ABSTRACT
The COVID-19 pandemic, caused by Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2), still remains a severe threat. At the time of writing this paper, the second infectious wave has caused more than 280,000 deaths all over the world. Italy was one of the first countries involved, with more than 200,000 people reported as infected and 30,000 deaths. There are no specific treatments for COVID-19 and the vaccine still remains somehow inconclusive. The world health community is trying to define and share therapeutic protocols in early and advanced clinical stages. However, numbers remain critical with a serious disease rate of 14%, ending with sepsis, acute respiratory distress syndrome (ARDS), multiple organ failure (MOF) and vascular and thromboembolic findings. The mortality rate was estimated within 2-3%, and more than double that for individuals over 65 years old; almost one patient in three dies in the Intensive Care Unit (ICU). Efforts for effective solutions are underway with multiple lines of investigations, and health authorities have reported success treating infected patients with donated plasma from survivors of the illness, the proposed benefit being protective antibodies formed by the survivors. Plasma transfusion, blood and stem cells, either autologous or allograft transplantation, are not novel therapies, and in this short paper, we propose therapeutic autologous plasma and peripheral blood stem cells as a possible treatment for fulminant COVID-19 infection.
ABSTRACT
Background: Cryopreservation of PBSC for allogenic hematopoietic stem cell transplantation (allo-HSCT) was implemented due to the current Coronavirus 2019 pandemic. The impact of match unrelated donor (MUD) graft freezing on the outcome of allo-HSCT in terms of hematological recovery, graft versus host disease (GVHD), and survival are still controversial. Methods: In this study, we compared graft composition, clinical characteristics, and outcome of 31 allo-HSCT from MUD cryopreserved PBSC (Cryo Group) with 23 matched-pair allo-HSCT from fresh MUD PBSC (Fresh Group) performed in our center between January 2020 and July 2021. Results: No significant differences were recognized in clinical characteristics of patients, donors, and transplants between the Cryo and Fresh groups except for a better prognostic comorbidity index (HCT-CI) of the Cryo group. In the Cryo Group, the median time from apheresis to cryopreservation was 46.0 h (range 23.8-53.5), while the median time from cells collection and reinfusion was 13.9 days (range 5.8-28.1). In the Fresh Group, median time from apheresis to reinfusion was 35.6 h (range 21.4-51.2). The number of viable (7-AAD negative) CD34+ cells per kg patient infused was significantly lower in the Cryo Group (5.2 ± 1.9 × 106/kg vs. 7.0 ± 1.3 × 106/kg; p < 0.001). Indeed, there was a 36% (11-70) median loss of viable CD34+/kg cells after freezing. All patients engrafted: median time to neutrophil engraftment (>0.5 × 109/L) was 13.5 days (range 12-15) for Cryo Group and 14 days (range 13-16) days for Fresh Group (p = 0.522), while the median time to platelet engraftment (>20 × 109/L) was, respectively, 14 (range 12-18) and 15 (range 12-17) days (p = 0.904). The incidence of grade ≥ 2 acute GVHD was similar in the two groups (56.5% Cryo Group vs. 60.0% Fresh Group; p = 0.832) and no differences in terms of OS (p = 0.090), PFS (p = 0.200) and TRM (p = 0.970) were observed between the Cryo and Fresh groups. Conclusions: In our series, no differences between the Cryo and Fresh groups were found in engraftment, grade ≥ 2 acute GVHD incidence, OS, PFS, and TRM despite a lower CD34+ infused dose in the Cryo Group. Frozen PBSCs could be considered a safe option also for allo-HSCT from MUD but a higher amount of PBSC should be collected to warrant an adequate viable CD34+ post-thawing.
ABSTRACT
End-stage ankle arthritis represents an "unmet medical need", awaiting an appropriate time for joint arthroplasty or arthrodesis. We report three cases of end-stage ankle arthritis treated along the principles developed for chondrogenesis of the knee joint with autologous peripheral blood stem cells, resulting in reversal of the ankle arthritis. The improvement in clinical outcome measure scores (Ankle Osteoarthritis Scale total score) with a minimum two-year follow-up were comparable to total ankle replacement (TAR), arthroscopic ankle arthrodesis (AAA) and open ankle arthrodesis (OAA).
ABSTRACT
BACKGROUND AIMS: The current gold standard for stem cell product potency assessment, the colony-forming unit (CFU) assay, delivers results that are difficult to standardize and requires a substantial amount of time (up to 14 days) for cellular growth. Recently, the authors developed a rapid (<24 h) flow cytometry assay based on the measurement of intracellular phosphorylated STAT5 (pSTAT5) in CD34+ cord blood stem and progenitor cells in response to IL-3 stimulation. The present work presents a novel adaptation of the protocol for use with autologous peripheral blood stem cells (PBSCs) and a performance comparison with the CFU assay. METHODS: The flow cytometry intracellular staining assay was optimized for PBSCs, and patient samples were analyzed using the PBSC-IL-3-pSTAT5 and CFU assays. Warming events were also simulated to emulate impaired potency products. RESULTS: Optimization led to minor protocol adjustments, such as removal of the red blood cell lysis step, the addition of a formaldehyde fixation step and an increase in anticoagulant concentration. The PBSC-IL-3-pSTAT5 assay discriminated between normal and impaired samples and identified 100% (18 of 18) of the impaired samples, thus showing better specificity than the CFU assay. CONCLUSIONS: The updated IL-3-pSTAT5 potency assay has several important advantages, such as accelerating the release of autologous stem cell products and enabling the detection of potentially impaired products. The assay could also be used to rapidly assess the potency of any cryopreserved allogeneic stem cell product, such as those processed during the coronavirus disease 2019 pandemic.