Your search keyword '"Nicole, Scobie"' showing total 17 results

1. Intercontinental collaboration in clinical trials for children and adolescents with cancer—A systematic review by ACCELERATE

Author

Teresa deRojas, Andrew J. Pearson, Nicole Scobie, Leona Knox, Darshan Wariabharaj, Pamela Kearns, Gilles Vassal, and Gregory Reaman

Subjects

adolescent cancer, childhood cancer, clinical research, clinical trials, drug development, international collaboration, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Since pediatric cancer drug development is a global enterprise, we sought to provide an overview of the landscape of intercontinental clinical trials in pediatric oncology opened over the last decade. Methods ClinicalTrials.gov was systematically searched to identify all clinical therapeutic trials which opened between 2010 and 2020 and recruited pediatric patients (

Published

2021

2. Setting international standards for patient and parent involvement and engagement in childhood, adolescent and young adult cancer research: A report from a European Collaborative Workshop

Author

Angela Polanco, Reem Al‐Saadi, Suzanne Tugnait, Nicole Scobie, and Kathy Pritchard‐Jones

Subjects

childhood cancer, Europe, paediatric oncology, parents, patient and public involvement and engagement, strategy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Patient and Public Involvement and Engagement (PPIE) in research, advocates for research conducted ‘with’ not ‘for’ the affected population. In paediatric oncology research, the parents of children, adolescents and young adults affected by cancer are represented by the term ‘public’ in the acronym PPIE. Patients (those with cancer and cancer survivors) are also passionate advocates who drive forward the research priorities of children, adolescents and young adults throughout the entire research process. Aims A workshop was held at an international professional meeting in 2019 with the aim to define Patient and Parent Involvement and Engagement (PPIE); capture PPIE activities on a European level; and to explore the role of PPIE in non‐interventional research. A proposed framework for a European PPIE strategy for childhood, adolescent and young adult cancers was also discussed. Methods The 60‐minute workshop was attended by health care professionals, researchers, scientists, parents, survivors and charity/support organisations. A presentation to define PPIE, including the difference in terminology for PPIE in the context of childhood, adolescent, and young adult cancers was discussed. Best practice examples from the United Kingdom (UK) helped to demonstrate the positive impact of PPIE in paediatric oncology research. Three breakout groups then explored themes relating to PPIE, namely PPIE priorities, PPIE mapping for Europe, and PPIE in non‐interventional research and data‐linkage. Results Disparity in PPIE activities across Europe was evident, with ambiguity surrounding terminology and expected roles for PPIE representatives in paediatric oncology research. A lack of PPIE activity in Eastern Europe correlated with a lack of availability for clinical trials and poorer survival rates for paediatric oncology patients. There was unanimous support for PPIE embedded research in all areas, including in non‐interventional studies. Conclusion A European‐level definition of PPIE for paediatric oncology research is needed. Further exploration into the role and responsibilities of patients, parents, and professionals when undertaking PPIE related activities is also recommended. Best practice examples from the UK, France, Germany, The Netherlands and Belgium demonstrated a preliminary evidence base from which a European PPIE strategy framework can be designed, inclusive of the patient and parent voice.

Published

2022

3. Paediatric Strategy Forum for medicinal product development in mitogen-activated protein kinase pathway inhibitors

Author

Andrew DJ. Pearson, Carl Allen, Jason Fangusaro, Caroline Hutter, Olaf Witt, Susan Weiner, Gregory Reaman, Mark Russo, Pratiti Bandopadhayay, Sama Ahsan, Amy Barone, Elly Barry, Teresa de Rojas, Michael Fisher, Elizabeth Fox, Julia Glade Bender, Lia Gore, Darren Hargrave, Doug Hawkins, Brent Kreider, Abraham J. Langseth, Giovanni Lesa, Franca Ligas, Marcelo Marotti, Lynley V. Marshall, Kahina Nasri, Koen Norga, Karsten Nysom, Alberto Pappo, Gianluca Rossato, Nicole Scobie, Malcolm Smith, Elliot Stieglitz, Brenda Weigel, Amy Weinstein, Ruth Viana, Dominik Karres, and Gilles Vassal

