Comparison of brachytherapy strategies based on dose-volume histograms derived from quantitative intravascular ultrasound

Stéphane G. Carlier; Johannes P.A. Marijnissen; Veronique L.M.A. Coen; Manel Sabate; Willem J. Van Der Giessen; Jurgen Ligthart; Ad Den Boer; Peter C. Levendag; Patrick W. Serruys

doi:10.1016/S1522-1865(99)00003-7

Comparison of brachytherapy strategies based on dose-volume histograms derived from quantitative intravascular ultrasound

Stéphane G. Carlier, Johannes P.A. Marijnissen, Veronique L.M.A. Coen, Manel Sabate, Willem J. Van Der Giessen, Jurgen Ligthart, Ad Den Boer, Peter C. Levendag, Patrick W. Serruys

Erasmus MC

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

15 Citations (Scopus)

Abstract

Purpose. We present in this paper the comparison, by simulation, of different treatment strategies based either on β- or γ-sources, both with and without a centering device. Ionizing radiation to prevent restenosis is an emerging modality in interventional cardiology. Numerous clinical studies are presently being performed or planned, but there is variability in dose prescription, and both γ- and β-emitters are used, leading to a wide range of possible dose distributions over the arterial vessel wall. This paper discusses the potential merits of dose-volume histograms (DVH) based on three-dimensional (3-D) reconstruction of electrocardiogram (ECG)-gated intravascular ultrasound (IVUS) to compare brachytherapy treatment strategies. Materials and Methods. DVH describe the cumulative distribution of dose over three specific volumes: (1) at the level of the luminal surface, a volume was defined with a thickness of 0.1 mm from the automatically detected contour of the highly echogenic blood-vessel interface; (2) at the level of the IVUS echogenic media-adventitia interface (external elastic lamina [EEL]), an adventitial volume was computed considering a 0.5-mm thickness from EEL; and (3) the volume encompassed between the luminal surface and the EEL (plaque + media). The IVUS data used were recorded in 23 of 31 patients during the Beta Energy Restenosis Trial (BERT) conducted in our institution. Results. On average, the minimal dose in 90% of the adventitial volume was 37 ± 16% of the prescribed dose; the minimal dose in 90% of the plaque + media volume was 58 ± 24% and of the luminal surface volume was 67 ± 31%. The minimal dose in the 10% most exposed luminal surface volume was 296 ± 42%. Simulations of the use of a γ-emitter and/or a radioactive source train centered in the lumen are reported, with a comparison of the homogeneity of the dose distribution. Conclusions. It is possible to derive DVH from IVUS, to evaluate the dose delivered to different parts of the coronary wall. This process should improve our understanding of the mechanisms of action of brachytherapy.

Original language	English
Pages (from-to)	115-124
Number of pages	10
Journal	Cardiovascular Radiation Medicine
Volume	1
Issue number	2
DOIs	https://doi.org/10.1016/S1522-1865(99)00003-7
Publication status	Published - Apr 1999
Externally published	Yes

Keywords

Brachytherapy
Dosimetry
Intravascular ultrasound (IVUS)
Restenosis
Vascular

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10.1016/S1522-1865(99)00003-7

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Carlier, S. G., Marijnissen, J. P. A., Coen, V. L. M. A., Sabate, M., Van Der Giessen, W. J., Ligthart, J., Den Boer, A., Levendag, P. C., & Serruys, P. W. (1999). Comparison of brachytherapy strategies based on dose-volume histograms derived from quantitative intravascular ultrasound. Cardiovascular Radiation Medicine, 1(2), 115-124. https://doi.org/10.1016/S1522-1865(99)00003-7

@article{4b56f3d4417347e789bd00ceca641a13,

title = "Comparison of brachytherapy strategies based on dose-volume histograms derived from quantitative intravascular ultrasound",

abstract = "Purpose. We present in this paper the comparison, by simulation, of different treatment strategies based either on β- or γ-sources, both with and without a centering device. Ionizing radiation to prevent restenosis is an emerging modality in interventional cardiology. Numerous clinical studies are presently being performed or planned, but there is variability in dose prescription, and both γ- and β-emitters are used, leading to a wide range of possible dose distributions over the arterial vessel wall. This paper discusses the potential merits of dose-volume histograms (DVH) based on three-dimensional (3-D) reconstruction of electrocardiogram (ECG)-gated intravascular ultrasound (IVUS) to compare brachytherapy treatment strategies. Materials and Methods. DVH describe the cumulative distribution of dose over three specific volumes: (1) at the level of the luminal surface, a volume was defined with a thickness of 0.1 mm from the automatically detected contour of the highly echogenic blood-vessel interface; (2) at the level of the IVUS echogenic media-adventitia interface (external elastic lamina [EEL]), an adventitial volume was computed considering a 0.5-mm thickness from EEL; and (3) the volume encompassed between the luminal surface and the EEL (plaque + media). The IVUS data used were recorded in 23 of 31 patients during the Beta Energy Restenosis Trial (BERT) conducted in our institution. Results. On average, the minimal dose in 90\% of the adventitial volume was 37 ± 16\% of the prescribed dose; the minimal dose in 90\% of the plaque + media volume was 58 ± 24\% and of the luminal surface volume was 67 ± 31\%. The minimal dose in the 10\% most exposed luminal surface volume was 296 ± 42\%. Simulations of the use of a γ-emitter and/or a radioactive source train centered in the lumen are reported, with a comparison of the homogeneity of the dose distribution. Conclusions. It is possible to derive DVH from IVUS, to evaluate the dose delivered to different parts of the coronary wall. This process should improve our understanding of the mechanisms of action of brachytherapy.",

