Summary:The incidence of adenovirus (AV) infections following SCT was determined in a prospective multicenter trial. Over 1 year, 130 consecutive patients undergoing allogeneic SCT at Essen University Hospital were included and followed for 6 months. Source of stem cells was blood in 68 cases. Fifty-eight patients had HLA-identical sibling donors. Throat swabs, urine and stool samples were screened weekly for AV antigen and DNA by ELISA and nested PCR, respectively. In 35 cases adenovirus infection was detected. There was no seasonal variation. Throat swabs were positive in 24, urine in 12, and stool in 11 cases, resulting in a cumulative risk of infection of 29%. The incidences of AV infection of the respiratory, gastrointestinal and urinary tract were 19%, 10%, and 9%, respectively, and infections were diagnosed after a median (range) interval of 44 (−2-179), 37 (−2-168), and 53 (17-153) days after transplantation. On multivariate analysis, presence of AV antibody in the donor and acute graft-versus-host disease grade IV were found to be independent risk factors for AV infection. Eleven patients had AV isolated from more than one site and five patients had probable AV disease. We were not able to identify patients in whom AV infection was the leading cause of death. The majority of patients infected with AV suffered from severe acute graft-versus-host disease often accompanied by other opportunistic infections, such as aspergillosis or CMV reactivation. Nineteen out of 36 patients who died during the observation period had AV infection. In summary, AV infection after allogeneic SCT was observed in a substantial number of patients. In addition to well-known risk factors for viral infection after SCT we were able to demonstrate that a positive AV antibody test in the donor is an important risk factor for AV infection. Further studies are needed, how- Hemopoietic stem cell transplantation has been used with increasing success for treatment of patients with various hematological neoplasms, but the procedure itself is associated with significant morbidity and mortality. Infectious complications are major factors contributing to transplantrelated mortality. In the past, the most common viral infections following marrow transplantation were caused by herpes simplex virus (HSV), cytomegalovirus (CMV), and varicella zoster virus (VZV). With the introduction of acyclovir for HSV and VZV and ganciclovir treatment for CMV, fatalities caused by these viruses have decreased dramatically. Over the same period of time, reports on fatal viral infections caused by adenovirus (AV) have been published by several groups. [1][2][3] The most common clinical manifestation of AV infection is hemorrhagic cystitis, 4 followed by gastroenteritis, pneumonitis, and liver failure. 5 In addition, AV can cause pancreatitis, nephritis, and disseminated disease leading to mortality rates ranging from 18 to 60%. The outcome of AV disease depends on patient age, type of immunosuppression, and AV serotype. 6 An increasing incidence of AV infection...
Summary:Veno-occlusive disease (VOD) of the liver is a complication observed particularly in patients undergoing hematopoietic stem cell transplantation (HSCT). Defibrotide (DF) is a polydeoxyribonucleotide with aptameric activity on endothelium. We evaluated in a retrospective analysis the efficacy of DF in pediatric patients developing hepatic VOD after HSCT. A total of 45 patients between 0.2 and 20 years (median age: 8.2 years) with hepatic VOD were treated with DF: 22 patients (49%) met risk criteria for severe or progressive disease and 23 (51%) for moderately severe and mild disease. The median duration of DF treatment was 17 days. In all, 34 patients (76%) achieved complete response (CR) with a survival rate of 64% at day 100. CR rate in patients with severe disease was 50% with longterm survival of 36%. The average DF dose in the CR group was 45 mg/kg/day and in the no responder (NR) group 27 mg/kg/day. The use of additional drugs besides DF to treat VOD made no difference in the outcome compared to DF alone. The average interval from diagnosis to start of DF was 1 day in the CR and 5.5 days in NR group. In multivariate analysis, early intervention remained the only significant factor for a CR.