Subjects

Cancer Research, Oncology

Published

2022

4. Global effort to evacuate Ukrainian children with cancer and blood disorders who have been affected by war

Author

Asya Agulnik, Roman Kizyma, Marta Salek, Marcin W Wlodarski, Mikhail Pogorelyy, Aleksandra Oszer, Taisiya Yakimkova, Yuliya Nogovitsyna, Malgorzata Dutkiewicz, Jean-Hugues Dalle, Uta Dirksen, Angelika Eggert, Ana Fernández-Teijeiro, Jeanette Greiner, Kathelijne Kraal, Alexandra Mueller, Lucie Sramkova, Marco Zecca, Paul H Wise, Wojciech Mlynarski, Meghana Avula, Mykhaylo V Adyrov, Pablo Berlanga, Christopher Andrew Blackwood, Eric Bouffet, Piotr Stefan Czauderna, Linda A de Koning, Nuno Jorge dos Reis Farinha, Whitney Baer Foster, Dylan Elizabeth Graetz, Sumit Gupta, Wolfgang Holter, Rachael Emma Hough, Khrystyna Kliuchkivska, Alexandra Kolenova, Julia Kołodrubiec, Daniel C Moreira, Sheena Teresa Mukkada, Iryna Mykychak, Anna Raciborska, Zeena S Salman, Andriy Sopilnyak, Sergiy Tyupa, Anna Vinitsky, Natalia Margarete Wobst, Beth Anne Miller, Suheir Subhi Rasul, Carlos Rodriguez-Galindo, Inna Alanbousi, Sarah Weeks Alexander, Anna Apel, Wioletta Anna Bal, Walentyna Aniela Balwierz, Luisa Basset-Salom, Daniel Bastardo Blanco, Karolina Jadwiga Bauer, Ildar T Bayazitov, Nickhill Hitesh Bhakta, Ewa Iwona Bien, Katarzyna Anna Bieniek, Sally Jane Blair, Khrystyna Ihorivna Bodak, Irina Michael Bordeianu, Joao Maria Braganca, Mihaela Silvia Bucurenci, Elżbieta Beata Budny, Andrii Budzyn, Christopher Carl Bumgardner, Raina Nichole Burditt, Victoria Grace Burnside Clapp, Viacheslav Bykov, Adela Cañete, Monica Carnelli, Elena Cela, Zuzanna Paulina Cepowska, Radoslaw Chaber, Anna Cherner-Drieux, Mariya Chubata, Heidi M Clough, Jolanta Czernicka - Siwecka, Krzysztof Czyzewski, Olha Dashchakovska, Bozenna Malgorzata Dembowska-Baginska, Katarzyna Derwich, Rachel Dommett, Olha Dorosh, Katarzyna Anna Drabko, Monica Desiree Dragomir, Michael Dworzak, Sergii Dyma, Julian Darocus Earl, Martin William English, Dmitry A Evseev, Becky S Farren, Nataliia Fedyk, Severyn Ferneza, Leeanna Elizabeth Fox Irwin, Robert Maciej Gałązkowski, Galyna Ganieva, Vasylyna Garanzha, Marina S Gelman, Jan Krzysztof Godzinski, Anne Francoise Goeres, Rodica Golban, Michael J Griksaitis, Michal Andrzej Hampel, Sara Grace Hastings, Delphine Liliane Heenen, Marcela C Hill, Igor Holiuk, Lukasz Marek Hutnik, Ninela Irga-Jaworska, Oleksandr Istomin, Szymon Lech Janczar, Arman Kacharian, Krzysztof Kalwak, Grażyna Malgorzata Karolczyk, Nataliia Mikolaivna Karpenko, Halyna Katsubo, Bernarda Jadwiga Kaznowska, Alex Kentsis, Petra Ketteler, Anita Kienesberger, Roman Kiselev, Zoryana Kizyma, Hryhorii Klymniuk, Yuliia Kostiuk, Tomasz Kowalik, Olena Kozlova, Vladyslav Kozubenko, Tetyana Kramar, Maryna Krawczuk-Rybak, Irina Kulemzina, Paulina Kurkowska, Andriy S Kuzyk, Ruth Lydia Ladenstein, Pawel Jozef Laguna, Alvaro Lassaletta, Kai Lehmberg, Oksana Leontieva, Serhii Liashenko, Loizos G Loizou, Sonia Anna Lucchetta, Matthew William Lupo, Lesya Lysytsia, Oleksandr Lysytsia, Katarzyna Anna Machnik, Jeff A Mainland, Katarzyna Ewa Matczak, Michal Jacek Matysiak, Pierre Mayeur, Anastasia A Minervina, Volha Mishkova, Agnieszka Joanna Mizia-Malarz, Andres Morales La Madrid, Lucas Moreno, Vadim P Moskvin, Katarzyna Maria Muszyńska-Rosłan, Akoya Janae Nelson, Tomasz Ociepa, Stefano Oltolini, Nataliia Onipko, Andrew Pappas, Amit B Patel, Alina Patrahau, Jennifer L Pauley, Yehor Pavlenko, Andrij Pavlovych, Jarosław Peregud-Pogorzelski, Marta Perek-Polnik, Vanesa Perez, Antonio Perez-Martinez, Yana Pikman, Graziano Pitozzi, Rui Gentil Portugal, Victoria Vita Posternak, Arcangelo Prete, Kathy Pritchard-Jones, Alessandra Radaelli, Tegan Reeves, Dirk Reinhardt, Andrey V Reshetnyak, Andrew Jacob Rider, Carmelo Rizzari, Damiano Rizzi, Karen Gabriela Rodriguez Hermosillo, Olena Ronenko, Aneta Olga Rostowska, Liudmyla Rudko, Firas Mohamed Sakaan, Nadezhda Sakhar, Natallia N Savva, Davide Scaccaglia, Elizabeth Hawthorne Schaeffer, Carina Ursula Schneider, Nicole Scobie, Olena Semeniuk, Roksoliana Shevchyk, Ana I Shuler, Stanislav Shvets, Szymon Pawel Skoczen, William John Smeal, Igor Sokolowski, Anna A Sonkin, Alla Ivanivna Stepanjuk, Andrea Spota, Jaroslav Sterba, Jan Styczynski, Olha Svintsova, Andriy V Synyuta, Tomasz Szczepanski, Paweł Kukiz Szczucinski, Bartosz Miroslaw Szmyd, Maria Tasso Cereceda, Alina Teliuk, Iwona Tomanek, Phoebe Topping, Montserrat Torrent, Joanna Trelińska, Olha Troyanovska, Elena Trubnikova, Lyudmila G Tsurkan, Iryna Tsymbalyuk-Voloshyn, Tomasz Franciszek Urasinski, Agnieszka Urbanek-Dadela, Nataliia Vasilieva, Aksana Vasilyeva, Jaime Verdú-Amorós, Natalia Vilcu-Bajurean, Leo Vinitsky, Giovanni Volpe, Oksana Vorobel, Jacek Tadeusz Wachowiak, Marcin Slawomir Wasiak, Lance Allan Wiedower, Lena Isolde Wuenschel, Mariusz Stanislaw Wysocki, Marina Yurieva, Anastasiia Zagurska, Stanislav S Zakharenko, Aelita V Zakharenko, Khrystyna Zapotochna, Joanna Emilia Zawitkowska, Agulnik, A, Kizyma, R, Salek, M, Wlodarski, M, Pogorelyy, M, Oszer, A, Yakimkova, T, Nogovitsyna, Y, Dutkiewicz, M, Dalle, J, Dirksen, U, Eggert, A, Fernandez-Teijeiro, A, Greiner, J, Kraal, K, Mueller, A, Sramkova, L, Zecca, M, Wise, P, Mlynarski, W, Avula, M, Adyrov, M, Berlanga, P, Blackwood, C, Bouffet, E, Czauderna, P, de Koning, L, dos Reis Farinha, N, Foster, W, Graetz, D, Gupta, S, Holter, W, Hough, R, Kliuchkivska, K, Kolenova, A, Kolodrubiec, J, Moreira, D, Mukkada, S, Mykychak, I, Raciborska, A, Salman, Z, Sopilnyak, A, Tyupa, S, Vinitsky, A, Wobst, N, Miller, B, Rasul, S, Rodriguez-Galindo, C, Alanbousi, I, Alexander, S, Apel, A, Bal, W, Balwierz, W, Basset-Salom, L, Bastardo Blanco, D, Bauer, K, Bayazitov, I, Bhakta, N, Bien, E, Bieniek, K, Blair, S, Bodak, K, Bordeianu, I, Braganca, J, Bucurenci, M, Budny, E, Budzyn, A, Bumgardner, C, Burditt, R, Burnside Clapp, V, Bykov, V, Canete, A, Carnelli, M, Cela, E, Cepowska, Z, Chaber, R, Cherner-Drieux, A, Chubata, M, Clough, H, Czernicka - Siwecka, J, Czyzewski, K, Dashchakovska, O, Dembowska-Baginska, B, Derwich, K, Dommett, R, Dorosh, O, Drabko, K, Dragomir, M, Dworzak, M, Dyma, S, Earl, J, English, M, Evseev, D, Farren, B, Fedyk, N, Ferneza, S, Fox Irwin, L, Galazkowski, R, Ganieva, G, Garanzha, V, Gelman, M, Godzinski, J, Goeres, A, Golban, R, Griksaitis, M, Hampel, M, Hastings, S, Heenen, D, Hill, M, Holiuk, I, Hutnik, L, Irga-Jaworska, N, Istomin, O, Janczar, S, Kacharian, A, Kalwak, K, Karolczyk, G, Karpenko, N, Katsubo, H, Kaznowska, B, Kentsis, A, Ketteler, P, Kienesberger, A, Kiselev, R, Kizyma, Z, Klymniuk, H, Kostiuk, Y, Kowalik, T, Kozlova, O, Kozubenko, V, Kramar, T, Krawczuk-Rybak, M, Kulemzina, I, Kurkowska, P, Kuzyk, A, Ladenstein, R, Laguna, P, Lassaletta, A, Lehmberg, K, Leontieva, O, Liashenko, S, Loizou, L, Lucchetta, S, Lupo, M, Lysytsia, L, Lysytsia, O, Machnik, K, Mainland, J, Matczak, K, Matysiak, M, Mayeur, P, Minervina, A, Mishkova, V, Mizia-Malarz, A, Morales La Madrid, A, Moreno, L, Moskvin, V, Muszynska-Roslan, K, Nelson, A, Ociepa, T, Oltolini, S, Onipko, N, Pappas, A, Patel, A, Patrahau, A, Pauley, J, Pavlenko, Y, Pavlovych, A, Peregud-Pogorzelski, J, Perek-Polnik, M, Perez, V, Perez-Martinez, A, Pikman, Y, Pitozzi, G, Portugal, R, Posternak, V, Prete, A, Pritchard-Jones, K, Radaelli, A, Reeves, T, Reinhardt, D, Reshetnyak, A, Rider, A, Rizzari, C, Rizzi, D, Rodriguez Hermosillo, K, Ronenko, O, Rostowska, A, Rudko, L, Sakaan, F, Sakhar, N, Savva, N, Scaccaglia, D, Schaeffer, E, Schneider, C, Scobie, N, Semeniuk, O, Shevchyk, R, Shuler, A, Shvets, S, Skoczen, S, Smeal, W, Sokolowski, I, Sonkin, A, Stepanjuk, A, Spota, A, Sterba, J, Styczynski, J, Svintsova, O, Synyuta, A, Szczepanski, T, Szczucinski, P, Szmyd, B, Tasso Cereceda, M, Teliuk, A, Tomanek, I, Topping, P, Torrent, M, Trelinska, J, Troyanovska, O, Trubnikova, E, Tsurkan, L, Tsymbalyuk-Voloshyn, I, Urasinski, T, Urbanek-Dadela, A, Vasilieva, N, Vasilyeva, A, Verdu-Amoros, J, Vilcu-Bajurean, N, Vinitsky, L, Volpe, G, Vorobel, O, Wachowiak, J, Wasiak, M, Wiedower, L, Wuenschel, L, Wysocki, M, Yurieva, M, Zagurska, A, Zakharenko, S, Zakharenko, A, Zapotochna, K, and Zawitkowska, J

