Investigation of 4D dose in volumetric modulated arc therapy-based stereotactic body radiation therapy: does fractional dose or number of arcs matter? / 強度変調回転放射線治療を用いた体幹部定位放射線治療における4次元線量の研究：1回線量及び回転軌道数の影響

Shintani, Takashi

25 May 2020

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22642号 / 医博第4625号 / 新制||医||1044(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 武田 俊一, 教授 増永 慎一郎, 教授 鈴木 実 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Volumetric modulated arc therapy

Stereotactic body radiation therapy

Interplay effect

4D dose

Deformable image registration

490

Volumetric modulated Dynamic WaveArc therapy reduces the dose to the hippocampus in patients with pituitary adenomas and craniopharyngiomas / Volumetric modulated Dynamic WaveArc法は下垂体腺腫・頭蓋咽頭腫症例における海馬線量を低減する

Uto, Megumi

26 March 2018

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第20966号 / 医博第4312号 / 新制||医||1026(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 原田 浩, 教授 富樫 かおり, 教授 宮本 享 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Dynamic WaveArc therapy

hippocampus

pituitary adenoma

craniopharyngioma

volumetric modulated arc therapy

490

The Limit of Resolution and Detectability of the ArcCHECK QA Phantom in small field Volumetric Modulated Arc Therapy and Stereotactic Radiosurgery Quality Assurance

Gray, Tara

13 June 2016

No description available.

Physics

Medicine

Health Sciences

Study on the scalp dose threshold and irradiation technique to prevent permanent alopecia in pediatric patients with medulloblastomas / 小児髄芽腫における永久脱毛防止のための頭皮線量閾値と照射技法の研究

Torizuka, Daichi

25 March 2024

京都大学 / 新制・課程博士 / 博士(医学) / 甲第25195号 / 医博第5081号 / 新制||医||1072(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 鈴木 実, 教授 椛島 健治, 教授 中本 裕士 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM

medulloblastoma

non-coplanar arc

permanent alopecia

scalp-avoidance whole-brain irradiation

volumetric-modulated arc therapy

490

Impact of interfractional anatomical variation and setup correction methods on interfractional dose variation in IMPT and VMAT plans for pancreatic cancer patients: A planning study / 膵癌に対する強度変調陽子線治療及び強度変調回転放射線治療において解剖学的構造の変化と照合法の違いが線量分布の日間変動に与える影響

Ashida, Ryo

23 September 2020

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22734号 / 医博第4652号 / 新制||医||1046(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 妹尾 浩, 教授 増永 慎一郎, 教授 川口 義弥 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

pancreatic cancer

intensity-modulated proton therapy

volumetric-modulated arc therapy

setup correction methods

interfractional anatomical variation

490

Recommendations for Treatment Planning Dose Indices for Single Target VMAT Brain Stereotactic Radiosurgery/Radiotherapy; A Retrospective Analysis

Newell, Devin Austin Lee

January 2021

No description available.

Physics

Health Sciences

Health Care

Brain

cancer

single

lesion

VMAT

Volumetric modulated arc therapy

SRS

Stereotactic radiosurgery

isocenter

solitary

tumor

Aplicação das técnicas de dosimetria termoluminescente (TL) e luminescência opticamente estimulada (OSL) na determinação de curvas de isodose em uma simulação de tratamento de câncer pela técnica de radioterapia em arco modulado volumétrico - VMAT / Application of the thermoluminescent (TL) and optically stimulated luminescence (OSL) dosimetry techniques to determinate the isodose curves in a cancer treatment planning simulation using volumetric modulated arc therapy - VMAT

