Difference between revisions of "Repository"
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'''About This Webpage''' | '''About This Webpage''' | ||
| − | This webpage has been created to share concepts and data | + | This webpage has been created to share concepts and data generated within the framework of microdosimetry research carried out using the ion beams of the MedAustron facility. The original research groups involved, listed here in alphabetical order: MedAustron, Medizinische Universität Wien, and Technische Universität Wien, have collaborated with numerous international partners to adapt microdosimetry to the specific physical characteristics and clinical requirements of ion beams. |
| − | All participating groups recognize the importance of data sharing and the value of critical discussion for advancing | + | All participating groups recognize the importance of open data sharing and the value of critical scientific discussion for advancing the field. Below, you will find a set of tools and resources intended to support these developments and to facilitate further contributions from the broader community. |
| + | == TOPICS ABOUT MICRODOSIMETRY IN ION-BEAM THERAPY == | ||
| + | This collection presents procedural and experimental contributions that help define microdosimetry within the framework of ion beam therapy. Each chapter addresses a specific topic using a step‑by‑step approach, in which one or more contributors articulate a viewpoint intended to stimulate further discussion. The goal is to encourage a broad spectrum of ideas, including diverse and potentially contrasting perspectives. | ||
| + | To ensure clarity and maintain focus, the material is organized into distinct contributions, each conceived as an self‑contained chapter. These chapters are designed to evolve over time, shaped by contributions and feedback from the wider scientific community. Input can be provided through direct discussions with the authors, written submissions, or, when feasible, expanded through live debates. Following these exchanges, the chapters are revised to reflect either a convergence toward a shared understanding or a clear delineation of differing viewpoints. | ||
| − | == | + | ===='''Chapter White''' - Scope. [[:File:Chapter White - Scope.docx|Chapter White]] ==== |
| − | ==== | + | ===='''Chapter Red''' - Definitions. [[:File:Chapter Red-Definitions .docx|Chapter Red]] ==== |
| − | ==== | + | ===='''Chapter Green''' - Stochastic nature of radiation interactions. [[:File:Chapter Green-Stochasticity 0.1.docx|Chapter Green]] ==== |
| − | + | ===='''Chapter Grey''' - Questions and Answers in various topics. [[:File:Chapter Grey-Questions&Answers 0.1.docx|Chapter Grey]] ==== | |
| − | |||
| + | Additional chapters to be written | ||
| + | |||
| − | == | + | == MICRODOSIMETRY: DATA == |
| − | |||
| − | + | === RAW DATA: === | |
| − | ''' | + | # '''First microdosimetric measurements in two clinical helium ion beam lines using a solid-state detector''', under submission |
| − | + | The data is available [[:File:Barna et al 2026 Helium Silicon data.xlsx|here]] for the MedAustron and HIT (Heidelberg Ionentherapiezentrum) beam lines at selected depths of a 150.6 Mev/u (R80 155.1 mm) helium ion beam. The data was collected during different shifts, which is why different linearizations (given in keV/µm) are available, MG stands for medium gain and HG for high gain. | |
| − | + | == MICRODOSIMETRY: COMPUTATIONAL TOOLS == | |
| − | + | === CODES: === | |
| + | ====='''1. Python code Distribution of Energy lost''''':''===== | ||
| − | + | Visualizing of the density distributions of energy loss in various materials.[[:File:Distribution of the energy lost 5Sept2025.docx|Download Python code]]. The code uses Stopping Power and Range tables from the files ([[:File:StPowRange_proton.xlsx|StPowRange_proton.xlsx,]] [[:File:StPowRange_carbon-ion.xlsx|StPowRange_carbon-ion.xlsx]]) which must be converted to CSV format and placed in the folder "inputFiles" to be accessed by the code. | |
| − | |||
| − | == INTELLECTUAL | + | == INTELLECTUAL PROPERTY STATEMENT: == |
''"These documents and files are the result of collaborative research conducted by the undersigned authors. All intellectual property rights associated with the content herein remain with MedAustron and the Institutions of other contributing authors, and any use, reproduction, or distribution must be authorized by those institutions"'' | ''"These documents and files are the result of collaborative research conducted by the undersigned authors. All intellectual property rights associated with the content herein remain with MedAustron and the Institutions of other contributing authors, and any use, reproduction, or distribution must be authorized by those institutions"'' | ||
Latest revision as of 15:21, 17 February 2026
About This Webpage
This webpage has been created to share concepts and data generated within the framework of microdosimetry research carried out using the ion beams of the MedAustron facility. The original research groups involved, listed here in alphabetical order: MedAustron, Medizinische Universität Wien, and Technische Universität Wien, have collaborated with numerous international partners to adapt microdosimetry to the specific physical characteristics and clinical requirements of ion beams.
All participating groups recognize the importance of open data sharing and the value of critical scientific discussion for advancing the field. Below, you will find a set of tools and resources intended to support these developments and to facilitate further contributions from the broader community.
TOPICS ABOUT MICRODOSIMETRY IN ION-BEAM THERAPY
This collection presents procedural and experimental contributions that help define microdosimetry within the framework of ion beam therapy. Each chapter addresses a specific topic using a step‑by‑step approach, in which one or more contributors articulate a viewpoint intended to stimulate further discussion. The goal is to encourage a broad spectrum of ideas, including diverse and potentially contrasting perspectives.
To ensure clarity and maintain focus, the material is organized into distinct contributions, each conceived as an self‑contained chapter. These chapters are designed to evolve over time, shaped by contributions and feedback from the wider scientific community. Input can be provided through direct discussions with the authors, written submissions, or, when feasible, expanded through live debates. Following these exchanges, the chapters are revised to reflect either a convergence toward a shared understanding or a clear delineation of differing viewpoints.
Chapter White - Scope. Chapter White
Chapter Red - Definitions. Chapter Red
Chapter Green - Stochastic nature of radiation interactions. Chapter Green
Chapter Grey - Questions and Answers in various topics. Chapter Grey
Additional chapters to be written
MICRODOSIMETRY: DATA
RAW DATA:
- First microdosimetric measurements in two clinical helium ion beam lines using a solid-state detector, under submission
The data is available here for the MedAustron and HIT (Heidelberg Ionentherapiezentrum) beam lines at selected depths of a 150.6 Mev/u (R80 155.1 mm) helium ion beam. The data was collected during different shifts, which is why different linearizations (given in keV/µm) are available, MG stands for medium gain and HG for high gain.
MICRODOSIMETRY: COMPUTATIONAL TOOLS
CODES:
1. Python code Distribution of Energy lost:
Visualizing of the density distributions of energy loss in various materials.Download Python code. The code uses Stopping Power and Range tables from the files (StPowRange_proton.xlsx, StPowRange_carbon-ion.xlsx) which must be converted to CSV format and placed in the folder "inputFiles" to be accessed by the code.
INTELLECTUAL PROPERTY STATEMENT:
"These documents and files are the result of collaborative research conducted by the undersigned authors. All intellectual property rights associated with the content herein remain with MedAustron and the Institutions of other contributing authors, and any use, reproduction, or distribution must be authorized by those institutions"