Subjects

Neoplasms, Medizin, Ethnicity, cancer, Humans, war, MED/38 - PEDIATRIA GENERALE E SPECIALISTICA, Hematology, Child, Hematologic Diseases, blood disorder

Published

2022

5. When Innovation and Commercialization Collide: A Patient Advocate View in Neuroblastoma

Author

Donna Ludwinski, Patricia Blanc, Antonia Palmer, Nicole Scobie, Leona Knox, Delphine Heenen, and Nicholas Bird

Subjects

Cancer Research, Cost-Benefit Analysis, MEDLINE, Patient Advocacy, Commercialization, Drug Costs, Neuroblastoma, Antineoplastic Agents, Immunological, Rare Diseases, Drug Development, Gangliosides, Humans, Medicine, Drug Approval, business.industry, Therapies, Investigational, Age Factors, Commerce, medicine.disease, Treatment Outcome, Oncology, Engineering ethics, Immunotherapy, Diffusion of Innovation, business

Published

2022

6. Paediatric Strategy Forum for medicinal product development of chimeric antigen receptor T-cells in children and adolescents with cancer

Author

Elizabeth Fox, Michael Berntgen, Alfonso Quintás-Cardama, Veronique Minard-Colin, Susan L. Weiner, André Baruchel, Laura Pearce, Karsten Nysom, Andrew D.J. Pearson, Danielle H. Taylor, Christian M. Zwaan, Nirali N. Shah, Yousif Matloub, Ivan D. Horak, Gregory H. Reaman, Gilles Vassal, Koen Norga, Claudia Rossig, Dominik Karres, Lori A. Ehrlich, Martina Schüßler-Lenz, Alberto S. Pappo, Joe McDonough, Martina A. Sersch, Nick Richardson, Donna Ludwinski, Abraham Bassan, Eric Bleickardt, Nicole Scobie, Stephen Gottschalk, Rob Pieters, Sarah K. Tasian, Courtney Johnson, Teresa de Rojas, Malcolm A. Smith, Franca Ligas, Lynley V. Marshall, Shannon L. Maude, Brenda J. Weigel, Nick Bird, Najat Bouchkouj, Behzad K. Masouleh, Sarah Beaussant Cohen, Delphine Heenen, Rosanna Ricafort, G. Lesa, Linda Hanssens, Peter F. Bross, Carrie Brownstein, Crystal L. Mackall, Martin Pule, Douglas S. Hawkins, Jaroslav Sterba, and Maksim Mamonkin