Bravim, Amanda

11 June 2015

A Radioterapia em Arco Modulado Volumétrico (VMAT) é uma técnica avançada de Radioterapia de Intensidade Modulada (IMRT). Esse avanço na técnica é devido à rotação contínua do gantry juntamente com a modulação do feixe de radiação proporcionando um tempo menor no tratamento do paciente. O objetivo desse trabalho é a verificação de curvas de isodose em uma simulação de um tratamento de vértebra com proteção de medula espinhal utilizando as técnicas de dosimetria termoluminescente (TL) e luminescência opticamente estimulada (OSL) e os dosímetros de LiF:Mg,Ti (TLD-100), CaSO4:Dy e Al2O3:C e microdosímetros de LiF:Mg,Ti (TLD-100). Os dosímetros foram caracterizados com a utilização de placas de PMMA de 30x30 cm2 e diversas espessuras. Todas as irradiações foram feitas utilizando o acelerador linear Truebeam STx da Varian do Hospital Israelita Albert Einstein, com feixe de fótons de 6 MV. Após a caracterização dos dosímetros, os mesmos foram irradiados seguindo a simulação do planejamento escolhido e utilizando um objeto simulador de PMMA produzido para medidas de VMAT. Essa irradiação teve como finalidade verificar através das duas técnicas de dosimetria as curvas de isodose dessa simulação de tratamento. Todos os tipos de dosímetros apresentaram resultados satisfatórios na verificação das curvas de isodose utilizando ambas as técnicas de dosimetria. Porém, analisando a complexidade das curvas de isodose e a possibilidade das curvas estarem muito próximas, o microdosímetro de LiF:Mg,Ti se mostrou o mais apropriado para o uso devido à suas pequenas dimensões. Em relação à melhor técnica, como ambas apresentaram resultados satisfatórios, a técnica TL é a que apresenta menor complexidade em ser utilizada, pois a maioria dos Departamentos de Radioterapia já possuem um Laboratório para leitura TL. A técnica OSL exige mais cuidados e maior investimento do Departamento. / The Volumetric Modulated Arc Therapy (VMAT) is an advance technique of Intensity Modulated Radiation Therapy (IMRT). This progress is due to the continuous gantry rotation with the radiation beam modulation providing lower time of the patient treatment. This research aimed the verification of the isodose curves in a simulation of a vertebra treatment with spinal cord protection using the thermoluminescent (TL) and optically stimulated luminescence (OSL) dosimetry techniques and theLiF:Mg,Ti (TLD-100), CaSO4:Dy and Al2O3:C dosimeters and LiF:Mg,Ti microdosimeters (TLD-100). The dosimeters were characterized using PMMA plates of 30x30x30 cm3 and different thickness. All irradiations were done using Truebeam STx linear accelerator of Hospital Israelita Albert Einstein, with 6 MV photons beam. After the dosimeter characterization, they were irradiated according the specific planning simulation and using a PMMA phantom developed to VMAT measurements. This irradiation aimed to verify the isodose curves of the treatment simulation using the two dosimetry techniques. All types of dosimeters showed satisfactory results to determine the dose distribution but analysing the complexity of the isodose curves and the proximity of them, the LiF:Mg,Ti microdosimeter showed the most appropriate for use due to its small dimensions. Regarding the best technique, as both technique showed satisfactory results, the TL technique presents less complex to be used because the most of the radiotherapy departments already have a TL laboratory. The OSL technique requires more care and greater investment in the hospital.

curvas de isodose

dosimetria

dosimetry

isodose curves

luminescência opticamente estimulada

optically stimulated luminescence

termoluminescência

thermoluminescence

volumetric modulated arc therapy

Aplicação das técnicas de dosimetria termoluminescente (TL) e luminescência opticamente estimulada (OSL) na determinação de curvas de isodose em uma simulação de tratamento de câncer pela técnica de radioterapia em arco modulado volumétrico - VMAT / Application of the thermoluminescent (TL) and optically stimulated luminescence (OSL) dosimetry techniques to determinate the isodose curves in a cancer treatment planning simulation using volumetric modulated arc therapy - VMAT

