1. Allogeneic ABCB5
- Author
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Andreas, Kerstan, Kathrin, Dieter, Elke, Niebergall-Roth, Ann-Kathrin, Dachtler, Korinna, Kraft, Markus, Stücker, Georg, Daeschlein, Michael, Jünger, Tobias, Görge, Ulrich, Meyer-Pannwitt, Cornelia, Erfurt-Berge, Charlotte, von Engelhardt, Andreas, Klare, Christiane, Pfeiffer, Jasmina, Esterlechner, Hannes M, Schröder, Martin, Gasser, Ana M, Waaga-Gasser, Matthias, Goebeler, Seda, Ballikaya, Samar, Sadeghi, George F, Murphy, Dennis P, Orgill, Natasha Y, Frank, Christoph, Ganss, Karin, Scharffetter-Kochanek, Markus H, Frank, and Mark A, Kluth
- Subjects
Article - Abstract
A significant number of chronic venous ulcers (CVUs) fail to heal despite of guideline-conform standard of care. Skin-derived ABCB5(+) mesenchymal stem cells (MSCs) can dampen the sustained IL-1β-driven inflammation present in chronic wounds. Based on their wound healing-facilitating effects in a mouse CVU model and an autologous first-in-human study, ABCB5(+) MSCs have emerged as a potential candidate for cell-based advanced therapy of non-healing CVUs. In the present interventional, multicenter, single-arm, phase I/IIa clinical trial, subjects whose CVU had emerged as standard therapy-resistant received one or two topical applications of 1×10(6) allogeneic ABCB5(+) MSCs/cm(2) wound area in addition to standard treatment. Out of 83 treatment-emergent adverse events, only three were judged related to the cell product; they were mild or moderate and recovered without sequelae. Wound size markedly decreased from baseline to week 12, resulting in a median wound size reduction of 76% (full analysis set, N=31), 78% (per-protocol set, N=27) and 87% (subset of responders; n=21). In conclusion, the study treatment was well tolerated and safe. The treatment elicited a profound wound size reduction within 12 weeks, identifying ABCB5(+) MSCs as a potential candidate for adjunctive therapy of otherwise incurable CVUs. These results justify the conduct of a larger, randomized, controlled trial to confirm clinical efficacy.
- Published
- 2021