Subjects

0303 health sciences, Cancer Research, medicine.medical_specialty, education.field_of_study, medicine.medical_treatment, Population, Immunotherapy, Disease, Chimeric antigen receptor, 3. Good health, Transplantation, Cell therapy, Clinical trial, 03 medical and health sciences, 0302 clinical medicine, Oncology, Drug development, hemic and lymphatic diseases, 030220 oncology & carcinogenesis, medicine, Intensive care medicine, education, 030304 developmental biology

Abstract

The seventh multi-stakeholder Paediatric Strategy Forum focused on chimeric antigen receptor (CAR) T-cells for children and adolescents with cancer. The development of CAR T-cells for patients with haematological malignancies, especially B-cell precursor acute lymphoblastic leukaemia (BCP-ALL), has been spectacular. However, currently, there are scientific, clinical and logistical challenges for use of CAR T-cells in BCP-ALL and other paediatric malignancies, particularly in acute myeloid leukaemia (AML), lymphomas and solid tumours. The aims of the Forum were to summarise the current landscape of CAR T-cell therapy development in paediatrics, too identify current challenges and future directions, with consideration of other immune effector modalities and ascertain the best strategies to accelerate their development and availability to children. Although the effect is of limited duration in about half of the patients, anti-CD19 CAR T-cells produce high response rates in relapsed/refractory BCP-ALL and this has highlighted previously unknown mechanisms of relapse. CAR T-cell treatment as first- or second-line therapy could also potentially benefit patients whose disease has high-risk features associated with relapse and failure of conventional therapies. Identifying patients with very early and early relapse in whom CAR T-cell therapy may replace haematopoietic stem cell transplantation and be definitive therapy versus those in whom it provides a more effective bridge to haematopoietic stem cell transplantation is a very high priority. Development of approaches to improve persistence, either by improving T cell fitness or using more humanised/fully humanised products and co-targeting of multiple antigens to prevent antigen escape, could potentially further optimise therapy. Many differences exist between paediatric B-cell non-Hodgkin lymphomas (B-NHL) and BCP-ALL. In view of the very small patient numbers with relapsed lymphoma, careful prioritisation is needed to evaluate CAR T-cells in children with Burkitt lymphoma, primary mediastinal B cell lymphoma and other NHL subtypes. Combination trials of alternative targets to CD19 (CD20 or CD22) should also be explored as a priority to improve efficacy in this population. Development of CD30 CAR T-cell immunotherapy strategies in patients with relapsed/refractory Hodgkin lymphoma will likely be most efficiently accomplished by joint paediatric and adult trials. CAR T-cell approaches are early in development for AML and T-ALL, given the unique challenges of successful immunotherapy actualisation in these diseases. At this time, CD33 and CD123 appear to be the most universal targets in AML and CD7 in T-ALL. The results of ongoing or planned first-in-human studies are required to facilitate further understanding. There are promising early results in solid tumours, particularly with GD2 targeting cell therapies in neuroblastoma and central nervous system gliomas that represent significant unmet clinical needs. Further understanding of biology is critical to success. The comparative benefits of autologous versus allogeneic CAR T-cells, T-cells engineered with T cell receptors T-cells engineered with T cell receptor fusion constructs, CAR Natural Killer (NK)-cell products, bispecific T-cell engager antibodies and antibody-drug conjugates require evaluation in paediatric malignancies. Early and proactive academia and multi-company engagement are mandatory to advance cellular immunotherapies in paediatric oncology. Regulatory advice should be sought very early in the design and preparation of clinical trials of innovative medicines, for which regulatory approval may ultimately be sought. Aligning strategic, scientific, regulatory, health technology and funding requirements from the inception of a clinical trial is especially important as these are very expensive therapies. The model for drug development for cell therapy in paediatric oncology could also involve a ‘later stage handoff’ to industry after early development in academic hands. Finally, and very importantly, strategies must evolve to ensure appropriate ease of access for children who need and could potentially benefit from these therapies.

Published

2022

7. Second Paediatric Strategy Forum for anaplastic lymphoma kinase (ALK) inhibition in paediatric malignancies

Author

Lynley V. Marshall, Brenda J. Weigel, G. Lesa, Joe McDonough, Malcolm A. Smith, Gudrun Schleiermacher, Nick Bird, Franca Ligas, Elly Barry, Yael P. Mosse, D Valteau, Eric J. Lowe, Nicholas Richardson, François Doz, Meredith S. Irwin, Zachary Franklin Zimmerman, Toby Trahair, Koen Norga, Sonia Singh, Martha Donoghue, Steven G. DuBois, Susan L. Weiner, Michela Casanova, Giovanni Selvaggi, Andrew D.J. Pearson, Dominik Karres, Yousif Matloub, Keith D. Wilner, Teresa de Rojas, Nicole Scobie, Rajkumar Venkatramani, Gilles Vassal, H.N. Caron, Amar Gajjar, Amy Barone, Patricia Blanc, Margret Merino, Diana Bradford, Gregory H. Reaman, Willi Woessmann, Elizabeth Fox, Vickie Buenger, Julie Park, and Karsten Nysom

Subjects

Oncology, Cancer Research, medicine.medical_specialty, Brigatinib, Crizotinib, business.industry, medicine.drug_class, Inflammatory myofibroblastic tumour, medicine.disease, Clinical trial, ALK inhibitor, Drug development, hemic and lymphatic diseases, Internal medicine, medicine, Anaplastic lymphoma kinase, business, Anaplastic large-cell lymphoma, medicine.drug

