the RS2000 cabinet toallow conversion of exposure time to dose. The uncertainty in calculated dose was ±3.8%.

Original language	English
Article number	037001
Journal	Biomedical Physics and Engineering Express
Volume	2
Issue number	3
DOIs	https://doi.org/10.1088/2057-1976/2/3/037001
Publication status	Published - 27 May 2016

Keywords

Absorbed dose to water
Animal irradiation
Preclinical
Radiotherapy
X-ray cabinet

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10.1088/2057-1976/2/3/037001

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@article{54eee32bf63f47c59e3990cf1b908f8b,

title = "A method to calibrate the RS 2000 x-ray biological irradiator for radiobiological flank irradiation of mice",

abstract = "This work investigated a method to calibrate the irradiation by an x-ray cabinet of tumours inserted on the flanks of mice. For the x-ray energies used by such devices, the radiotherapy treatment metric of absorbed dose to water (DW) requires knowledge of the half value layer (HVL)of the beam spectrum. This isusually measured in ascatter free environment, but such a measurement inside a cabinet with our specific exposure geometry is impractical. Therefore, a novel way of evaluating HVL was devised and used to calibratean RS 2000 cabinet interms of DW. This calibration used the relevant IPEMB code of practice and was traceable to the UK primary standard for air kerma. This codeis used by every radio therapy department in the UK. To facilitate convenient calibration of different types of dosimeter in the hospital radio therapy department a cabinet was produced in-house and used with aclinical superficial x-ray deviceto mimic the spectral properties in the university based RS 2000.To measure the HVL inside the cabinet, the response of thermoluminescent dosimeters (TLDs) to that of a secondary-standard ionisation chamber (MTLD/MS) was derived across an appropriate range of HVLs free-in-air. Measurements were then taken in the in-house cabinet with TLDs and ion chamber under conditions that simulated the position of the animal flank implanted tumour (i.e. with our specific experimental geometry) to derive an average MTLD/MSfrom which the HVL of the incident beam was calculated. Chamber readings were converted to DW (without the need to use modified backscatter factors) and used to calibrate TLDs which were subsequently employed in the RS2000 cabinet toallow conversion of exposure time to dose. The uncertainty in calculated dose was ±3.8%.",

keywords = "Absorbed dose to water, Animal irradiation, Preclinical, Radiotherapy, X-ray cabinet",

author = "Moore, {C. S.} and Wood, {T. J.} and C. Cawthorne and Hilton, {K. L.} and S. Maher and Saunderson, {J. R.} and S. Archibald and Beavis, {A. W.}",

note = "Publisher Copyright: {\textcopyright} 2016 IOP Publishing Ltd.",

year = "2016",

month = may,

day = "27",

doi = "10.1088/2057-1976/2/3/037001",

language = "English",

volume = "2",

journal = "Biomedical Physics and Engineering Express",

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T1 - A method to calibrate the RS 2000 x-ray biological irradiator for radiobiological flank irradiation of mice

AU - Moore, C. S.

AU - Wood, T. J.

AU - Cawthorne, C.

AU - Hilton, K. L.

AU - Maher, S.

AU - Saunderson, J. R.

AU - Archibald, S.

AU - Beavis, A. W.

PY - 2016/5/27

Y1 - 2016/5/27

N2 - This work investigated a method to calibrate the irradiation by an x-ray cabinet of tumours inserted on the flanks of mice. For the x-ray energies used by such devices, the radiotherapy treatment metric of absorbed dose to water (DW) requires knowledge of the half value layer (HVL)of the beam spectrum. This isusually measured in ascatter free environment, but such a measurement inside a cabinet with our specific exposure geometry is impractical. Therefore, a novel way of evaluating HVL was devised and used to calibratean RS 2000 cabinet interms of DW. This calibration used the relevant IPEMB code of practice and was traceable to the UK primary standard for air kerma. This codeis used by every radio therapy department in the UK. To facilitate convenient calibration of different types of dosimeter in the hospital radio therapy department a cabinet was produced in-house and used with aclinical superficial x-ray deviceto mimic the spectral properties in the university based RS 2000.To measure the HVL inside the cabinet, the response of thermoluminescent dosimeters (TLDs) to that of a secondary-standard ionisation chamber (MTLD/MS) was derived across an appropriate range of HVLs free-in-air. Measurements were then taken in the in-house cabinet with TLDs and ion chamber under conditions that simulated the position of the animal flank implanted tumour (i.e. with our specific experimental geometry) to derive an average MTLD/MSfrom which the HVL of the incident beam was calculated. Chamber readings were converted to DW (without the need to use modified backscatter factors) and used to calibrate TLDs which were subsequently employed in the RS2000 cabinet toallow conversion of exposure time to dose. The uncertainty in calculated dose was ±3.8%.

AB - This work investigated a method to calibrate the irradiation by an x-ray cabinet of tumours inserted on the flanks of mice. For the x-ray energies used by such devices, the radiotherapy treatment metric of absorbed dose to water (DW) requires knowledge of the half value layer (HVL)of the beam spectrum. This isusually measured in ascatter free environment, but such a measurement inside a cabinet with our specific exposure geometry is impractical. Therefore, a novel way of evaluating HVL was devised and used to calibratean RS 2000 cabinet interms of DW. This calibration used the relevant IPEMB code of practice and was traceable to the UK primary standard for air kerma. This codeis used by every radio therapy department in the UK. To facilitate convenient calibration of different types of dosimeter in the hospital radio therapy department a cabinet was produced in-house and used with aclinical superficial x-ray deviceto mimic the spectral properties in the university based RS 2000.To measure the HVL inside the cabinet, the response of thermoluminescent dosimeters (TLDs) to that of a secondary-standard ionisation chamber (MTLD/MS) was derived across an appropriate range of HVLs free-in-air. Measurements were then taken in the in-house cabinet with TLDs and ion chamber under conditions that simulated the position of the animal flank implanted tumour (i.e. with our specific experimental geometry) to derive an average MTLD/MSfrom which the HVL of the incident beam was calculated. Chamber readings were converted to DW (without the need to use modified backscatter factors) and used to calibrate TLDs which were subsequently employed in the RS2000 cabinet toallow conversion of exposure time to dose. The uncertainty in calculated dose was ±3.8%.

KW - Absorbed dose to water

KW - Animal irradiation

KW - Preclinical

KW - Radiotherapy

KW - X-ray cabinet

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DO - 10.1088/2057-1976/2/3/037001

M3 - Article

AN - SCOPUS:85046238273

SN - 2057-1976

VL - 2

JO - Biomedical Physics and Engineering Express

JF - Biomedical Physics and Engineering Express

IS - 3

M1 - 037001

ER -

A method to calibrate the RS 2000 x-ray biological irradiator for radiobiological flank irradiation of mice

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