Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Impairment in T cell proliferation in response to E. coli and in CML to unrelated alloantigens was usually observed in patients early after marrow grafting and persisted in long-term patients with chronic GVHD but not in those without chronic GVHD. We analyzed various cellular functions in the pathway of T cell activation and found that in patients with immunodeficiency, (1) their M phi usually could process and present antigens to normal T cells, (2) their T cells did not proliferate even in the presence of normal antigen-pulsed M phi, (3) IL-2 production by T cells was deficient, and (4) exogenous IL-2 restored CML activity in cells of most patients early after grafting but not in cells of most patients with chronic GVHD. Therefore, failure to induce proliferation and cytotoxicity in T cells of marrow recipients is not likely due to M phi defects but because of ineffective communication among T cell subsets, probably related to impaired IL-2 production and/or unresponsiveness to IL-2.
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PMID:Ineffective cellular interaction and interleukin 2 deficiency causing T cell defects in human allogeneic marrow recipients early after grafting and in those with chronic graft-versus-host disease. 639 Aug 48

Epstein-Barr-associated lymphoproliferative disorders have been described as complications of immunodeficiency states including allogeneic BMT. There is, however, only one report in the English language literature of such a disorder after autografting. We report a 56-year-old man undergoing autologous BMT for CML in whom a rapidly progressive lymphoproliferative disorder showing the histology of typical post-transplant lymphoproliferative disorder with latent EBV presence developed at approximately 30 days after BMT. Therapy with corticosteroids, acyclovir and alpha-interferon was instituted and led to prompt resolution of symptoms and signs. There was no evidence of lymphoproliferative disease at 7 months after BMT. It is concluded that EBV-associated lymphoproliferative disorders may be a complication, albeit a rare one, of intensive therapy with autologous stem cell support.
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PMID:Polyclonal Epstein-Barr virus-associated lymphoproliferative disorder following autografting for chronic myeloid leukemia. 765 94

Graft-versus-host disease (GVHD) is a life threatening complication that may occur following allogenic bone marrow transplantation (BMT) in the patients with aplastic anemia, leukemia or genetic immunodeficiency. It has been known that GVHD occurs approximately 70% of recipients of BMT in western countries but no definite incidence has been reported in Korea. In our St. Mary's Hospital, GVHD occurs in about 30% of BMT recipients. Histopathologically the acute phase skin shows diffuse lymphocytic infiltrates in the upper dermis with extensive exocytosis. Scattered throughout the epidermis are many degenerated keratinocytes, which are often associated with one or more satellite lymphocytes (satellite cell necrosis). In the chronic phase, acanthosis, eosinophilic keratinocytes resembling colloid bodies and mononuclear cell infiltrates in the upper dermis are noted. We reviewed 5 cases of acute GVHD and 6 cases of chronic GVHD. All patients received allogenic BMT from Jan. 1, 1992 to July 1, 1993. Ten patients were male and one was female. The mean age was 34 (20-70). The pathologic diagnosis was 3 cases of CML, 2 of ALL, 2 of AML (FAB M2), 2 of aplastic anemia, 1 of CLL and 1 of AML (FAB M5). The interval from BMT to GVHD varied from 14 days to 4 years (median 220 days). The skin and GI tract were involved in all eleven cases. Ten cases were histologically proven by skin biopsies, and two cases by salivary gland and colonic biopsies, respectively. The histological findings of the skin, salivary gland and colonic biopsieds were described. Immunohistochemical stain of the skin was done using CD4, CD8, HLA DR and Leu 7 antibodies.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Graft-versus-host disease--clinical and pathological analysis of 11 biopsy proven cases. 770 86

Bone marrow transplantation is now being performed in children having a variety of hematologic malignancies and solid tumors. Marrow donors for patients with hematologic malignancies are usually allogeneic, including HLA-identical siblings, one-antigen mismatched family members, unrelated matched donors, or in some situations, two- or three-antigen mismatched family member donors. Umbilical cord blood is being explored as a source of hematopoietic reconstitution for some allogeneic transplants. Recipients with solid tumors most often receive autologous marrow or PBSC grafts. Posttransplant complications continue to include acute and chronic GVHD, infections, prolonged immunodeficiency, and recurrent malignancy. Because children are now surviving longer after transplantation, a variety of delayed effects are becoming apparent. These include, but may not be limited to, neuroendocrine dysfunction, neuropsychological effects, and ocular and pulmonary dysfunction. Secondary malignancies are now also becoming apparent, particularly among patients surviving more than 10 years after transplantation. Despite these known problems, marrow transplantation remains the treatment of choice for patients who relapse from conventional chemotherapy and for patients with CML in chronic phase and AML in first remission. Research continues to develop methods to decrease posttransplant complications and, hence, increase the probability of long-term disease-free survival.
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PMID:Bone marrow transplantation for pediatric malignancies. 928 97