Abstract

The first (2017) and sixth (2021) multistakeholder Paediatric Strategy Forums focused on anaplastic lymphoma kinase (ALK) inhibition in paediatric malignancies. ALK is an important oncogene and target in several paediatric tumours (anaplastic large cell lymphoma [ALCL], inflammatory myofibroblastic tumour [IMT], neuroblastoma and hemispheric gliomas in infants and young children) with unmet therapeutic needs. ALK tyrosine kinase inhibitors have been demonstrated to be active both in ALK fusion-kinase positive ALCL and IMT. ALK alterations differ, with fusions occurring in ALCL, IMT and gliomas, and activating mutations and amplification in neuroblastoma. While there are many ALK inhibitors in development, the number of children diagnosed with ALK driven malignancies is very small. The objectives of this ALK Forum were to (i) Describe current knowledge of ALK biology in childhood cancers; (ii) Provide an overview of the development of ALK inhibitors for children; (iii) Identify the unmet needs taking into account planned or current ongoing trials; (iv) Conclude how second/third-generation inhibitors could be evaluated and prioritised; (v) Identify lessons learnt from the experience with ALK inhibitors to accelerate the paediatric development of other anti-cancer targeted agents in the new regulatory environments. There has been progress over the last four years, with more trials of ALK inhibitors opened in paediatrics and more regulatory submissions. In January 2021, the US Food and Drug Administration approved crizotinib for the treatment of paediatric and young adult patients with relapsed or refractory ALCL and there are paediatric investigation plans (PIPs) for brigatinib and for crizotinib in ALCL and IMT. In ALCL, the current goal is to investigate the inclusion of ALK inhibitors in front-line therapy with the aim of decreasing toxicity with higher/similar efficacy compared to present first-line therapies. For IMT, the focus is to develop a joint prospective trial with one product in children, adolescents and adults, taking advantage of the common biology across the age spectrum. As approximately 50% of IMTs are ALK-positive, molecular analysis is required to identify patients to be treated with an ALK inhibitor. For neuroblastoma, crizotinib has not shown robust anti-tumour activity. A focused and sequential development of ALK inhibitors with very good central nervous system (CNS) penetration in CNS tumours with ALK fusions should be undertaken. The Forum reinforced the strong need for global academic collaboration, very early involvement of regulators with studies seeking possible registration and early academia-multicompany engagement. Innovations in study design and conduct and the use of ‘real-world data’ supporting development in these rare sub-groups of patients for whom randomised clinical trials are not feasible are important initiatives. A focused and sequenced development strategy, where one product is evaluated first with other products being assessed sequentially, is applicable for ALK inhibitors and other medicinal products in children.

Published

2021

8. ACCELERATE Paediatric Strategy Forums: an advance for oncological drug development?

Author

Andrew D J Pearson, Teresa de Rojas, Dominik Karres, Gregory Reaman, Nicole Scobie, Elizabeth Fox, Giovanni Lesa, Franca Ligas, Koen Norga, Karsten Nysom, Alberto Pappo, Brenda Weigel, Susan Weiner, and Gilles Vassal

Subjects

Internet, Oncology, Drug Development, Humans, Human medicine, Child, Medical Oncology

Published

2022

9. Paediatric Strategy Forum for medicinal product development for acute myeloid leukaemia in children and adolescents

Author

Elly Barry, Gilles Vassal, Thomas Winkler, Gregory H. Reaman, Kerri Nottage, Anne Borgman, Florence Binlich, Dirk Reinhardt, Jan-Henning Klusmann, Delphine Heenen, C. Michel Zwaan, Silvia Mappa, Bouchra Benettaib, Koen Norga, Su Young Kim, Gertjan J.L. Kaspers, Malcolm A. Smith, Peter C. Adamson, Renaud Capdeville, Lynley V. Marshall, Linda Fogelstrand, David Delgado, Mark W. Kieran, Sarah K. Tasian, E. Anders Kolb, Julie Guillot, Paula Goodman Fraenkel, Hesham Mohamed, G. Lesa, Henrik Hasle, Andrew D.J. Pearson, Franca Ligas, J. Morris, Stephen J. Simko, Todd M. Cooper, Dominik Karres, Erica Brivio, Andrew S. Moore, Douglas V. Faller, and Nicole Scobie

Subjects

0301 basic medicine, Cancer Research, medicine.medical_specialty, Childhood leukemia, Drug development, Disease, Article, Acute myeloid leukaemia, law.invention, 03 medical and health sciences, 0302 clinical medicine, Randomized controlled trial, law, Agency (sociology), medicine, Intensive care medicine, Paediatric oncology, business.industry, Paediatric Strategy Forum, medicine.disease, Minimal residual disease, 3. Good health, Clinical trial, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, New product development, Cancer therapeutics, business

Abstract

Purpose: The current standard-of-care for front-line therapy for acute myeloid leukaemia (AML) results in short-term and long-term toxicity, but still approximately 40% of children relapse. Therefore, there is a major need to accelerate the evaluation of innovative medicines, yet drug development continues to be adult-focused. Furthermore, the large number of competing agents in rare patient populations requires coordinated prioritisation, within the global regulatory framework and cooperative group initiatives. Methods: The fourth multi-stakeholder Paediatric Strategy Forum focused on AML in children and adolescents. Results: CD123 is a high priority target and the paediatric development should be accelerated as a proof-of-concept. Efforts must be coordinated, however, as there are a limited number of studies that can be delivered. Studies of FLT3 inhibitors in agreed paediatric investigation plans present challenges to be completed because they require enrolment of a larger number of patients than actually exist. A consensus was developed by industry and academia of optimised clinical trials. For AML with rare mutations that are more frequent in adolescents than in children, adult trials should enrol adolescents and when scientifically justified, efficacy data could be extrapolated. Methodologies and definitions of minimal residual disease need to be standardised internationally and validated as a new response criterion. Industry supported, academic sponsored platform trials could identify products to be further developed. The Leukaemia and Lymphoma Society PedAL/EUpAL initiative has the potential to be a major advance in the field. Conclusion: These initiatives continue to accelerate drug development for children with AML and ultimately improve clinical outcomes.

