Target volume concepts in radiotherapy and their implications for imaging

Successful radiotherapy requires precise localization of the tumor and requires high-quality imaging for developing a treatment plan. Irradiation of the tumor region, including a safety margin. The target volume consists of the gross tumor volume (GTV) containing visible parts of the tumor, the clin...

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Published in:	Radiologe Vol. 58; no. 8; pp. 708 - 721
Main Authors:	Burnet, N G, Noble, D J, Paul, A, Whitfield, G A, Delorme, S
Format:	Journal Article
Language:	German
Published:	Germany 01-08-2018
Subjects:	Humans Neoplasms - diagnostic imaging Radiotherapy Dosage Radiotherapy Planning, Computer-Assisted Radiotherapy, Conformal Tomography, X-Ray Computed Target volume definition Computed tomography Magnetic resonance imaging Radiotherapy Positron emission tomography
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Abstract	Successful radiotherapy requires precise localization of the tumor and requires high-quality imaging for developing a treatment plan. Irradiation of the tumor region, including a safety margin. The target volume consists of the gross tumor volume (GTV) containing visible parts of the tumor, the clinical target volume (CTV) covering the GTV plus invisible tumor extensions, and the planning target volume (PTV) to account for uncertainties. The non-GTV parts of the CTV are based on historical patient data. The PTV margins are based on a calculation of possible uncertainties during planning, setup, or treatment. Normal tissue deserves the identical care in contouring, since its tolerance may limit the tumor dose, taking into account the contours of organs at risk. Serial risk organs benefit from defining a planning organ of risk volume (PRV) to better limit the dose delivered to them. The better the imaging, the more reliable the definition of the GTV and treatment success will be. Multiple imaging sequences are desirable to support the delineation of the tumor. They may result in different CTVs that, depending on their tumor burden, may require different doses. The definition of standardized target volumes according to the ICRU reports 50, 62, and 83 forms the basis for an individualized radiation treatment planning according to unified criteria on a high-quality level. Radio-oncology is by nature interdisciplinary, the diagnostic radiologist being an indispensable team partner. A regular dialogue between the disciplines is pivotal for target volume definition and treatment success. Imaging for target volume definition requires highest quality imaging, the use of functional imaging methods and close cooperation with a diagnostic radiologist experienced in this field.
AbstractList	Successful radiotherapy requires precise localization of the tumor and requires high-quality imaging for developing a treatment plan. Irradiation of the tumor region, including a safety margin. The target volume consists of the gross tumor volume (GTV) containing visible parts of the tumor, the clinical target volume (CTV) covering the GTV plus invisible tumor extensions, and the planning target volume (PTV) to account for uncertainties. The non-GTV parts of the CTV are based on historical patient data. The PTV margins are based on a calculation of possible uncertainties during planning, setup, or treatment. Normal tissue deserves the identical care in contouring, since its tolerance may limit the tumor dose, taking into account the contours of organs at risk. Serial risk organs benefit from defining a planning organ of risk volume (PRV) to better limit the dose delivered to them. The better the imaging, the more reliable the definition of the GTV and treatment success will be. Multiple imaging sequences are desirable to support the delineation of the tumor. They may result in different CTVs that, depending on their tumor burden, may require different doses. The definition of standardized target volumes according to the ICRU reports 50, 62, and 83 forms the basis for an individualized radiation treatment planning according to unified criteria on a high-quality level. Radio-oncology is by nature interdisciplinary, the diagnostic radiologist being an indispensable team partner. A regular dialogue between the disciplines is pivotal for target volume definition and treatment success. Imaging for target volume definition requires highest quality imaging, the use of functional imaging methods and close cooperation with a diagnostic radiologist experienced in this field. CLINICAL ISSUESuccessful radiotherapy requires precise localization of the tumor and requires high-quality imaging for developing a treatment plan. STANDARD TREATMENTIrradiation of the tumor region, including a safety margin. TREATMENT INNOVATIONSThe target volume consists of the gross tumor volume (GTV) containing visible parts of the tumor, the clinical target volume (CTV) covering the GTV plus invisible tumor extensions, and the planning target volume (PTV) to account for uncertainties. The non-GTV parts of the CTV are based on historical patient data. The PTV margins are based on a calculation of possible uncertainties during planning, setup, or treatment. Normal tissue deserves the identical care in contouring, since its tolerance may limit the tumor dose, taking into account the contours of organs at risk. Serial risk organs benefit from defining a planning organ of risk volume (PRV) to better limit the dose delivered to them. DIAGNOSTIC WORK-UPThe better the imaging, the more reliable the definition of the GTV and treatment success will be. Multiple imaging sequences are desirable to support the delineation of the tumor. They may result in different CTVs that, depending on their tumor burden, may require different doses. PERFORMANCEThe definition of standardized target volumes according to the ICRU reports 50, 62, and 83 forms the basis for an individualized radiation treatment planning according to unified criteria on a high-quality level. ACHIEVEMENTSRadio-oncology is by nature interdisciplinary, the diagnostic radiologist being an indispensable team partner. A regular dialogue between the disciplines is pivotal for target volume definition and treatment success. PRACTICAL RECOMMENDATIONSImaging for target volume definition requires highest quality imaging, the use of functional imaging methods and close cooperation with a diagnostic radiologist experienced in this field.
Author	Whitfield, G A Delorme, S Noble, D J Paul, A Burnet, N G
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Snippet	Successful radiotherapy requires precise localization of the tumor and requires high-quality imaging for developing a treatment plan. Irradiation of the tumor... CLINICAL ISSUESuccessful radiotherapy requires precise localization of the tumor and requires high-quality imaging for developing a treatment plan. STANDARD...
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Title	Target volume concepts in radiotherapy and their implications for imaging
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