keywords = "Brachytherapy, Dosimetry, Intravascular ultrasound (IVUS), Restenosis, Vascular",

author = "Carlier, \{St{\'e}phane G.\} and Marijnissen, \{Johannes P.A.\} and Coen, \{Veronique L.M.A.\} and Manel Sabate and \{Van Der Giessen\}, \{Willem J.\} and Jurgen Ligthart and \{Den Boer\}, Ad and Levendag, \{Peter C.\} and Serruys, \{Patrick W.\}",

year = "1999",

month = apr,

doi = "10.1016/S1522-1865(99)00003-7",

language = "English",

volume = "1",

pages = "115--124",

journal = "Cardiovascular Radiation Medicine",

issn = "1522-1865",

publisher = "Elsevier B.V.",

number = "2",

}

TY - JOUR

T1 - Comparison of brachytherapy strategies based on dose-volume histograms derived from quantitative intravascular ultrasound

AU - Carlier, Stéphane G.

AU - Marijnissen, Johannes P.A.

AU - Coen, Veronique L.M.A.

AU - Sabate, Manel

AU - Van Der Giessen, Willem J.

AU - Ligthart, Jurgen

AU - Den Boer, Ad

AU - Levendag, Peter C.

AU - Serruys, Patrick W.

PY - 1999/4

Y1 - 1999/4

N2 - Purpose. We present in this paper the comparison, by simulation, of different treatment strategies based either on β- or γ-sources, both with and without a centering device. Ionizing radiation to prevent restenosis is an emerging modality in interventional cardiology. Numerous clinical studies are presently being performed or planned, but there is variability in dose prescription, and both γ- and β-emitters are used, leading to a wide range of possible dose distributions over the arterial vessel wall. This paper discusses the potential merits of dose-volume histograms (DVH) based on three-dimensional (3-D) reconstruction of electrocardiogram (ECG)-gated intravascular ultrasound (IVUS) to compare brachytherapy treatment strategies. Materials and Methods. DVH describe the cumulative distribution of dose over three specific volumes: (1) at the level of the luminal surface, a volume was defined with a thickness of 0.1 mm from the automatically detected contour of the highly echogenic blood-vessel interface; (2) at the level of the IVUS echogenic media-adventitia interface (external elastic lamina [EEL]), an adventitial volume was computed considering a 0.5-mm thickness from EEL; and (3) the volume encompassed between the luminal surface and the EEL (plaque + media). The IVUS data used were recorded in 23 of 31 patients during the Beta Energy Restenosis Trial (BERT) conducted in our institution. Results. On average, the minimal dose in 90% of the adventitial volume was 37 ± 16% of the prescribed dose; the minimal dose in 90% of the plaque + media volume was 58 ± 24% and of the luminal surface volume was 67 ± 31%. The minimal dose in the 10% most exposed luminal surface volume was 296 ± 42%. Simulations of the use of a γ-emitter and/or a radioactive source train centered in the lumen are reported, with a comparison of the homogeneity of the dose distribution. Conclusions. It is possible to derive DVH from IVUS, to evaluate the dose delivered to different parts of the coronary wall. This process should improve our understanding of the mechanisms of action of brachytherapy.

AB - Purpose. We present in this paper the comparison, by simulation, of different treatment strategies based either on β- or γ-sources, both with and without a centering device. Ionizing radiation to prevent restenosis is an emerging modality in interventional cardiology. Numerous clinical studies are presently being performed or planned, but there is variability in dose prescription, and both γ- and β-emitters are used, leading to a wide range of possible dose distributions over the arterial vessel wall. This paper discusses the potential merits of dose-volume histograms (DVH) based on three-dimensional (3-D) reconstruction of electrocardiogram (ECG)-gated intravascular ultrasound (IVUS) to compare brachytherapy treatment strategies. Materials and Methods. DVH describe the cumulative distribution of dose over three specific volumes: (1) at the level of the luminal surface, a volume was defined with a thickness of 0.1 mm from the automatically detected contour of the highly echogenic blood-vessel interface; (2) at the level of the IVUS echogenic media-adventitia interface (external elastic lamina [EEL]), an adventitial volume was computed considering a 0.5-mm thickness from EEL; and (3) the volume encompassed between the luminal surface and the EEL (plaque + media). The IVUS data used were recorded in 23 of 31 patients during the Beta Energy Restenosis Trial (BERT) conducted in our institution. Results. On average, the minimal dose in 90% of the adventitial volume was 37 ± 16% of the prescribed dose; the minimal dose in 90% of the plaque + media volume was 58 ± 24% and of the luminal surface volume was 67 ± 31%. The minimal dose in the 10% most exposed luminal surface volume was 296 ± 42%. Simulations of the use of a γ-emitter and/or a radioactive source train centered in the lumen are reported, with a comparison of the homogeneity of the dose distribution. Conclusions. It is possible to derive DVH from IVUS, to evaluate the dose delivered to different parts of the coronary wall. This process should improve our understanding of the mechanisms of action of brachytherapy.

KW - Brachytherapy

KW - Dosimetry

KW - Intravascular ultrasound (IVUS)

KW - Restenosis

KW - Vascular

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DO - 10.1016/S1522-1865(99)00003-7

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AN - SCOPUS:0033108188

SN - 1522-1865

VL - 1

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EP - 124

JO - Cardiovascular Radiation Medicine

JF - Cardiovascular Radiation Medicine

IS - 2

ER -

Comparison of brachytherapy strategies based on dose-volume histograms derived from quantitative intravascular ultrasound

Abstract

Keywords

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