IN-VIVO MONITORING OF CAR-T CELL EXPANSION USING TAQMAN REAL TIME PCR

被引：0

作者：

Krauss, Angela ^{[1
,2
]}

Hees, Sabine ^{[1
,2
]}

Gowdavally, Sowmya ^{[1
,2
]}

Fuerst, Daniel ^{[1
,2
]}

Tsamadou, Chrysanthi ^{[1
,2
]}

Neuchel, Christine ^{[1
,2
]}

Schrezenmeier, Hubert ^{[1
,2
]}

Mytilineos, Joannis

Doehner, Hartmut ^{[3
]}

Wais, Verena ^{[3
]}

Viardot, Andreas ^{[3
]}

Sala, Elisa ^{[3
]}

机构：

[1] Univ Ulm, Inst Clin Transfus Med & Immunogenet Ulm, Dept Transplantat Immunol, Ulm, Germany

[2] German Red Cross Blood Transfus Serv Baden Wurt, Ulm, Germany

[3] Univ Hosp Ulm, Dept Internal Med Hematol & Oncol 3, Ulm, Germany

来源：

HLA | 2022年 / 100卷

关键词：

D O I：

暂无

中图分类号：

Q2 [细胞生物学];

学科分类号：

071009 ; 090102 ;

摘要：

WS2

引用

页码：7 / 7

页数：1

共 50 条

[31] CAR-T cells—Real-time experience applying CAR-T cells—What we have learned so far
Hildegard Greinix
memo - Magazine of European Medical Oncology, 2022, 15 : 173 - 175
[32] CAR-T cell therapy: practical guide to routine laboratory monitoring
Selim, Adrian G.
Minson, Adrian
Blombery, Piers
Dickinson, Michael
Harrison, Simon J.
Anderson, Mary Ann
PATHOLOGY, 2021, 53 (03) : 408 - 415
[33] CAR-T CELL EXPANSION PLATFORMS YIELD DISTINCT PHENOTYPIC AND TRANSCRIPTIONAL PROFILES
Song, H. W.
Shao, L.
Prochazkova, M.
Cheuk, A.
Jin, P.
Stroncek, D.
Khan, J.
Highfill, S. L.
CYTOTHERAPY, 2022, 24 (05) : S19 - S19
[34] Complete remission induced by rituximab-lenalidomide, following CAR-T cell failure, is not associated with CAR-T cell re-expansion in the peripheral blood
De Marchi, Lucrezia
Galli, Eugenio
Chiusolo, Patrizia
Consalvo, Maria Antonietta Irno
Cardillo, Lucia
Postorino, Massimiliano
Venditti, Adriano
Sora, Federica
Cox, Maria Christina
ANNALS OF HEMATOLOGY, 2025, : 1303 - 1305
[35] Preserving CAR-T Cell Function During Ex-Vivo Expansion: An Efficient Method To Manufacture Clinical Grade T Cells
Bajgain, Pradip
Mucharla, Roopa
Watanabe, Norihiro
Wilson, John
Anurathapan, Usanarat
Lapteva, Natasha
Leen, Ann
Heslop, Helen
Vera, Juan
MOLECULAR THERAPY, 2014, 22 : S17 - S17
[36] The potential role of short chain fatty acids improving ex vivo T and CAR-T cell fitness and expansion for cancer immunotherapies
Gonzalez-Brito, Adrian
Uribe-Herranz, Mireia
FRONTIERS IN IMMUNOLOGY, 2023, 14
[37] Digital PCR Improves Sensitivity and Quanti fi cation in Monitoring CAR-T Cells in B Cell Lymphoma Patients
de la Iglesia-San Sebastian, Ismael
Carbonell, Diego
Bastos-Oreiro, Mariana
Perez-Corral, Ana
Bailen, Rebeca
Chicano, Maria
Muniz, Paula
Monsalvo, Silvia
Escudero-Fernandez, Asuncion
Oarbeascoa, Gillen
Fernandez-Caldas, Paula
Gomez-Centurion, Ignacio
Pion, Marjorie
Gayoso, Jorge
Anguita, Javier
Kwon, Mi
Diez-Martin, Jose Luis
Buno, Ismael
Martinez-Laperche, Carolina
TRANSPLANTATION AND CELLULAR THERAPY, 2024, 30 (03): : 306e1 - 306e12
[38] CAR-T cells-Real-time experience applying CAR-T cells-What we have learned so far
Greinix, Hildegard
MEMO-MAGAZINE OF EUROPEAN MEDICAL ONCOLOGY, 2022, 15 (03) : 173 - 175
[39] Pharmacologic control of CAR-T cell function using dasatinib
Weber, Evan W.
Lynn, Rachel C.
Sotillo, Elena
Lattin, John
Xu, Peng
Mackall, Crystal L.
BLOOD ADVANCES, 2019, 3 (05) : 711 - 717
[40] CAR-T Cell Production Using the Clinimacs® Prodigy System
Zhu, Fenlu
Shah, Nirav N.
Xu, Huiqing
Schneider, Dina
Orentas, Rimas
Dropulic, Boro
Hari, Parameswaran
Keever-Taylor, Carolyn A.
BLOOD, 2016, 128 (22)

← 1 2 3 4 5 →