Outcomes after flow cytometry crossmatch-positive lung transplants managed with perioperative desensitization.

Our program previously reported successful outcomes following virtual crossmatch (VXM)-positive lung transplants managed with perioperative desensitization, but our ability to stratify their immunologic risk was limited without flow cytometry crossmatch (FCXM) data before 2014. The aim of this study was to determine allograft and chronic lung allograft dysfunction (CLAD)-free survival following VXM-positive/FCXM-positive lung transplants, which are performed at a minority of programs due to the high immunologic risk and lack of data on outcomes. All first-time lung transplant recipients between January 2014 and December 2019 were divided into 3 cohorts: VXM-negative (n = 764), VXM-positive/FCXM-negative (n = 64), and VXM-positive/FCXM-positive (n = 74). Allograft and CLAD-free survival were compared using Kaplan-Meier and multivariable Cox proportional hazards models. Five-year allograft survival was 53% in the VXM-negative cohort, 64% in the VXM-positive/FCXM-negative cohort, and 57% in the VXM-positive/FCXM-positive cohort (P = .7171). Five-year CLAD-free survival was 53% in the VXM-negative cohort, 60% in the VXM-positive/FCXM-negative cohort, and 63% in the VXM-positive/FCXM-positive cohort (P = .8509). This study confirms that allograft and CLAD-free survival of patients who undergo VXM-positive/FCXM-positive lung transplants with the use of our protocol does not differ from those of other lung transplant recipients. Our protocol for VXM-positive lung transplants improves access to transplant for sensitized candidates and mitigates even high immunologic risk.

Eplet matching in pediatric heart transplantation: The SickKids experience.

BACKGROUND: Epitope-based tissue matching may be superior to HLA antigen matching. We compared antigen to molecular-level HLA matching on outcomes following pediatric heart transplantation (HTx). METHODS: This is a retrospective, single centre cohort study (2013-2020). HLA antigen and eplet mismatch analyses were performed in HTx patients <18 years old. Primary endpoint was graft loss; secondary endpoints were rejection and cardiac allograft vasculopathy (CAV). A multivariable Cox regression analysis was used to examine associations between eplet or antigen mismatching and outcomes. A logistic regression analysis was performed to examine associations between eplet or antigen mismatching and outcomes. RESULTS: Seventy-seven patients (40% males) were included, with a median age at HTx 4.3 years [range 0.05-18]. Median HLA class I and II eplet mismatches were 10 (1-22) and 11 (1-23). Median class I and II antigen mismatches were 5 (1-6) and 4 (0-6). 9 patients (11.7%) died [median time 4 months (range 0.1-46)]. Eight (10.4%) patients developed AMR [median time 22 days (IQR = 168)]. Twenty-one patients (27.3%) had acute cellular rejection [median time 40 days (IQR = 85.5)]. In univariate analysis, patients with HLA Class II DPB eplet mismatches above the median for this cohort had an increased risk of graft loss (OR 5.3 [95%CI: 1.03-27.5], p = 0.039). HLA eplet mismatching was not associated with rejection; antigen mismatching was not associated with either graft loss or rejection. In multivariable analysis, patients with HLA Class II DPB eplet mismatches above the median had an increased risk of graft loss (HR 8.14 [95% CI: 1.26-49], p = 0.02). HLA eplet mismatching was not associated with rejection; antigen mismatching was not associated with graft loss or rejection. A logistic regression analysis including 'number of HLA Class II DPB eplet mismatches' correctly predicted 95.8% of the outcomes. CONCLUSION: In our cohort of pediatric heart transplant recipients, the number of HLA Class II DPB eplet mismatches was associated with graft loss. Molecular-level HLA matching is an emerging tool for graft loss risk stratification, but further study is required.

Reducing ethnic disparity in access to high-quality HLA-matched cord blood units for transplantation: analysis of the Canadian Blood Services' Cord Blood Bank inventory.