Amanda Bravim

11 June 2015

A Radioterapia em Arco Modulado Volumétrico (VMAT) é uma técnica avançada de Radioterapia de Intensidade Modulada (IMRT). Esse avanço na técnica é devido à rotação contínua do gantry juntamente com a modulação do feixe de radiação proporcionando um tempo menor no tratamento do paciente. O objetivo desse trabalho é a verificação de curvas de isodose em uma simulação de um tratamento de vértebra com proteção de medula espinhal utilizando as técnicas de dosimetria termoluminescente (TL) e luminescência opticamente estimulada (OSL) e os dosímetros de LiF:Mg,Ti (TLD-100), CaSO4:Dy e Al2O3:C e microdosímetros de LiF:Mg,Ti (TLD-100). Os dosímetros foram caracterizados com a utilização de placas de PMMA de 30x30 cm2 e diversas espessuras. Todas as irradiações foram feitas utilizando o acelerador linear Truebeam STx da Varian do Hospital Israelita Albert Einstein, com feixe de fótons de 6 MV. Após a caracterização dos dosímetros, os mesmos foram irradiados seguindo a simulação do planejamento escolhido e utilizando um objeto simulador de PMMA produzido para medidas de VMAT. Essa irradiação teve como finalidade verificar através das duas técnicas de dosimetria as curvas de isodose dessa simulação de tratamento. Todos os tipos de dosímetros apresentaram resultados satisfatórios na verificação das curvas de isodose utilizando ambas as técnicas de dosimetria. Porém, analisando a complexidade das curvas de isodose e a possibilidade das curvas estarem muito próximas, o microdosímetro de LiF:Mg,Ti se mostrou o mais apropriado para o uso devido à suas pequenas dimensões. Em relação à melhor técnica, como ambas apresentaram resultados satisfatórios, a técnica TL é a que apresenta menor complexidade em ser utilizada, pois a maioria dos Departamentos de Radioterapia já possuem um Laboratório para leitura TL. A técnica OSL exige mais cuidados e maior investimento do Departamento. / The Volumetric Modulated Arc Therapy (VMAT) is an advance technique of Intensity Modulated Radiation Therapy (IMRT). This progress is due to the continuous gantry rotation with the radiation beam modulation providing lower time of the patient treatment. This research aimed the verification of the isodose curves in a simulation of a vertebra treatment with spinal cord protection using the thermoluminescent (TL) and optically stimulated luminescence (OSL) dosimetry techniques and theLiF:Mg,Ti (TLD-100), CaSO4:Dy and Al2O3:C dosimeters and LiF:Mg,Ti microdosimeters (TLD-100). The dosimeters were characterized using PMMA plates of 30x30x30 cm3 and different thickness. All irradiations were done using Truebeam STx linear accelerator of Hospital Israelita Albert Einstein, with 6 MV photons beam. After the dosimeter characterization, they were irradiated according the specific planning simulation and using a PMMA phantom developed to VMAT measurements. This irradiation aimed to verify the isodose curves of the treatment simulation using the two dosimetry techniques. All types of dosimeters showed satisfactory results to determine the dose distribution but analysing the complexity of the isodose curves and the proximity of them, the LiF:Mg,Ti microdosimeter showed the most appropriate for use due to its small dimensions. Regarding the best technique, as both technique showed satisfactory results, the TL technique presents less complex to be used because the most of the radiotherapy departments already have a TL laboratory. The OSL technique requires more care and greater investment in the hospital.

curvas de isodose

dosimetria

luminescência opticamente estimulada

termoluminescência

dosimetry

isodose curves

optically stimulated luminescence

thermoluminescence

volumetric modulated arc therapy

Multicriteria optimization for managing tradeoffs in radiation therapy treatment planning