Published

2020

10. To transplant, or not to transplant? That is the question. A patient advocate evaluation of autologous stem cell transplant in neuroblastoma

Author

Antonia Palmer, Nicole Scobie, DONNA LUDWINSKI, and Nicholas Bird

Subjects

Neuroblastoma, Oncology, Pediatrics, Perinatology and Child Health, Antineoplastic Combined Chemotherapy Protocols, Hematopoietic Stem Cell Transplantation, Humans, Hematology, Immunotherapy, Patient Advocacy, Transplantation, Autologous, Disease-Free Survival

Abstract

High-dose chemotherapy with autologous stem cell transplant (ASCT) has been a mainstay of high-risk neuroblastoma treatment for several decades, demonstrating improvements in event-free survival but with risks of serious or even life-threatening acute toxicities, severe long-term adverse health effects for survivors, and ongoing contention regarding overall survival benefit. The merits of ASCT in the modern era of immunotherapy are a source of debate among parents, advocates, and some physicians. Here we examine evidence for and against ASCT, explore parent attitudes and their turmoil over decision-making, and strongly encourage international research consortia to develop a coordinated strategy to accelerate progress toward a future that avoids the routine use of ASCT in high-risk neuroblastoma.

Published

2022

11. Role of Patients and Advocates in Cancer Therapeutics Development

Author

Donna Ludwinski, Nicole Scobie, and Leona Knox

Published

2022

12. ACCELERATE : five years accelerating cancer drug development for children and adolescents

Author

Andrew D.J. Pearson, Susan L. Weiner, Peter C. Adamson, Dominik Karres, Gregory Reaman, Raphaël Rousseau, Patricia Blanc, Koen Norga, Jeffrey Skolnik, Pam Kearns, Nicole Scobie, Elly Barry, Lynley V. Marshall, Leona Knox, Hubert Caron, Darshan Wariabharaj, Alberto Pappo, Steven G. DuBois, Lia Gore, Mark Kieran, Brenda Weigel, Elizabeth Fox, Karsten Nysom, Teresa de Rojas, and Gilles Vassal

Subjects

Adult, Cancer Research, Adolescent, Drug Development, Oncology, United States Food and Drug Administration, Neoplasms, Humans, Antineoplastic Agents, Human medicine, Child, United States

Abstract

Rapid evaluation and subsequent regulatory approval of new drugs are critical to improving survival and reducing long-term side-effects for children and adolescents with cancer. The international multi-stakeholder organisation ACCELERATE was created to advance the timely investigation of new anti-cancer drugs. ACCELERATE has enhanced communication and understanding between academia, industry, patient advocates and regulators. It has promoted a mechanism-of-action driven drug development approach and developed Paediatric Strategy Forums. These initiatives have facilitated prioritisation of medicinal products and a focused and sequential strategy for drug development where there are multiple potential agents. ACCELERATE has championed the early assessment of promising drugs in adolescents through their inclusion in adult early phase trials. ACCELERATE has strongly supported alignment between the European Medicines Agency and the US Food and Drug Administration and identification of unmet medical needs through multi-stakeholder collaboration. Early engagement between all stakeholders in the development of new drugs is critical. Innovative clinical trial designs are required, necessitating early discussion with sponsors and regulators. Amplifying the patient advocate voice through inclusion across the drug development continuum will lead to better, patient-centric trials. By these means, children and adolescents with cancer can maximally and rapidly benefit from innovative products to improve outcomes and reduce burdensome sequelae.(c) 2022 The Author(s). Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

Published

2022

13. Paediatric Strategy Forum for medicinal product development of chimeric antigen receptor T-cells in children and adolescents with cancer ACCELERATE in collaboration with the European Medicines Agency with participation of the Food and Drug Administration

Author

Andrew Dj, Pearson, Claudia, Rossig, Crystal, Mackall, Nirali N, Shah, Andre, Baruchel, Gregory, Reaman, Rosanna, Ricafort, Delphine, Heenen, Abraham, Bassan, Michael, Berntgen, Nick, Bird, Eric, Bleickardt, Najat, Bouchkouj, Peter, Bross, Carrie, Brownstein, Sarah Beaussant, Cohen, Teresa, de Rojas, Lori, Ehrlich, Elizabeth, Fox, Stephen, Gottschalk, Linda, Hanssens, Douglas S, Hawkins, Ivan D, Horak, Danielle H, Taylor, Courtney, Johnson, Dominik, Karres, Franca, Ligas, Donna, Ludwinski, Maksim, Mamonkin, Lynley, Marshall, Behzad K, Masouleh, Yousif, Matloub, Shannon, Maude, Joe, McDonough, Veronique, Minard-Colin, Koen, Norga, Karsten, Nysom, Alberto, Pappo, Laura, Pearce, Rob, Pieters, Martin, Pule, Alfonso, Quintás-Cardama, Nick, Richardson, Martina, Schüßler-Lenz, Nicole, Scobie, Martina A, Sersch, Malcolm A, Smith, Jaroslav, Sterba, Sarah K, Tasian, Brenda, Weigel, Susan L, Weiner, Christian Michel, Zwaan, Giovanni, Lesa, and Gilles, Vassal

Subjects

Receptors, Chimeric Antigen, Adolescent, United States Food and Drug Administration, Receptors, Antigen, T-Cell, Medical Oncology, Pediatrics, United States, CAR T-cell, Paediatric Strategy Forum, Drug development, Adoptive cellular immunotherapy, Paediatric oncology, CAR-T-Zell-Therapie, Cancer therapeutics, Europe, Drug Development, hemic and lymphatic diseases, Humans, Human medicine, Child