BACKGROUND: Launched in 2013, Canadian Blood Services' Cord Blood Bank (CBS' CBB) has built a high-quality, ethnically diverse cord blood repository that aims to reduce ethnic disparity in accessing suitable units for transplantation. METHODS AND RESULTS: As of December 2016, 2000 units have been banked. The self-reported maternal ethnicity was 58% non-Caucasian. Overall, 26% of units were classified as multi-ethnicity with Caucasian (84%) most frequently observed in combination with Asian, First Nations (predominant indigenous peoples in Canada south of the Arctic Circle), or African ethnicity. Utilization scores that incorporate total nucleated and CD34+ cell counts in the CBS' CBB were associated with greater likelihood of utilization compared with the international inventory of units (p < 0.05). The distribution of utilization scores was similar for Caucasians compared with non-Caucasians (p < 0.05). Using HLA genotypes of cord blood units and their mothers, we determined probable ethnic assignments for each haplotype using HaploStats (National Marrow Donor Program). Significant increases in HLA-match likelihoods are predicted for all ethnicities as the inventory grows to its target of 10,000 units and the gap in HLA-match likelihoods for Caucasian and non-Caucasian patients progressively declines. CONCLUSIONS: The CBS' CBB inventory is predicted to have high HLA-matching likelihoods across a broad spectrum of ethnic groups, improving access to high-quality stem cell products for all patients.

Measuring alloantibodies: a matter of quantity and quality.

PURPOSE OF REVIEW: This review describes the utility and limitations of measure for assessing the presence, relative strength, and clinical impact of human leukocyte antigen (HLA) alloantibodies, as well as the other qualitative features of antibodies that are important considerations in assessing patient risk. RECENT FINDINGS: Using MFI as a measure of antibody amount is limited for a variety of reasons. Standardized serum manipulations such as ethylene-diamine-tetra-acetic acid treatment or serum dilution results in better definition of relationships between MFI and antibody titer or complement activation, toward greater alignment in defining positivity. Increased understanding of HLA epitopes has improved the ability to precisely define donor specific HLA antibody (DSA) specificities and the analysis of structural HLA Class II epitope mismatches in donor-recipient pairs may assist in the prevention of de novo DSA development. Studies of antibody isotypes and immunopathological mechanisms underlying graft injury mediated by non-HLA antibodies are expanding the assessemnt of immunological risk. SUMMARY: Careful analysis of both semiquantitative and qualitative properties of donor-specific antibodies continues to improve our ability to study the effects of DSA on clinical outcomes in solid organ transplantation.

Unrelated donor choices for allogeneic hematopoietic cell transplantation in Canada: an evaluation of factors influencing donor selection.

BACKGROUND: Utilization of unrelated donors and cord blood units (CBUs) for allogeneic hematopoietic cell transplantation continues to increase. Understanding the practices of donor selection by transplant centers is critical for unrelated donor registries and cord blood banks to optimize registry composition and inventory to meet patient need. STUDY DESIGN AND METHODS: Unrelated donor and CBU selection practices of Canadian transplant centers served by Canadian Blood Services' OneMatch Stem Cell & Marrow Network (OM) were reviewed, including HLA match level, locus of disparity, age, sex, and product choice (donor vs. CBU). RESULTS: HLA-matched donors within OM and/or international (INT) registries were preferentially investigated, underscoring the primary importance of HLA matching. In the case of HLA-mismatched donors, HLA-A disparities were most common while DRB1 mismatches were least common. Advanced age, sex, and lack of donor availability were the most frequent reasons that high-probability OM donors were overlooked in favor of INT donors. High-probability 10 of 10 HLA-matched female donors from OM were often avoided in favor of INT male donors. Use of female donors, however, increased in cases restricted to more HLA-disparate donor options. Caucasian patients were more likely to find 10 of 10 matched donors, whereas use of mismatched donors and CBUs were more prevalent among non-Caucasian patients. CONCLUSIONS: Recruitment and retention of young, male donors from diverse ethnic backgrounds may increase the usage of histocompatible OM donors for patients in need.

