Automated production of specific T cells for treatment of refractory viral infections after allogeneic stem cell transplantation

Amadeus T. Heinz; Friso Calkoen; Alexander Derbich; Lea Miltner; Christian Seitz; Michaela Doering; Christiane Braun; Daniel Atar; Michael Schumm; Florian Heubach; Anne-Marie Arendt; Ansgar Schulz; Friedhelm R. Schuster; Roland Meisel; Brigitte Strahm; Jürgen Finke; Beatrice Heineking; Susanne Stetter; Gerda Silling; Daniel Stachel; Bernd Gruhn; Klaus‐Michael Debatin; Juergen Foell; Johannes H. Schulte; Wilhelm Woessmann; Christine Mauz‐Körholz; Johanna Tischer; Tobias Feuchtinger; Rupert Handgretinger; Peter Lang

doi:10.3324/haematol.2022.281996

Automated production of specific T cells for treatment of refractory viral infections after allogeneic stem cell transplantation

Amadeus T. Heinz(University Children's Hospital Tübingen), Friso Calkoen(Princess Máxima Center), Alexander Derbich(University Children's Hospital Tübingen), Lea Miltner(University Children's Hospital Tübingen), Christian Seitz(University Children's Hospital Tübingen), Michaela Doering(University Children's Hospital Tübingen), Christiane Braun(University Children's Hospital Tübingen), Daniel Atar(University Children's Hospital Tübingen), Michael Schumm(University Children's Hospital Tübingen), Florian Heubach(University Children's Hospital Tübingen), Anne-Marie Arendt(University Children's Hospital Tübingen), Ansgar Schulz(University Medical Center), Friedhelm R. Schuster(Heinrich Heine University Düsseldorf), Roland Meisel(Heinrich Heine University Düsseldorf), Brigitte Strahm(University of Freiburg), Jürgen Finke(University Medical Center Freiburg), Beatrice Heineking(Ludwig-Maximilians-Universität München), Susanne Stetter(University Hospital Regensburg), Gerda Silling(RWTH Aachen University), Daniel Stachel(Friedrich-Alexander-Universität Erlangen-Nürnberg), Bernd Gruhn(Jena University Hospital), Klaus‐Michael Debatin(University Medical Center), Juergen Foell(University Hospital Regensburg), Johannes H. Schulte(Charité - Universitätsmedizin Berlin), Wilhelm Woessmann(Justus-Liebig-Universität Gießen), Christine Mauz‐Körholz(Justus-Liebig-Universität Gießen), Johanna Tischer(Ludwig-Maximilians-Universität München), Tobias Feuchtinger(Uniwersytecki Szpital Dziecięcy), Rupert Handgretinger, Peter Lang(University Children's Hospital Tübingen)

Haematologica

February 16, 2023

10.3324/haematol.2022.281996

Cited by 11Open Access

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Abstract

Therapy-resistant viral reactivations contribute significantly to mortality after hematopoietic stem cell transplantation. Adoptive cellular therapy with virus-specific T cells (VST) has shown efficacy in various single-center trials. However, the scalability of this therapy is hampered by laborious production methods. In this study we describe the in-house production of VST in a closed system (CliniMACS Prodigy® system, Miltenyi Biotec). In addition, we report the efficacy in 26 patients with viral disease following hematopoietic stem cell transplantation in a retrospective analysis (adenovirus, n=7; cytomegalovirus, n=8; Epstein-Barr virus, n=4; multi-viral, n=7). The production of VST was successful in 100% of cases. The safety profile of VST therapy was favorable (n=2 grade 3 and n=1 grade 4 adverse events; all three were reversible). A response was seen in 20 of 26 patients (77%). Responding patients had a significantly better overall survival than patients who did not respond (P<0.001). Virus-specific symptoms were reduced or resolved in 47% of patients. The overall survival of the whole cohort was 28% after 6 months. This study shows the feasibility of automated VST production and safety of application. The scalability of the CliniMACS Prodigy® device increases the accessibility of VST treatment.

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