Paediatric strategy forum for medicinal product development in diffuse midline gliomas in children and adolescents ACCELERATE in collaboration with the European Medicines Agency with participation of the Food and Drug Administration.

IF 7.6 1区医学 Q1 ONCOLOGY

European Journal of Cancer Pub Date : 2025-01-13 DOI:10.1016/j.ejca.2025.115230

Andrew Dj Pearson, Sabine Mueller, Mariella G Filbin, Jacques Grill, Cynthia Hawkins, Chris Jones, Martha Donoghue, Nicole Drezner, Susan Weiner, Mark Russo, Matthew D Dun, Joshua E Allen, Marta Alonso, Ely Benaim, Vickie Buenger, Teresa de Rojas, Keith Desserich, Elizabeth Fox, John Friend, Julia Glade Bender, Darren Hargrave, Michael Jensen, Olga Kholmanskikh, Mark W Kieran, Holly Knoderer, Carl Koschmann, Giovanni Lesa, Franca Ligas, Nir Lipsman, Donna Ludwinski, Lynley Marshall, Joe McDonough, Adrian G McNicholl, David Mirsky, Michelle Monje, Karsten Nysom, Alberto Pappo, Amy Rosenfield, Nicole Scobie, Joan Slaughter, Malcolm Smith, Mark Souweidane, Karin Straathof, Lisa Ward, Brenda Weigel, Dmitry Zamoryakhin, Dominik Karres, Gilles Vassal

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引用次数: 0

Abstract

Fewer than 10 % of children with diffuse midline glioma (DMG) survive 2 years from diagnosis. Radiation therapy remains the cornerstone of treatment and there are no medicinal products with regulatory approval. Although the biology of DMG is better characterized, this has not yet translated into effective treatments. H3K27-alterations initiate the disease but additional drivers are required for malignant growth. Hence, there is an urgent unmet need to develop new multi-modality therapeutic strategies, including alternative methods of drug delivery. ONC201 (DRD2 antagonist and mitochondrial ClpP agonist) is the most widely evaluated investigational drug. Encouraging early data is emerging for CAR T-cells and oncolytic viruses. GD2, B7-H3 and PI3K signalling are ubiquitous targets across all subtypes and therapeutics directed to these targets would potentially benefit the largest number of children. PI3K, ACVR1, MAPK and PDGFRA pathways should be targeted in rational biological combinations. Drug discovery is a very high priority. New specific and potent epigenetic modifiers (PROTACS e.g. SMARCA4 degraders), with blood-brain penetrance are needed. Cancer neuroscience therapeutics are in early development. Overall survival is the preferred regulatory endpoint. However, the evaluation of this can be influenced by the use of re-irradiation at the time of progression. An efficient clinical trial design fit for regulatory purposes for the evaluation of new therapeutics would aid industry and facilitate more efficient therapy development. Challenges in conducting clinical trials such as the need for comparator data and defining endpoints, could be addressed through an international, first-in-child, randomised, complex innovative design trial. To achieve progress: i) drug discovery; ii) new multi-modality, efficient, collaborative, pre-clinical approaches, possibly including artificial intelligence and, iii) efficient clinical trial designs fit for regulatory purposes are required.

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儿童和青少年弥漫性中线胶质瘤药物开发儿科战略论坛 ACCELERATE，与欧洲药品管理局合作，食品和药物管理局参与。

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来源期刊

European Journal of Cancer 医学-肿瘤学

CiteScore

11.50

自引率

4.80%

发文量

953

审稿时长

23 days

期刊介绍： The European Journal of Cancer (EJC) serves as a comprehensive platform integrating preclinical, digital, translational, and clinical research across the spectrum of cancer. From epidemiology, carcinogenesis, and biology to groundbreaking innovations in cancer treatment and patient care, the journal covers a wide array of topics. We publish original research, reviews, previews, editorial comments, and correspondence, fostering dialogue and advancement in the fight against cancer. Join us in our mission to drive progress and improve outcomes in cancer research and patient care.