IL-10 plays an important role in the control of immune reactions during systemic infection. Here, IL-10 serum levels were investigated in patients after BMT. The IL-10 levels correlated with the clinical course of the patients and with serum levels of C-reactive protein (CRP) and neopterin (NP). A total of 26 patients with AML (7), ALL (12), CML (2), NHL (3) and multifocal Ewing's sarcoma (2) had received autologous (10) or allogeneic (16) BMT from related (9) or unrelated donors (7). Routine serum samples were obtained prior to BMT and at days 46 and 100 after BMT. However, in patients with severe complications additional samples were drawn at individual points in time. Prior to BMT, IL-10 serum levels were not detectable in 24/24 patients. Post-BMT, 11 patients developed elevated IL-10 levels, of these eight died of complications (DOC), whereas only one of 15 patients with undetectable IL-10 died of complications, indicating that high IL-10 levels were significantly correlated with severe life-threatening complications (chi2, P < 0.01). To determine the pathomechanism and role of the increased IL-10 levels, they were correlated to the respective NP and CRP serum concentrations. CRP and NP concentrations were found significantly elevated in patients with detectable IL-10, indicating a severe acute phase reaction associated with macrophage activation. In conclusion, high IL-10 serum levels in patients after BMT were significantly associated with fatal outcome. Since IL-10 is a strong suppressor of T cell immunity, high IL-10 production in patients with severe complications such as septic shock or GVHD > grade II after BMT might lead to functional immunodeficiency contributing to the poor prognosis of these patients.
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PMID:High interleukin-10 serum levels are associated with fatal outcome in patients after bone marrow transplantation. 933 50

Chimerism is an exceptional immunogenetic state, characterized by the survival and collaboration of cell populations originated from two different individuals. The prerequisits to induce chimerism are immuno-suppression, myeloablation, or severe immunodeficiency of the recipients on the one side and donor originated immuno-hematopoietic cells in the graft on the other. The pathologic or special immunogenetic conditions to establish chimerism are combined with bone marrow transplantation, transfusion, and various kinds of solid organ grafting. Different types of chimerism are known including complete, mixed and mosaic, or split chimerism. There are various methods used to detect the type of chimera state, depending on the immunogenetic differences between the donor and recipient. The induction of complete or mixed chimerism is first determinated by the effect of myeloablative therapy. The chimera state seems to be one of the leading factors to influence the course of the post-transplant period, the frequency and severity of GVHD, and the rate of relapse. However, the most important contribution of the chimeric state is in development of graft versus leukemia effect. A new conditioning protocol (DBM/Ara-C/Cy) for allogeneic BMT in CML patients and its consequence on chimera state and GVL effect is demonstrated.
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PMID:Immunological importance of chimerism in transplantation: new conditioning protocol in BMT and the development of chimeric state. 1071 1

Careful longitudinal studies of the lymphoid cell recovery after stem cell transplantation with other than HLA-identical sibling donors illustrated the prolonged T- and B-cellular immunodeficiency post-SCT, whereas NK-cell recovery was fast. Only low numbers of CD45RO memory T-cells, with a restricted TCR-repertoire, are present in the first 6 months post-SCT. The consequence is an increased risk of viral infections and possibly of leukemia relapse. The latter complication can be prevented by enhancing the anti-leukemic immune reactivity shortly after SCT. Different technical approaches were presented, the majority of them still being in the pre-clinical phase. NK-cell reactivity based on KIR-epitope mismatches between donor and recipient are promising for AML- and CML-, not for ALL-patients. The ALL-blasts may be killed by an antibody-dependent cellular cytotoxicity, using anti-CD19 antibodies, as was shown to be effective in vitro. Also the generation of leukemia-specific CTL's, making use of differences in minor histocompatibility antigens between donor and recipient, is now operational and may be a highly effective approach in a number of leukemic graft recipients.
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PMID:Immune recovery and immunotherapy after stem cell transplantation in children. 1157 27

Chimerism is an exceptional immunogenetic state, characterized by the survival and collaboration of cell populations originated from two different individuals. The prerequisites to induce chimerism are immunosuppression, myeloablation or severe immunodeficiency of the recipients on one side and donor originated immuno-hematopoietic cells in the graft on the other. Special immunogenetic conditions to establish chimerism are combined with bone marrow transplantation, transfusion and various kinds of solid organ grafting. There are various methods to detect the type of chimera state depending on the immunogenetic differences between the donor and recipient. The chimera state seems to be one of the leading factors to influence the course of the post-transplant period, the frequency and severity of graft-versus-host disease (GVHD), and the rate of relapse. However, the most important contribution of the chimeric state is the development of graft versus leukemia (GVL) effect. A new conditioning protocol (DBM/Ara-C/Cy) for allogeneic BMT in CML patients and its consequence on chimera state and GVL effect is demonstrated.
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PMID:[Clinical and immunopathological significance of chimerism in bone marrow and organ transplantations] 1205 Jul 23

