Pediatric normal tissue effects in the clinic (PENTEC): An international collaboration to analyse normal tissue radiation dose – Volume response relationships for paediatric cancer patients Journal Article


Authors: Constine, L. S.; Ronckers, C. M.; Hua, C. H.; Olch, A.; Kremer, L. C. M.; Jackson, A.; Bentzen, S. M.
Article Title: Pediatric normal tissue effects in the clinic (PENTEC): An international collaboration to analyse normal tissue radiation dose – Volume response relationships for paediatric cancer patients
Abstract: With advances in multimodality therapy, childhood cancer cure rates approach 80%. However, both radiotherapy and chemotherapy can cause debilitating or even fatal late adverse events that are critical to understand, mitigate or prevent. QUANTEC (Quantitative Analysis of Normal Tissue Effects in the Clinic) identified radiation dose constraints for normal tissues in adults and pointed out the uncertainties in those constraints. The range of adverse events seen in children is different from that in adults, in part due to the vulnerability/characteristics of radiation damage to developing tissues, and in part due to the typical body sites affected by childhood cancer that lead to collateral irradiation of somewhat different normal tissues and organs compared with adults. Many childhood cancer survivors have a long life expectancy and may develop treatment-induced secondary cancers and severe organ/tissue injury 10, 20 or more years after treatment. Collaborative long-term observational studies and clinical research programmes for survivors of paediatric and adolescent cancer provide adverse event data for follow-up periods exceeding 40 years. Data analysis is challenging due to the interaction between therapeutic and developmental variables, the lack of radiation dose–volume data and the fact that most childhood malignancies are managed with combined modality therapy. PENTEC (Pediatric Normal Tissue Effects in the Clinic) is a volunteer research collaboration of more than 150 physicians, medical physicists, mathematical modellers and epidemiologists organised into 18 organ-specific working groups conducting a critical review and synthesis of quantitative data from existing studies aiming to: (1) establish quantitative, evidence-based dose/volume/risk guidelines to inform radiation treatment planning and, in turn, improve outcomes after radiation therapy for childhood cancers; (2) explore the most relevant risk factors for toxicity, including developmental status; (3) describe specific physics and dosimetric issues relevant to paediatric radiotherapy; and (4) propose dose–volume outcome reporting standards for publications on childhood cancer therapy outcomes. The impact of other critical modifiers of normal tissue radiation damage, including chemotherapy, surgery, stem cell transplantation and underlying genetic predispositions are also considered. The aims of the PENTEC reports are to provide clinicians with an analysis of the best available data to make informed decisions regarding radiation therapy normal organ dose constraints for planning childhood cancer treatment, and to define future research priorities. © 2019 The Royal College of Radiologists
Keywords: cancer chemotherapy; treatment outcome; cancer risk; dose response; multimodality cancer therapy; treatment planning; cancer patient; radiation dose; follow up; stem cell transplantation; radiation injury; late effects; risk; quantitative analysis; survivorship; radiation therapy; decision making; genetic predisposition; radiation dose distribution; international cooperation; treatment guidelines; childhood cancer survivor; developmental toxicity; human; priority journal; article; paediatric cancer; pentec
Journal Title: Clinical Oncology
Volume: 31
Issue: 3
ISSN: 0936-6555
Publisher: Elsevier Science, Inc.  
Date Published: 2019-03-01
Start Page: 199
End Page: 207
Language: English
DOI: 10.1016/j.clon.2019.01.002
PUBMED: 30670336
PROVIDER: scopus
DOI/URL:
Notes: Article -- Export Date: 1 March 2019 -- Source: Scopus
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  1. Andrew Jackson
    170 Jackson