Abstract

The seventh multi-stakeholder Paediatric Strategy Forum focused on chimeric antigen receptor (CAR) T-cells for children and adolescents with cancer. The development of CAR T-cells for patients with haematological malignancies, especially B-cell precursor acute lymphoblastic leukaemia (BCP-ALL), has been spectacular. However, currently, there are scientific, clinical and logistical challenges for use of CAR T-cells in BCP-ALL and other paediatric malignancies, particularly in acute myeloid leukaemia (AML), lymphomas and solid tumours. The aims of the Forum were to summarise the current landscape of CAR T-cell therapy development in paediatrics, too identify current challenges and future directions, with consideration of other immune effector modalities and ascertain the best strategies to accelerate their development and availability to children. Although the effect is of limited duration in about half of the patients, anti-CD19 CAR T cells produce high response rates in relapsed/refractory BCP-ALL and this has highlighted previously unknown mechanisms of relapse. CAR T-cell treatment as first-or second-line therapy could also potentially benefit patients whose disease has high-risk features associated with relapse and failure of conventional therapies. Identifying patients with very early and early relapse in whom CAR T-cell therapy may replace haematopoietic stem cell transplanta-tion and be definitive therapy versus those in whom it provides a more effective bridge to hae-matopoietic stem cell transplantation is a very high priority. Development of approaches to improve persistence, either by improving T cell fitness or using more humanised/fully huma-nised products and co-targeting of multiple antigens to prevent antigen escape, could potentially further optimise therapy. Many differences exist between paediatric B-cell non-Hodgkin lymphomas (B-NHL) and BCP-ALL. In view of the very small patient numbers with relapsed lymphoma, careful prior-itisation is needed to evaluate CAR T-cells in children with Burkitt lymphoma, primary medi-astinal B cell lymphoma and other NHL subtypes. Combination trials of alternative targets to CD19 (CD20 or CD22) should also be explored as a priority to improve efficacy in this pop-ulation. Development of CD30 CAR T-cell immunotherapy strategies in patients with relapsed/refractory Hodgkin lymphoma will likely be most efficiently accomplished by joint paediatric and adult trials.CAR T-cell approaches are early in development for AML and T-ALL, given the unique challenges of successful immunotherapy actualisation in these diseases. At this time, CD33 and CD123 appear to be the most universal targets in AML and CD7 in T-ALL. The results of ongoing or planned first-in-human studies are required to facilitate further understanding. There are promising early results in solid tumours, particularly with GD2 targeting cell ther-apies in neuroblastoma and central nervous system gliomas that represent significant unmet clinical needs. Further understanding of biology is critical to success.The comparative benefits of autologous versus allogeneic CAR T-cells, T-cells engineered with T cell receptors T-cells engineered with T cell receptor fusion constructs, CAR Natural Killer (NK)-cell products, bispecific T-cell engager antibodies and antibody-drug conjugates require evaluation in paediatric malignancies.Early and proactive academia and multi-company engagement are mandatory to advance cellular immunotherapies in paediatric oncology. Regulatory advice should be sought very early in the design and preparation of clinical trials of innovative medicines, for which regu-latory approval may ultimately be sought. Aligning strategic, scientific, regulatory, health technology and funding requirements from the inception of a clinical trial is especially impor-tant as these are very expensive therapies.The model for drug development for cell therapy in paediatric oncology could also involve a 'later stage handoff' to industry after early development in academic hands. Finally, and very importantly, strategies must evolve to ensure appropriate ease of access for children who need and could potentially benefit from these therapies. 2021 The Author(s). Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

Published

2022

14. Setting international standards for patient and parent involvement and engagement in childhood, adolescent and young adult cancer research: A report from a European Collaborative Workshop

Author

Reem Al-Saadi, Nicole Scobie, Suzanne Tugnait, Kathy Pritchard-Jones, and Angela Polanco

Subjects

Parents, Cancer Research, medicine.medical_specialty, Adolescent, Best practice, Population, Context (language use), Medical Oncology, Terminology, Young Adult, Neoplasms, Health care, medicine, Humans, Young adult, Child, education, education.field_of_study, business.industry, Research, Clinical trial, Oncology, Family medicine, PPIE, Patient Participation, business, Psychology

Abstract

BACKGROUND Patient and Public Involvement and Engagement (PPIE) in research, advocates for research conducted 'with' not 'for' the affected population. In paediatric oncology research, the parents of children, adolescents and young adults affected by cancer are represented by the term 'public' in the acronym PPIE. Patients (those with cancer and cancer survivors) are also passionate advocates who drive forward the research priorities of children, adolescents and young adults throughout the entire research process. AIMS A workshop was held at an international professional meeting in 2019 with the aim to define Patient and Parent Involvement and Engagement (PPIE); capture PPIE activities on a European level; and to explore the role of PPIE in non-interventional research. A proposed framework for a European PPIE strategy for childhood, adolescent and young adult cancers was also discussed. METHODS The 60-minute workshop was attended by health care professionals, researchers, scientists, parents, survivors and charity/support organisations. A presentation to define PPIE, including the difference in terminology for PPIE in the context of childhood, adolescent, and young adult cancers was discussed. Best practice examples from the United Kingdom (UK) helped to demonstrate the positive impact of PPIE in paediatric oncology research. Three breakout groups then explored themes relating to PPIE, namely PPIE priorities, PPIE mapping for Europe, and PPIE in non-interventional research and data-linkage. RESULTS Disparity in PPIE activities across Europe was evident, with ambiguity surrounding terminology and expected roles for PPIE representatives in paediatric oncology research. A lack of PPIE activity in Eastern Europe correlated with a lack of availability for clinical trials and poorer survival rates for paediatric oncology patients. There was unanimous support for PPIE embedded research in all areas, including in non-interventional studies. CONCLUSION A European-level definition of PPIE for paediatric oncology research is needed. Further exploration into the role and responsibilities of patients, parents, and professionals when undertaking PPIE related activities is also recommended. Best practice examples from the UK, France, Germany, The Netherlands and Belgium demonstrated a preliminary evidence base from which a European PPIE strategy framework can be designed, inclusive of the patient and parent voice.

Published

2021

15. The RACE to accelerate drug development for children with cancer

Author

Steven G. DuBois, Gregory H. Reaman, Gilles Vassal, Leona Knox, Dominik Karres, Nicole Scobie, and Andrew D.J. Pearson

Subjects

Gerontology, Clinical Trials as Topic, Drug Industry, business.industry, Cancer, Antineoplastic Agents, Medical Oncology, medicine.disease, Race (biology), Drug Development, Drug development, Neoplasms, Drug Discovery, Pediatrics, Perinatology and Child Health, Developmental and Educational Psychology, medicine, Humans, Molecular Targeted Therapy, Child, business

Published

2020

16. Second Paediatric Strategy Forum for anaplastic lymphoma kinase (ALK) inhibition in paediatric malignancies ACCELERATE in collaboration with the European Medicines Agency with the participation of the Food and Drug Administration

