Veno-occlusive disease of the liver (VOD) is an important complication in hematological transplantation. The aim of this study is to analyze the risk factors for VOD and other forms of liver toxicity in a cohort of 180 peripheral stem cell transplants performed in our Center. We find that elevated pretransplant levels of serum ferritin are the most important risk marker for VOD. We believe that ferritin reflects damage induced by oxygen radicals resulting from iron-mediated catalysis. We also discuss different risk factors for VOD and other forms of liver toxicity, suggesting diferent pathogenic mechanisms.
Summary:In order to assess the potential clinical benefit of filgrastim (G-CSF) after peripheral blood stem cell (PBSC) autotransplantation a randomized study was begun in our center in July 1997: 62 patients were involved (30 received filgrastim after PBSC infusion and 32, the control group, received no cytokines). All were adults (median 40 years, range 18-65). Patients with one of three different pathologies were recruited: 28 had advanced breast carcinoma, 23 had lymphomas (12 Hodgkin's disease and 11 non-Hodgkin's lymphoma) and 11 had de novo AML. All of them were transplanted using myeloablative chemotherapy conditioning regimens. G-CSF was administered subcutaneously from day +5 in the treated group at a dose of 5 g/kg body weight/day. The numbers of CD34 + and mononuclear (MNC) cells infused were similar in each group. Only minor differences regarding the use of G-CSF could be inferred from the analysis of the data. Faster granulocyte engraftment was evident in the treated group (mean of 10 vs 12 days to achieve Ͼ0.5 × 10 9 /l granulocytes, P = 0.0008), without differences in incidence and severity of infections, days of fever or duration of antibiotic treatment between groups. There was slightly slower platelet engraftment (mean of 15 days in the group with G-CSF vs 12 days in the other group to achieve Ͼ20 × 10 9 /l platelets, P = NS) in this series, but there were no differences in incidence and severity of haemorrhage or platelet transfusion support. Considering the economical costs, the median expenditure per inpatient stay was Eur5961 (range Eur4386-Eur17186) in the G-CSF group compared with Eur5751 (range Eur3676-Eur15640) in the control group (P = 0.47). From our data it could be concluded that for adult patients transplanted with PBSC there is no clear beneficial impact of post-infusion G-CSF administration.
Secondary myelodysplastic syndrome (MDS) and acute leukemia (AL) are well-known complications of antineoplastic therapy. The incidence of these serious complications after autologous hematopoietic transplantation ranges from 1.1% to 24%. Prior chemotherapy is its most likely cause, but other variables related to these long-term complications are seriously discussed. There is evidence that priming of progenitor cells isolated from peripheral blood with chemotherapy is also related to a higher risk of secondary MDS/AL. Whether progenitor cells isolated from bone marrow or peripheral blood after mobilization only with cytokines are related to higher risk is a controversial issue. In this paper, we analyze the incidence and variables related to these complications in a series of 99 patients diagnosed with lymphoma or multiple myeloma who underwent autologous transplantation using hematopoietic progenitors isolated from peripheral blood mobilized with granulocyte colony-stimulating factor (G-CSF). The probability of MDS/AL in patients alive 5 years after transplant in our series is 8.58%, similar to that reported in other series using bone marrow grafts. The total dose of cyclophosphamide ( p=0.099), the number of chemotherapy cycles ( p=0.04) received before transplant, and the total dose of mononuclear cells infused at the time of transplant were the only variables associated with secondary MDS/AL. Autologous transplantation with progenitor cells isolated from peripheral blood after mobilization with cytokines has probability and risk factors for secondary MDS/AL development similar to bone marrow grafts when compared with other published series.
Objective-To investigate the reactivity with TIA-1 and TIA-2, two monoclonal antibodies that recognise, respectively, granular structures in T lymphocytes and the T cell receptor chain in cells from a variety of T cell disorders. Methods-Cytoplasmic staining with TIA-1 and TIA-2 was carried out by the immunoalkaline phosphatase anti-alkaline phosphatase technique in 67 cases with a T cell disorder: 31 large granular lymphocyte (LGL) leukaemia, nine T-prolymphocytic leukaemia (T-PLL), five Sezary syndrome, four peripheral T cell lymphoma (PTCL), 13 T cell lymphocytosis, and five T-acute lymphoblastic leukaemia (T-ALL). All had over 75% abnormal T cells which were CD2+, CD3+, CD5+, CD7+, and negative with B cell markers.Results-TIA-1 was positive in 77% cases of LGL leukaemia and half of the PTCL and T-ALL, whereas it was negative in all Sezary syndrome and most T-PLL (8/9) and reactive T-lymphocytosis (10/13). In LGL leukaemia, TIA-1 was positive irrespective of the membrane phenotype, whether CD8 +, CD4-or CD4 +, CD8-, and was more often positive in cases where cells were CD16+, CD56+, or CD57+. TIA-2 was positive in 60% of cases encompassing all diagnostic types of T cell disorder. There was no correlation between TIA-2 expression and that of other T cell markers, activation antigens, and natural killer markers. Conclusions-The pattern of TIA-1 expression in T cell malignancies may help in the differential diagnosis among LGL leukaemia (high expression), T cell lymphocytosis and other T cell diseases (low expression). As TIA-2 is expressed in over 95% mature T lymphocytes and thymic cells, its assessment may be usefiu to demonstrate aberrant phenotypes which can be exploited for detecting minimal residual disease. (J Clin Pathol 1996;49:154-158)
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