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Review
. 2024 Mar 13;6(1):96-115.
doi: 10.46989/001c.94386. eCollection 2024.

The Implementation of Chimeric Antigen Receptor (CAR) T-cell Therapy in Pediatric Patients: Where Did We Come From, Where Are We Now, and Where are We Going?

Tristan Knight E  1 Olalekan Oluwole  2 Carrie Kitko  3
Affiliations
Review

The Implementation of Chimeric Antigen Receptor (CAR) T-cell Therapy in Pediatric Patients: Where Did We Come From, Where Are We Now, and Where are We Going?

Tristan Knight E et al. Clin Hematol Int. .

Abstract

CD19-directed Chimeric Antigen Receptor (CAR) T-cell therapy has revolutionized the treatment of patients with B-cell acute lymphoblastic leukemia (B-ALL). Somewhat uniquely among oncologic clinical trials, early clinical development occurred simultaneously in both children and adults. In subsequent years however, the larger number of adult patients with relapsed/refractory (r/r) malignancies has led to accelerated development of multiple CAR T-cell products that target a variety of malignancies, resulting in six currently FDA-approved for adult patients. By comparison, only a single CAR-T cell therapy is approved by the FDA for pediatric patients: tisagenlecleucel, which is approved for patients ≤ 25 years with refractory B-cell precursor ALL, or B-cell ALL in second or later relapse. Tisagenlecleucel is also under evaluation in pediatric patients with relapsed/refractory B-cell non-Hodgkin lymphoma, but is not yet been approved for this indication. All the other FDA-approved CD19-directed CAR-T cell therapies available for adult patients (axicabtagene ciloleucel, brexucabtagene autoleucel, and lisocabtagene maraleucel) are currently under investigations among children, with preliminary results available in some cases. As the volume and complexity of data continue to grow, so too does the necessity of rapid assimilation and implementation of those data. This is particularly true when considering "atypical" situations, e.g. those arising when patients do not precisely conform to the profile of those included in pivotal clinical trials, or when alternative treatment options (e.g. hematopoietic stem cell transplantation (HSCT) or bispecific T-cell engagers (BITEs)) are also available. We have therefore developed a relevant summary of the currently available literature pertaining to the use of CD19-directed CAR-T cell therapies in pediatric patients, and sought to provide guidance for clinicians seeking additional data about specific clinical situations.

Keywords: Acute lymphoblastic leukemia; Axicabtagene Ciloleucel; CAR; CAR T-Cell; Leukemia; Pediatrics; Tisagenlecleucel.

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References

    1. Biology of Childhood Acute Lymphoblastic Leukemia. Bhojwani Deepa, Yang Jun J., Pui Ching-Hon. Feb;2015 Pediatr Clin North Am . 62(1):47–60. doi: 10.1016/j.pcl.2014.09.004. doi: 10.1016/j.pcl.2014.09.004. - DOI - DOI - PMC - PubMed
    1. Siegel Rebecca L., Miller Kimberly D., Fuchs Hannah E., Jemal Ahmedin. CA: A Cancer Journal for Clinicians. 1. Vol. 71. Wiley; Cancer Statistics, 2021; pp. 7–33. - DOI - DOI - PubMed
    1. Liu Yuan-Fang, Wang Bai-Yan, Zhang Wei-Na, Huang Jin-Yan, Li Ben-Shang, Zhang Ming, Jiang Lu, Li Jian-Feng, Wang Ming-Jie, Dai Yu-Jun, Zhang Zi-Guan, Wang Qiang, Kong Jie, Chen Bing, Zhu Yong-Mei, Weng Xiang-Qin, Shen Zhi-Xiang, Li Jun-Min, Wang Jin, Yan Xiao-Jing, Li Yan, Liang Ying-Min, Liu Li, Chen Xie-Qun, Zhang Wang-Gang, Yan Jin-Song, Hu Jian-Da, Shen Shu-Hong, Chen Jing, Gu Long-Jun, Pei Deqing, Li Yongjin, Wu Gang, Zhou Xin, Ren Rui-Bao, Cheng Cheng, Yang Jun J., Wang Kan-Kan, Wang Sheng-Yue, Zhang Jinghui, Mi Jian-Qing, Pui Ching-Hon, Tang Jing-Yan, Chen Zhu, Chen Sai-Juan. EBioMedicine. Vol. 8. Elsevier BV; Genomic Profiling of Adult and Pediatric B-cell Acute Lymphoblastic Leukemia; pp. 173–183. - DOI - DOI - PMC - PubMed
    1. Kochenderfer James N., Dudley Mark E., Feldman Steven A., Wilson Wyndham H., Spaner David E., Maric Irina, Stetler-Stevenson Maryalice, Phan Giao Q., Hughes Marybeth S., Sherry Richard M., Yang James C., Kammula Udai S., Devillier Laura, Carpenter Robert, Nathan Debbie-Ann N., Morgan Richard A., Laurencot Carolyn, Rosenberg Steven A. Blood. 12. Vol. 119. American Society of Hematology; B-cell depletion and remissions of malignancy along with cytokine-associated toxicity in a clinical trial of anti-CD19 chimeric-antigen-receptor–transduced T cells; pp. 2709–2720. - DOI - DOI - PMC - PubMed
    1. Brentjens Renier J., Rivière Isabelle, Park Jae H., Davila Marco L., Wang Xiuyan, Stefanski Jolanta, Taylor Clare, Yeh Raymond, Bartido Shirley, Borquez-Ojeda Oriana, Olszewska Malgorzata, Bernal Yvette, Pegram Hollie, Przybylowski Mark, Hollyman Daniel, Usachenko Yelena, Pirraglia Domenick, Hosey James, Santos Elmer, Halton Elizabeth, Maslak Peter, Scheinberg David, Jurcic Joseph, Heaney Mark, Heller Glenn, Frattini Mark, Sadelain Michel. Blood. 18. Vol. 118. American Society of Hematology; Safety and persistence of adoptively transferred autologous CD19-targeted T cells in patients with relapsed or chemotherapy refractory B-cell leukemias; pp. 4817–4828. - DOI - DOI - PMC - PubMed