Bokrantz, Rasmus

January 2013

Treatment planning for radiation therapy inherently involves tradeoffs, such as between tumor control and normal tissue sparing, between time-efficiency and dose quality, and between nominal plan quality and robustness. The purpose of this thesis is to develop methods that can facilitate decision making related to such tradeoffs. The main focus of the thesis is on multicriteria optimization methods where a representative set of treatment plans are first calculated and the most appropriate plan contained in this representation then selected by the treatment planner through continuous interpolation between the precalculated alternatives. These alternatives constitute a subset of the set of Pareto optimal plans, meaning plans such that no criterion can be improved without a sacrifice in another. Approximation of Pareto optimal sets is first studied with respect to fluence map optimization for intensity-modulated radiation therapy. The approximation error of a discrete representation is minimized by calculation of points one at the time at the location where the distance between an inner and outer approximation of the Pareto set currently attains its maximum. A technique for calculating this distance that is orders of magnitude more efficient than the best previous method is presented. A generalization to distributed computational environments is also proposed. Approximation of Pareto optimal sets is also considered with respect to direct machine parameter optimization. Optimization of this form is used to calculate representations where any interpolated treatment plan is directly deliverable. The fact that finite representations of Pareto optimal sets have approximation errors with respect to Pareto optimality is addressed by a technique that removes these errors by a projection onto the exact Pareto set. Projections are also studied subject to constraints that prevent the dose-volume histogram from deteriorating. Multicriteria optimization is extended to treatment planning for volumetric-modulated arc therapy and intensity-modulated proton therapy. Proton therapy plans that are robust against geometric errors are calculated by optimization of the worst case outcome. The theory for multicriteria optimization is extended to accommodate this formulation. Worst case optimization is shown to be preferable to a previous more conservative method that also protects against uncertainties which cannot be realized in practice. / En viktig aspekt av planering av strålterapibehandlingar är avvägningar mellan behandlingsmål vilka står i konflikt med varandra. Exempel på sådana avvägningar är mellan tumörkontroll och dos till omkringliggande frisk vävnad, mellan behandlingstid och doskvalitet, och mellan nominell plankvalitet och robusthet med avseende på geometriska fel. Denna avhandling syftar till att utveckla metoder som kan underlätta beslutsfattande kring motstridiga behandlingsmål. Primärt studeras en metod för flermålsoptimering där behandlingsplanen väljs genom kontinuerlig interpolation över ett representativt urval av förberäknade alternativ. De förberäknade behandlingsplanerna utgör en delmängd av de Paretooptimala planerna, det vill säga de planer sådana att en förbättring enligt ett kriterium inte kan ske annat än genom en försämring enligt ett annat. Beräkning av en approximativ representation av mängden av Paretooptimala planer studeras först med avseende på fluensoptimering för intensitetsmodulerad strålterapi. Felet för den approximativa representationen minimeras genom att innesluta mängden av Paretooptimala planer mellan inre och yttre approximationer. Dessa approximationer förfinas iterativt genom att varje ny plan genereras där avståndet mellan approximationerna för tillfället är som störst. En teknik för att beräkna det maximala avståndet mellan approximationerna föreslås vilken är flera storleksordningar snabbare än den bästa tidigare kända metoden. En generalisering till distribuerade beräkningsmiljöer föreslås även. Approximation av mängden av Paretooptimala planer studeras även för direkt maskinparameteroptimering, som används för att beräkna representationer där varje interpolerad behandlingsplan är direkt levererbar. Det faktum att en ändlig representation av mängden av Paretooptimala lösningar har ett approximationsfel till Paretooptimalitet hanteras via en metod där en interpolerad behandlingsplan projiceras på Paretomängden. Projektioner studeras även under bivillkor som förhindrar att den interpolerade planens dos-volym histogram kan försämras. Flermålsoptimering utökas till planering av rotationsterapi och intensitetsmodulerad protonterapi. Protonplaner som är robusta mot geometriska fel beräknas genom optimering med avseende på det värsta möjliga utfallet av de föreliggande osäkerheterna. Flermålsoptimering utökas även teoretiskt till att innefatta denna formulering. Nyttan av värsta fallet-optimering jämfört med tidigare mer konservativa metoder som även skyddar mot osäkerheter som inte kan realiseras i praktiken demonstreras experimentellt. / <p>QC 20130527</p>