The concept of utilizing enhanced immunosuppression rather than myeloablative cytotoxic conditioning has allowed the engraftment of allogeneic stem cells from related and unrelated donors with lower early transplant-related mortality (TRM) and morbidity. This approach shifts tumor eradication to the graft-vs-host immune response directed against minor histocompatibility antigens expressed on tumor cells. This is not without risk, as the long-term effects of graft-versus-host disease (GVHD), it's treatment, or resulting complications and immunodeficiency may be life threatening. However, this approach does allow the application of a potentially curative procedure to elderly or medically infirm patients who would not tolerate high-dose conditioning regimens. Section I, by Dr. Sandmaier, describes the current use of nonmyeloablative regimens and matched related or unrelated donors for the treatment of patients with CLL, CML, acute leukemia, MDS, lymphoma, and myeloma. In Section II, Dr. Maloney discusses the use of cytoreductive autologous followed by planned non-myeloablative allografts as treatment for patients with myeloma or NHL. This tandem transplant approach has a lower TRM than conventional high dose allografting. The nonmyeloablative allograft may allow the graft-versus-tumor (GVT) immune response to eradicate the minimal residual disease that causes nearly all patients with low-grade NHL or myeloma to relapse following autologous transplantation. In Section III, Dr. Mackinnon discusses the risks and benefits of T cell depletion strategies to prevent acute GVHD, while retaining GVT activity by planned donor lymphocyte infusions. Finally, in Section IV, Dr. Shizuru discusses the relationship between GVHD and GVT activity. Future studies, employing a greater understanding of these issues and the separation of GVHD from GVT activity by immunization or T cell cloning, may allow nonmyeloablative allogeneic transplantation to be safer and more effective.
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PMID:Non-myeloablative transplantation. 1244 34

Between March 1984 and December 1999, a total of 43 second related allogeneic BMT procedures after myeloablative conditioning were carried out in our institution, 37 following allogeneic, and 6 following autologous BMT. Thirty one patients were males (72%). At 1st BMT (BMT1), median age was 11.5 years (range, 0.16-45 years). BMT1 was carried out for the diagnosis of AML in 13 patients (30%), SAA in nine (21%), ALL in six (14%), CML in six (14%), immunodeficiency in three (7%), NHL in two, beta-thal in two, HD in one, Red cell aplasia in one. HLA matching status for allogeneic BMT1 was full match in 33, one antigen mismatch in two and haplo identical in two patients. Median age at the 2nd BMT (BMT2) was 14 years (range, 0.41-46.7 years). Indications for BMT2 were recurrent hematologic neoplasm in 23 patients (53%), primary graft failure in 12 (28%) and late graft failure in 8 (19%). Median time from BMT1 to recurrence of hematologic neoplasm or late graft failure was 10 months (range, 2.5- 88 months). Median BMT1 to BMT2 interval was 13 months (range, 1-107 months). For BMT2, the same donor was used in 29 patients, while 14 patients had alternate related donor (12 full match, 1-one Ag mismatch, 1 haplo identical). A different conditioning regimen was used in the majority of the patients (39, 91%). Radiation containing conditioning regimen were used mostly for patients previously conditioned with chemotherapy only for BMT1 and chemotherapy conditioning +/- ATG for those who received radiation containing conditioning at BMT1. Bone marrow was the stem cell source for all patients at BMT2 and all except three autologous peripheral stem cell transplantation patient at BMT1. Significant organ toxicity leading to procedure related death in 13 patients (30%) was observed after BMT2. At a median follow up of 36 months after BMT2, 22 patients (51%) are alive (20 free of disease, 2 with recurrent disease) with overall median survival of 47.5 (SD +/- 9) months. Univariate analysis of relevant clinical factors identified the following variables as the only statistically significant favorable prognostic factors for overall survival: BMT1-BMT2 interval of > or = 6 months (P=0.0007) and age at BMT2 < or = 10 years (P=0.041). The nature of underlying disease (neoplastic or non-neoplastic) was not statistically significant (P=0.23). There was no statistically significant difference in survival outcome of BMT2 using same donor vs. alternate related donor (P=0.51). Due to the relatively limited sample size, multivariate analysis was not attempted. This single institution study suggests that second allogeneic BMT after myeloblative conditioning has an acceptable treatment related morbidity/mortality and favorable outcome if performed at age < or = 10 years and with an interval of > or = 6 months after the first BMT. Additionally same donor can successfully be used for the second transplant with similar survival outcome to alternate donor.
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PMID:Second allogeneic bone marrow transplantation after myeloablative conditioning analysis of 43 cases from single institution. 1520 67


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