Author

Andrew D J, Pearson, Elly, Barry, Yael P, Mossé, Franca, Ligas, Nick, Bird, Teresa, de Rojas, Zachary F, Zimmerman, Keith, Wilner, Willi, Woessmann, Susan, Weiner, Brenda, Weigel, Rajkumar, Venkatramani, Dominique, Valteau, Toby, Trahair, Malcolm, Smith, Sonia, Singh, Giovanni, Selvaggi, Nicole, Scobie, Gudrun, Schleiermacher, Nicholas, Richardson, Julie, Park, Karsten, Nysom, Koen, Norga, Margret, Merino, Joe, McDonough, Yousif, Matloub, Lynley V, Marshall, Eric, Lowe, Giovanni, Lesa, Meredith, Irwin, Dominik, Karres, Amar, Gajjar, François, Doz, Elizabeth, Fox, Steven G, DuBois, Martha, Donoghue, Michela, Casanova, Hubert, Caron, Vickie, Buenger, Diana, Bradford, Patricia, Blanc, Amy, Barone, Gregory, Reaman, and Gilles, Vassal

Subjects

Clinical Trials as Topic, Drug Industry, United States Food and Drug Administration, International Cooperation, Medical Oncology, Pediatrics, United States, Drug Development, Neoplasms, hemic and lymphatic diseases, Humans, Anaplastic Lymphoma Kinase, European Union, Human medicine, Child, Intersectoral Collaboration, Protein Kinase Inhibitors

Abstract

The first (2017) and sixth (2021) multistakeholder Paediatric Strategy Forums focused on anaplastic lymphoma kinase (ALK) inhibition in paediatric malignancies. ALK is an important oncogene and target in several paediatric tumours (anaplastic large cell lymphoma [ALCL], inflammatory myofibroblastic tumour [IMT], neuroblastoma and hemispheric gliomas in infants and young children) with unmet therapeutic needs. ALK tyrosine kinase inhibitors have been demonstrated to be active both in ALK fusion-kinase positive ALCL and IMT. ALK alterations differ, with fusions occurring in ALCL, IMT and gliomas, and activating mutations and amplification in neuroblastoma. While there are many ALK inhibitors in development, the number of children diagnosed with ALK driven malignancies is very small. The objectives of this ALK Forum were to (i) Describe current knowledge of ALK biology in childhood cancers; (ii) Provide an overview of the development of ALK inhibitors for children; (iii) Identify the unmet needs taking into account planned or current ongoing trials; (iv) Conclude how second/third-generation inhibitors could be evaluated and prioritised; (v) Identify lessons learnt from the experience with ALK inhibitors to accelerate the paediatric development of other anti-cancer targeted agents in the new regulatory environments. There has been progress over the last four years, with more trials of ALK inhibitors opened in paediatrics and more regulatory submissions. In January 2021, the US Food and Drug Administration approved crizotinib for the treatment of paediatric and young adult patients with relapsed or refractory ALCL and there are paediatric investigation plans (PIPs) for brigatinib and for crizotinib in ALCL and IMT. In ALCL, the current goal is to investigate the inclusion of ALK inhibitors in front-line therapy with the aim of decreasing toxicity with higher/similar efficacy compared to present first-line therapies. For IMT, the focus is to develop a joint prospective trial with one product in children, adolescents and adults, taking advantage of the common biology across the age spectrum. As approximately 50% of IMTs are ALK-positive, molecular analysis is required to identify patients to be treated with an ALK inhibitor. For neuroblastoma, crizotinib has not shown robust anti-tumour activity. A focused and sequential development of ALK inhibitors with very good central nervous system (CNS) penetration in CNS tumours with ALK fusions should be undertaken. The Forum reinforced the strong need for global academic collaboration, very early involvement of regulators with studies seeking possible registration and early academia-multicompany engagement. Innovations in study design and conduct and the use of 'real-world data' supporting development in these rare sub-groups of patients for whom randomised clinical trials are not feasible are important initiatives. A focused and sequenced development strategy, where one product is evaluated first with other products being assessed sequentially, is applicable for ALK inhibitors and other medicinal products in children. (C) 2021 The Authors. Published by Elsevier Ltd.

Published

2021

17. Orphan Drug Regulation: A missed opportunity for children and adolescents with cancer

Author

Gilles Vassal, Pamela Kearns, Andrew D.J. Pearson, Nicole Scobie, Delphine Heenen, and Patricia Blanc

Subjects

0301 basic medicine, Cancer Research, Pediatrics, medicine.medical_specialty, Adolescent, Orphan Drug Production, Antineoplastic Agents, Disease, Malignancy, Medical Oncology, Orphan drug, 03 medical and health sciences, 0302 clinical medicine, Neoplasms, Drug Discovery, Medicine, media_common.cataloged_instance, Humans, European Union, Registries, European union, Summary of Product Characteristics, Age of Onset, Child, Drug Approval, media_common, business.industry, Age Factors, Cancer, medicine.disease, Europe, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Government Regulation, Age of onset, Diffusion of Innovation, business, Program Evaluation

Abstract

Background Oncology represents a major sector in the field of orphan drug development in Europe. The objective was to evaluate whether children and adolescents with cancer benefited from the Orphan Drug Regulation. Methods Data on orphan drug designations (ODDs) and registered orphan drugs from 8th August 2000 to 10th September 2016 were collected from the Community Register of medicinal products for human use. Assessment history, product information and existence of paediatric investigation plans were searched and retrieved from the European Medicine Agency website. Results Over 16 years, 272 of 657 oncology ODDs (41%) concerned a malignant condition occurring both in adults and children. The five most common were acute myeloid leukaemia, high-grade glioma, acute lymphoblastic leukaemia, graft-versus-host disease and soft-tissue sarcomas. 74% of 31 marketing authorisations (MAs) for an indication both in adults and children (26 medicines) had no information for paediatric use in their Summary of Product Characteristics (SmPC) at the time of the first MA. Furthermore, 68% still have no paediatric information in their most recently updated SmPC, at a median of 7 years after. Only 15 ODDs (2%) pertained to a malignancy occurring specifically in children and only two drugs received an MA: Unituxin for high-risk neuroblastoma and Votubia for sub-ependymal giant-cell astrocytoma. Conclusion The Orphan Drug Regulation failed to promote the development of innovative therapies for malignancies occurring in children. Major delays and waivers occurred through the application of the Paediatric Medicines Regulation. The European regulatory environment needs to be improved to accelerate innovation for children and adolescents dying of cancer.

Published

2017