Biological mechanisms of normal tissue damage: Importance for the design of NTCP models
| Autor: | Angelica Facoetti, K.R. Trott, Andrea Ottolenghi, Johannes A. Langendijk, John W. Hopewell, Wolfgang Doerr, Peter van Luijk, V. Smyth |
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| Přispěvatelé: | Damage and Repair in Cancer Development and Cancer Treatment (DARE), Guided Treatment in Optimal Selected Cancer Patients (GUTS) |
| Rok vydání: | 2012 |
| Předmět: |
medicine.medical_specialty
RAT LUNG Time Factors medicine.medical_treatment Normal tissue Oropharynx Rectum Bioinformatics Dose per fraction Models Biological Salivary Glands 030218 nuclear medicine & medical imaging 03 medical and health sciences 0302 clinical medicine INJURY medicine Animals Humans Dose effect Radiology Nuclear Medicine and imaging TOLERANCE Radiation Injuries Lung Probability Radiobiological mechanisms PAROTID-GLAND Radiotherapy business.industry Mechanism (biology) Radiobiology Normal tissue complications Dose-Response Relationship Radiation Hematology IRRADIATION 3. Good health Surgery Radiation therapy medicine.anatomical_structure RADIATION MYELOPATHY Oncology 030220 oncology & carcinogenesis Organ at risk VOLUME MOUSE LUNG business Complication CERVICAL-SPINAL-CORD |
| Zdroj: | Radiotherapy and Oncology, 105(1), 79-85. ELSEVIER IRELAND LTD |
| ISSN: | 0167-8140 |
| Popis: | The normal tissue complication probability (NTCP) models that are currently being proposed for estimation of risk of harm following radiotherapy are mainly based on simplified empirical models, consisting of dose,distribution parameters, possibly combined with clinical or other treatment-related factors. These are fitted to data from retrospective or prospective clinical studies. Although these models sometimes provide useful guidance for clinical practice, their predictive power on individuals seems to be limited.This paper examines the radiobiological mechanisms underlying the most important complications induced by radiotherapy, with the aim of identifying the essential parameters and functional relationships needed for effective predictive NTCP models. The clinical features of the complications are identified and reduced as much as possible into component parts. In a second step, experimental and clinical data are considered in order to identify the gross anatomical structures involved, and which dose distributions lead to these complications. Finally, the pathogenic pathways and cellular and more specific anatomical parameters that have to be considered in this pathway are determined. This analysis is carried out for some of the most critical organs and sites in radiotherapy, i.e. spinal cord, lung, rectum, oropharynx and heart.Signs and symptoms of severe late normal tissue complications present a very variable picture in the different organs at risk. Only in rare instances is the entire organ the critical target which elicits the particular complication. Moreover, the biological mechanisms that are involved in the pathogenesis differ between the different complications, even in the same organ. Different mechanisms are likely to be related to different shapes of dose effect relationships and different relationships between dose per fraction, dose rate, and overall treatment time and effects. There is good reason to conclude that each type of late complication after radiotherapy depends on its own specific mechanism which is triggered by the radiation exposure of particular structures or sub-volumes of (or related to) the respective organ at risk. Hence each complication will need the development of an NTCP model designed to accommodate this structure. (C) 2012 Elsevier Ireland Ltd. All rights reserved. Radiotherapy and Oncology 105 (2012) 79-85 |
| Databáze: | OpenAIRE |
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