Concise Review: Musculoskeletal Stem Cells to Treat Age-Related Osteoporosis.

Age-related (type-II) osteoporosis is a common and debilitating condition driven in part by the loss of bone marrow (BM) mesenchymal stromal cells (MSC) and their osteoblast progeny, leading to reduced bone formation. Current pharmacological regiments targeting age-related osteoporosis do not directly treat the disease by increasing bone formation, but instead use bisphosphonates to reduce bone resorption-a treatment designed for postmenopausal (type-I) osteoporosis. Recently, the bone regenerative capacity of MSCs has been found within a very rare population of skeletal stem cells (SSCs) residing within the larger heterogeneous BM-MSC pool. The osteoregenerative potential of SSCs would be an ideal candidate for cell-based therapies to treat degenerative bone diseases such as osteoporosis. However, to date, clinical and translational studies attempting to improve bone formation through cell transplantation have used the larger, nonspecific, MSC pool. In this review, we will outline the physiological basis of age-related osteoporosis, as well as discuss relevant preclinical studies that use exogenous MSC transplantation with the aim of treating osteoporosis in murine models. We will also discuss results from specific clinical trials aimed at treating other systemic bone diseases, and how the discovery of SSC could help realize the full regenerative potential of MSC therapy to increase bone formation. Finally, we will outline how ancillary clinical trials could be initiated to assess MSC/SSC-mediated bone formation gains in existing and potentially unrelated clinical trials, setting the stage for a dedicated clinical investigation to treat age-related osteoporosis. Stem Cells Translational Medicine 2017;6:1930-1939.

Intersecting Worlds of Transfusion and Transplantation Medicine: An International Symposium Organized by the Canadian Blood Services Centre for Innovation.

The principal theme of the symposium was centered on how the world of regenerative medicine intersects with that of transfusion medicine, with a particular focus on hematopoietic stem cells (HSCs) and stem cell therapies. The symposium highlighted several exciting developments and identified areas where additional research is needed. A revised map of human hematopoietic hierarchy was presented based on the functional and phenotypic analysis of thousands of single stem and progenitor cells from adult bone marrow and fetal liver. These analyses revealed that multipotency is largely restricted to the HSC and multipotent progenitor compartments in adult bone marrow where most progenitors are unipotent, whereas fetal liver contains a large number of distinct oligopotent progenitors. Furthermore, unlike adult bone marrow, multipotency is extended in the downstream progenitors in the hierarchy in the fetal liver stage. Production of platelets ex vivo from HSCs is emerging as a potentially viable option because of advances in culture techniques that combine cytokine mixtures, small molecules, and shear stress. However, limited HSC expansion and low platelet yield from culture-derived megakaryocytes remain problematic. Evidence was presented to support stricter guidelines for transfusion of platelets and red blood cells practices in allogeneic HSC transplant patients, although evidence is often extrapolated from general indications. Basic principles of human leukocyte antigen testing in HSC transplant were described, emphasizing the need for a national (and global) stem cell donor registry. Ongoing research is aimed at improving cellular cryopreservation including the establishment of a new thawing protocol that improves viability of umbilical cord blood CD34+ cells. Umbilical cord blood transplantation practices have also been improved; recent studies suggest noninferior outcomes when patients are transplanted with umbilical cord blood vs a matched adult donor. Finally, mesenchymal stem cell infusion is an example of a cellular therapy useful for immunomodulation. Preclinical trials suggest that mesenchymal stem cells may be effective in managing sepsis. In conclusion, practices and research surrounding HSCs are continuing to evolve rapidly as new information is obtained.

Clinical Studies of Ex Vivo Expansion to Accelerate Engraftment After Umbilical Cord Blood Transplantation: A Systematic Review.