Optimization

multicriteria optimization

robust optimization

Pareto optimality

Pareto surface approximation

Pareto surface navigation

intensity-modulated radiation therapy

volumetric-modulated arc therapy

intensity-modulated proton therapy

Optimering

flermålsoptimering

robust optimering

Paretooptimalitet

Paretofrontsapproximation

Paretofrontsnavigering

intensitetsmodulerad strålterapi

rotationsterapi

intensitetsmodulerad protonterapi

Développement d'une technique de dosimétrie par gel de Fricke pour la vérification des plans en radiothérapie externe

Taghavi, SeyedehMarziyeh

04 1900

Dans ce travail, la dosimétrie par gel de Fricke est proposée comme méthode pour mesurer avec précision la distribution de dose tridimensionnelle des plans de radiothérapie. Ce mémoire examine la faisabilité d’utiliser cette méthode pour la dosimétrie des faisceaux de photons d’un accélérateur linéaire avec lecture du gel par IRM. Cette étude comprend le développement des dosimètres de Fricke à base de gel, le développement de méthodes d’étalonnage et leur utilisation pour la dosimétrie de plans de radiation complexes tel que l’arcthérapie volumétrique modulée utilisé en radiothérapie du cerveau entier avec préservation de l’hippocampe. Les propriétés dosimétriques du gel de Fricke, y compris la réponse des taux de relaxation R1 et R2 à la dose, la linéarité de la réponse, la diffusion des ions ferriques et un effet gravitationnel d’inhomogénéité des composantes du gel sont décrits dans ce mémoire. De plus, les aspects pratiques de la mise en œuvre de la dosimétrie par gel de Fricke dans un flux de travail d’assurance qualité des traitements cliniques ont été étudiés, ce qui inclut la préparation du gel, le recalage des données de planification de traitement avec ceux d'imagerie du gel et les séquences de lecture IRM. Les résultats de cette recherche démontrent le potentiel de la dosimétrie par gel de Fricke comme outil fiable pour mesurer avec précision la distribution de dose tridimensionnelle des plans cliniques en radio- oncologie. / In this work, Fricke gel dosimetry is proposed as a method to accurately measure the three- dimensional dose distribution of radiotherapy plans. This thesis examines the feasibility of using this method for the dosimetry of photon beams from a linear accelerator with reading of the gel by MRI. This study includes the development of gel-based Fricke dosimeters, the development of calibration methods and their use for the dosimetry of complex radiation planes such as volumetric modulated arc therapy used in whole-brain radiotherapy with preservation of hippocampus. The dosimetric properties of the Fricke gel, including the response of the relaxation rates R1 and R2 to the dose, the linearity of the response, the diffusion of ferric ions and a gravitational effect of inhomogeneity of the components of the gel are described in this dissertation. Additionally, the practical aspects of implementing Fricke gel dosimetry into a clinical delivery quality assurance workflow were investigated, which includes gel preparation, the registration of treatment planning data with those of gel imaging and MRI reading sequences. The results of this research demonstrate the potential of Fricke gel dosimetry as a reliable tool to accurately measure the three-dimensional dose distribution of clinical plans in radiation oncology.

Physique médicale

Dosimétrie

Dosimètre à base de gel

Gel de Fricke

Dosimètre tridimensionnel

Imagerie par résonance magnétique

Séquences de lecture IRM

Assurance qualité de la livraison

Arcthérapie volumétrique modulée

Medical physics

Dosimetry

Gel-based dosimeter

Fricke gel

Three-dimensional dosimetry

Magnetic resonance imaging

MRI reading sequences

Delivery quality assurance

Volumetric modulated arc therapy