Viable and Functional: Long-Term −80 °C Cryopreservation Sustains CD34+ Integrity and Transplant Success
Ibrahim Ethem Pinar, Muge Sahin, Vildan Gursoy, Tuba Ersal, Ferah Budak, Vildan Ozkocaman, Fahir Ozkalemkas

TL;DR
Storing hematopoietic stem cells at -80°C for long periods maintains their viability and effectiveness for transplants, with AO staining being more sensitive to cell damage over time.
Contribution
The study introduces a viability-loss model to predict graft quality and highlights AO staining's enhanced sensitivity for detecting delayed cellular damage.
Findings
Median post-thaw viability remained high at 94.8% despite a moderate decline over time.
AO staining detected more delayed degradation compared to flow cytometry (p < 0.001).
Engraftment outcomes were more influenced by disease type than storage duration or product integrity.
Abstract
Background: Cryopreservation of hematopoietic stem cells (HSCs) at −80 °C using uncontrolled-rate freezing is frequently employed in resource-constrained settings, yet concerns remain regarding long-term viability and clinical efficacy. Reliable post-thaw assessment is essential to ensure graft quality and engraftment success. Methods: This single-center, retrospective study evaluated 72 cryopreserved stem cell products from 25 patients stored at −80 °C for a median of 868 days. Viability was assessed using both acridine orange (AO) staining and 7-AAD (7-aminoactinomycin D) flow cytometry at three time points: collection (T0), pre-infusion (T1), and delayed post-thaw evaluation (T2). Associations between viability loss, storage duration, and clinical engraftment outcomes were analyzed. Results: Median post-thaw viability remained high (94.8%) despite a moderate time-dependent decline…
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Taxonomy
TopicsHematopoietic Stem Cell Transplantation · Mesenchymal stem cell research · Reproductive Biology and Fertility
