Cell therapy for regeneration of injured donor lungs for transplantation
Olm, F.; Mittendorfer, M.; Edstrom, D.; Niroomand, A.; Bechet, N.; Hirdman, G.; Haider, G.; Boden, E.; Oeller, M.; Schallmoser, K.; Kjellberg, G.; Stenlo, M.; Scheding, S.; Hyllen, S.; Lindstedt, S.
Show abstract
Donor organ shortage remains the major barrier to transplantation resulting in deaths on the waiting list. For lungs, aspiration-related injury is a common cause of donor organ discard and increases the risk of primary graft dysfunction. Currently, no effective therapies exist to repair damaged donor lungs prior to transplantation. Here, we investigated whether mesenchymal stromal cells (MSCs) from bone marrow or full-term amniotic fluid could restore severely injured donor lungs in a porcine model integrating ex vivo lung perfusion, transplantation and post-transplant follow-up (n=48; 24 donors, 24 recipients). MSCs were administered either once during ex vivo lung perfusion or repeatedly across lung perfusion and the early post-transplant period and compared with placebo treated controls. A single dose conferred only partial benefit, whereas repeated dosing restored graft function, normalized gas exchange and haemodynamics, and prevented graft dysfunction. MSCs from both sources were similarly effective in repeated regimens. These findings identify dosing schedule, rather than cell source, as key determinant of durable organ rescue and support perfusion-guided cell therapy as potentially generalizable regenerative strategy across solid-organ transplantation.
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