Engraftment was achieved in 43/45 (95%) recipients of peripheral blood stem cells (PBSC) from HLA-compatible unrelated donors (n = 45), compared to all 45 patients in matched controls receiving bone marrow and 14/18 (78%) recipients of CD34-selected PBSC (P < 0.01). The time to reach ANC >0.5 x 10(9)/l was a median of 16 days in the PBSC and CD34 groups, compared to 20 days in the bone marrow controls (P < 0.001 vs PBSC). The time to reach platelets >50 x 10(9)/l was a median of 23 days in the PBSC group and 24 days in the CD34 group, which was significantly faster than 29 days in the bone marrow controls (P < 0.01). Acute GVHD grades II-IV developed in 30% in the PBSC group, 20% in the recipients of bone marrow and 18% in the CD34 group. The corresponding figures for chronic GVHD were 59%, 85% and 0% (P < 0.01) in the three groups, respectively. The probability of non-relapse death was 27% in the recipients of PBSC, 21% in the bone marrow controls and 60% in the CD34 group (NS). The 2-year leukaemia-free survival was 46% in the PBSC group, 41% in the bone marrow group and 25% in the CD34 group (NS).
© Ferrata Storti Foundation IntroductionSince the first clinical trial of mesenchymal stromal cells (MSC) 9,10 Another important issue regarding the clinical application of MSCs is their culture under serum-free conditions. The majority of clinical studies have used MSCs that were expanded in media supplemented with fetal bovine serum (FBS). 1,[11][12][13][14][15] To avoid the risks associated with the use of FBS, 16 platelet lysate (PL) was proposed as a supplement to tissue culture media for MSCs. 17 Recently, several studies showed that MSCs that were expanded in PL exhibited the same efficacy as MSCs cultured in serum-containing media for the treatment of GvHD. 18-22To date, clinical studies have used MSCs that have been generated from several individual donors. Considering the aforementioned inter-donor heterogeneity and the need for a large number of "off-the-shelf" MSCs, the establishment of MSC banks appears to be an indispensable strategy for providing a continuous supply of MSCs with predictable potency. To our knowledge, there are few established MSC banks worldwide, and these MSC banks were generated by separately isolating, expanding, and freezing MSCs from up to 10 donors in FBS-containing media. [23][24][25][26] In the current study, we report for the first time the establishment of a serum-free and GMP-compliant MSC bank generated from pooled bone marrow mononuclear cells (BM-MNCs) of multiple donors as a novel strategy to circumvent donor-to-donor variability. Clinical-grade MSC endproducts (MEPs) derived from the MSC bank were thoroughly assessed for their proliferation, differentiation, and, in particular, for the allosuppressive potential in vitro. Importantly, 81 MEPs were administered as a rescue therapy to 26 pediatric patients with severe steroid-refractory aGvHD in seven transplantation centers. Safety and efficacy of MEPs was compared to MSCs generated from a single or several individual donors that have been used in the GvHDclinical studies reported thus far. Methods Generation of MSC bank and clinical-grade MEPsBone marrow was collected from 8 healthy volunteers (age 21-45 years old) after written informed consent and after the approval of the local Ethics Committee (n. 275/09). BM-MNCs were enriched from the bone marrow aspirate by using the Sepax II NeatCell process (Biosafe, Eysins, Switzerland) and frozen individually. After thawing and washing these BM-MNCs were pooled. This pool of BM-MNCs from 8 donors was used to generate MSCs over 14 days in culture. After their detachment, passage 1 mesenchymal stromal cells (MSC-P1) were washed and aliquoted into 209 cryovials (each containing 1.5x10 6 MSC-P1). Cryopreserved vials with MSC-P1 were referred to as the MSC bank.To generate clinical-grade MEPs, MSC-P1 aliquots from the MSC bank were thawed and after washing they were expanded in medium containing 10% PL till the end of passage 2. These MSCs were re-suspended in cryomedium (0.9% NaCl containing 5% HSA and 10% DMSO), distributed in cryobags (each containing 1-3x10 6 MS...
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