Cell dose limits greater use of umbilical cord blood (UCB) in hematopoietic cell transplantation. The clinical benefits of ex vivo expansion need clarity to understand its potential impact. A systematic search of studies addressing UCB ex vivo expansion was conducted. Fifteen clinical studies (349 transplanted patients) and 13 registered trials were identified. The co-infusion of an expanded unit and a second unmanipulated unit (8 studies), the fractional expansion of 12% to 60% of a single unit (5 studies), and the infusion of a single expanded unit (2 studies) were reported. More recently, published studies and 12 of 13 ongoing trials involve the use of novel small molecules in addition to traditional cytokine cocktails. Higher total cell number was closely associated with faster neutrophil engraftment. Compared with historical controls, neutrophil engraftment was significantly accelerated in more recent studies using small molecules or mesenchymal stromal cells (MSC) co-culture, and in some cases, platelet recovery was also statistically improved. Recent studies using nicotinamide and StemRegenin-1 reported long-term chimerism of the expanded unit. No significant improvement in survival or other transplant-related outcomes was demonstrated for any of the strategies. Ex vivo expansion of UCB can accelerate initial neutrophil engraftment after transplant. More recent studies suggest that long-term engraftment of ex vivo expanded cord blood units is achievable. Results of larger randomized controlled trials are needed to understand the impact on patient outcomes and health care costs.

Systemic Mesenchymal Stromal Cell Transplantation Prevents Functional Bone Loss in a Mouse Model of Age-Related Osteoporosis.

UNLABELLED: Age-related osteoporosis is driven by defects in the tissue-resident mesenchymal stromal cells (MSCs), a heterogeneous population of musculoskeletal progenitors that includes skeletal stem cells. MSC decline leads to reduced bone formation, causing loss of bone volume and the breakdown of bony microarchitecture crucial to trabecular strength. Furthermore, the low-turnover state precipitated by MSC loss leads to low-quality bone that is unable to perform remodeling-mediated maintenance--replacing old damaged bone with new healthy tissue. Using minimally expanded exogenous MSCs injected systemically into a mouse model of human age-related osteoporosis, we show long-term engraftment and markedly increased bone formation. This led to improved bone quality and turnover and, importantly, sustained microarchitectural competence. These data establish proof of concept that MSC transplantation may be used to prevent or treat human age-related osteoporosis. SIGNIFICANCE: This study shows that a single dose of minimally expanded mesenchymal stromal cells (MSCs) injected systemically into a mouse model of human age-related osteoporosis display long-term engraftment and prevent the decline in bone formation, bone quality, and microarchitectural competence. This work adds to a growing body of evidence suggesting that the decline of MSCs associated with age-related osteoporosis is a major transformative event in the progression of the disease. Furthermore, it establishes proof of concept that MSC transplantation may be a viable therapeutic strategy to treat or prevent human age-related osteoporosis.

Hippocampal gene expression analysis highlights Ly6a/Sca-1 as candidate gene for previously mapped novelty induced behaviors in mice.

In this study, we show that the covariance between behavior and gene expression in the brain can help further unravel the determinants of neurobehavioral traits. Previously, a QTL for novelty induced motor activity levels was identified on murine chromosome 15 using consomic strains. With the goal of narrowing down the linked region and possibly identifying the gene underlying the quantitative trait, gene expression data from this F(2)-population was collected and used for expression QTL analysis. While genetic variation in these mice was limited to chromosome 15, eQTL analysis of gene expression showed strong cis-effects as well as trans-effects elsewhere in the genome. Using weighted gene co-expression network analysis, we were able to identify modules of co-expressed genes related to novelty induced motor activity levels. In eQTL analyses, the expression of Ly6a (a.k.a. Sca-1) was found to be cis-regulated by chromosome 15. Ly6a also surfaced in a group of genes resulting from the network analysis that was correlated with behavior. Behavioral analysis of Ly6a knock-out mice revealed reduced novelty induced motor activity levels when compared to wild type controls, confirming functional importance of Ly6a in this behavior, possibly through regulating other genes in a pathway. This study shows that gene expression profiling can be used to narrow down a previously identified behavioral QTL in mice, providing support for Ly6a as a candidate gene for functional involvement in novelty responsiveness.