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大学・研究所にある論文を検索できる 「A Clinically Applicable Prediction Model to Improve T Cell Collection in Chimeric Antigen Receptor T Cell Therapy」の論文概要。リケラボ論文検索は、全国の大学リポジトリにある学位論文・教授論文を一括検索できる論文検索サービスです。
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A Clinically Applicable Prediction Model to Improve T Cell Collection in Chimeric Antigen Receptor T Cell Therapy

Jo, Tomoyasu Yoshihara, Satoshi Hada, Asuka Arai, Yasuyuki Kitawaki, Toshio Ikemoto, Junko Onomoto, Hitomi Sugiyama, Hiroki Yoshihara, Kyoko Obi, Natsuno Matsui, Keiko Niwa, Norimi Nakagawa, Yoko Kanda, Junya Kondo, Tadakazu Saida, Satoshi Kato, Itaru Hiramatsu, Hidefumi Adachi, Souichi Takita, Junko Takaori-Kondo, Akifumi Nagao, Miki 京都大学 DOI:10.1016/j.jtct.2022.04.013

2022.07

概要

As chimeric antigen receptor (CAR) T cell therapy targeting CD19 has shown favorable outcomes in patients with relapsed or refractory (r/r) mature B cell lymphomas and B cell acute lymphoblastic leukemia (B-ALL), an increasing number of patients are waiting to receive these treatments. Optimized protocols for T cell collection by lymphapheresis for chimeric antigen receptor (CAR) T cell therapy are urgently needed to provide CAR T cell therapy for patients with refractory and progressive disease and/or a low number of lymphocytes owing to prior chemotherapy. The predicted efficiency of CD³⁺ cell collection in apheresis can guide protocols for apheresis, but a clinically applicable model to produce reliable estimates has not yet been established. In this study, we prospectively analyzed 108 lymphapheresis procedures for tisagenlecleucel therapy at 2 centers. The apheresis procedures included 20 procedures in patients with B cell acute lymphoblastic leukemia and 88 procedures in patients with diffuse large B cell lymphoma, with a median age at apheresis of 58 years (range, 1 to 71 years). After lymphapheresis with a median processing blood volume of 10 L (range, 3 to 16 L), a median of 3.2 × 10⁹ CD³⁺ cells (range, .1 to 15.0 × 10⁹ cells) were harvested. Collection efficiency 2 (CE2) for CD³⁺ cells was highly variable (median, 59.3%; range, 11.0% to 199.8%). Multivariate analyses revealed that lower hemoglobin levels, higher circulating CD3+ cell counts, and higher platelet counts before apheresis significantly decreased apheresis CE2. Based on multivariate analyses, we developed a novel formula that estimates CE2 from precollection parameters with high accuracy (r = .56; P < .01), which also suggests the necessary processing blood volume. Our strategy for lymphapheresis should help reduce collection failure, as well as achieve efficient utilization of medical resources in clinical practice, thereby allowing delivery of CAR T cell therapy to more patients in a timely manner.

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参考文献

1. Schuster SJ, Svoboda J, Chong EA, et al. Chimeric antigen receptor T cells in

refractory B-cell lymphomas. N Engl J Med. 2017;377:2545–2554.

2. Maude SL, Laetsch TW, Buechner J, et al. Tisagenlecleucel in children and

young adults with B-cell lymphoblastic leukemia. N Engl J Med.

2018;378:439–448.

3. Horne GA, Laird J, Latif AL, Irvine D, Wilson M, Douglas K. Implications of

CAR-T cell therapy on apheresis services: a Scottish perspective. J Clin

Apher. 2021;36:513–515.

4. Perica K, Curran KJ, Brentjens RJ, Giralt SA. Building a CAR garage: preparing for the delivery of commercial CAR T cell products at Memorial Sloan

Kettering Cancer Center. Biol Blood Marrow Transplant. 2018;24:1135–

1141.

5. Hutt D, Bielorai B, Baturov B, et al. Feasibility of leukapheresis for CAR Tcell production in heavily pre-treated pediatric patients. Transfus Apher

Sci. 2020;59: 102769.

€ rensen J, et al. Unstimulated apheresis for chime6. Jarisch A, Rettinger E, So

ric antigen receptor manufacturing in pediatric/adolescent acute lymphoblastic leukemia patients. J Clin Apher. 2020;35:398–405.

A Self-archived copy in

Kyoto University Research Information Repository

https://repository.kulib.kyoto-u.ac.jp

T. Jo et al. / Transplantation and Cellular Therapy 28 (2022) 365.e1365.e7

7. Allen ES, Stroncek DF, Ren J, et al. Autologous lymphapheresis for the production of chimeric antigen receptor T cells. Transfusion. 2017;57:1133–

1141.

8. Ceppi F, Rivers J, Annesley C, et al. Lymphocyte apheresis for chimeric

antigen receptor T-cell manufacturing in children and young adults with

leukemia and neuroblastoma. Transfusion. 2018;58:1414–1420.

9. Tuazon SA, Li A, Gooley T, et al. Factors affecting lymphocyte collection

efficiency for the manufacture of chimeric antigen receptor T cells in

adults with B-cell malignancies. Transfusion. 2019;59:1773–1780.

10. Jo T, Yoshihara S, Arai Y, et al. [Clinical experience of leukapheresis for

CD19 CAR-T cell therapy]. Rinsho Ketsueki. 2021;62:163–169. [in Japanese].

365.e7

11. Kanda Y. Investigation of the freely available easy-to-use software 'EZR' for

medical statistics. Bone Marrow Transplant. 2013;48:452–458.

12. Ford CD, Pace N, Lehman C. Factors affecting the efficiency of collection of

CD34-positive peripheral blood cells by a blood cell separator. Transfusion.

1998;38:1046–1050.

13. Reinhardt P, Brauninger S, Bialleck H, et al. Automatic interface-controlled

apheresis collection of stem/progenitor cells: results from an autologous

donor validation trial of a novel stem cell apheresis device. Transfusion.

2011;51:1321–1330.

14. Brauninger S, Bialleck H, Thorausch K, Felt T, Seifried E, Bonig H. Allogeneic donor peripheral blood "stem cell" apheresis: prospective comparison of two apheresis systems. Transfusion. 2012;52:1137–1145.

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