EC:2.1.1.69 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.1.1.69 (BMT)
2,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Viral infections are one of the major complications after bone marrow transplantation, with high mortality and morbidity. Fourty-six patients between 3 and 48 years old (median 15 years) received orally 400 mg (under age 6, 200 mg) acyclovir 4 times daily from day -12 before to day 84 after BMT. All patients were isolated in laminar-airflow units for at least 23 days with total enteral decontamination. They were concomitantly treated with anti-CMV-hyperimmunoglobulin and cotrimoxazol. During acyclovir prophylaxis seven patients had herpes simplex virus infections, all of them were seropositive before BMT. Acyclovir plasma concentrations were measured by use of a new HPLC method. No acyclovir was present (detection limit 40 ng/ml) in the plasma of five out of six patients with HSV infections. Three of them had non-compliance, and a lack of acyclovir absorption developed in two patients under conditioning regimen. No drug-related side effects were observed. Laboratory tests did not show liver or renal toxicity. Take and hematologic reconstitution were unchanged. In our study, oral acyclovir reduced the incidence of herpes simplex infections after bone marrow transplantation. Herpes infections only occurred in patients with non-compliance or lack of acyclovir absorption.
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PMID:[Oral prophylaxis of herpes infections using acyclovir following bone marrow transplantation: a clinical and clinico-pharmacological study]. 242 15

The influence of pretransplant herpes virus antibodies in patients and donors in the subsequent development of chronic graft-versus-host disease (GVHD) was analysed in 150 consecutive HLA identical bone marrow recipients. The Cox regression bivariate analysis showed that (i) pretransplant seropositivity for cytomegalovirus (CMV) in the patients and the donors, (ii) donor seropositivity for herpes simplex virus and Epstein-Barr virus, (iii) high donor and patient age, (iv) a previous grade II-IV acute GVHD, (v) patients receiving unirradiated donor buffy coat cells post-transplant, (vi) overall CMV infection, (vii) high donor herpes virus load (positive serology for 3-4 herpes viruses versus 0-2), and (viii) high recipient herpes virus load prior to BMT were all associated with a high incidence of chronic GVHD. In Cox regression multivariate analysis, high pretransplant donor herpes virus load (p less than 0.001) and a previous grade II-IV acute GVHD (p = 0.02) were the strongest predictors of chronic GVHD. Thus, herpes virus immune cells in the donated marrow may play a role in the pathophysiology of chronic GVHD.
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PMID:Pretransplant herpes virus serology and chronic graft-versus-host disease. 255 36

Bone marrow transplantation was carried out in 13 patients. Seven patients (the doses of the total gamma-radiation were from 6.6 to 11.9 Gy; 4 identical, 2 "haplo + I", 1 haploidentical to BMT) died from radiation-induced skin injuries (beta-burns) incompatible with further life, from intestinal and pulmonary lesions from days 17 to 25 after radiation (days +2-+9 after BMT). Four patients (the doses were from 4.4 to 10.2 Gy; 2 identical, 1 "haplo + I", 1 haploidentical to BMT) died from acute secondary disease (ASD) and herpes virus infections within 34 (+27) to 91 (+79) days. Two patients (the doses constituted 5.6 and 8.7 Gy; haploidentical to BMT) are alive. They demonstrated incomplete myelopoietic chimera (up to +32-+36 days), non-grave ASD (from day +13 to day +57), the onset of the own myelopoiesis on days 27-28 and its final recovery by the termination of the 3d-4th month following radiation.
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PMID:[Transplantation of the bone marrow after total body irradiation of the victims after the accident at the Chernobyl atomic power plant]. 265 74

Recovery of B-cell number and function was studied in 23 patients with hematological malignancies treated with high-dose chemoradiotherapy followed by autologous bone marrow transplantation (auto-BMT) in relation to the presence or absence of cytomegalovirus (CMV) infection. B cells recovered rapidly after auto-BMT and specific antibodies to herpes viruses remained nearly unchanged. Both were independent of the CMV status of the patients. However, the capacity of peripheral blood B cells to differentiate in vitro into cytoplasmic immunoglobulin (Ig)-positive cells (plasma cells) on pokeweed mitogen stimulation in the presence of normal T-cell help was significantly better in CMV-negative patients than in CMV-positive patients after auto-BMT, but was decreased in both groups. Serum Ig levels were, in contrast, higher in CMV-positive patients than in CMV-negative patients after auto-BMT.
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PMID:Influence of cytomegalovirus infection on the recovery of humoral immunity after autologous bone marrow transplantation. 304 Apr 53

This article has outlined the special problems associated with evaluation of bone marrow before and after BMT. Marrow grafting has become a major form of therapy in oncology and hematology whose potential is only beginning to be fully realized. The transplantation of healthy hematopoietic and lymphoid cells has made possible the use of otherwise superlethal doses of radiation and chemotherapy in preparing the patient for engraftment. In the case of tumors, this allows massive doses of tumorocidal therapy prior to rescue with a BMT. In the case of aplastic anemia, it allows massive immunosuppression and ablation of the residual host marrow in preparation for replacement by the healthy donor marrow. The complications of this procedure include the toxicity of chemotherapy and irradiation upon the liver, lung, and gut as well as less serious toxicity to skin and other organs. The double barrier associated with marrow transplantation consists of rejection and GVHD. Marrow graft failure occurs by two distinct mechanisms, graft resistance and graft rejection. The former is marked by a total failure of any evidence of engraftment and the latter by engraftment followed by disappearance of the graft. GVHD is the immunologic attack upon host tissues by donor lymphoid cells (predominantly mature T cells). In the acute phase, it attacks liver, skin, and gut, with the latter producing the most life-threatening syndrome. Chronic GVHD resembles scleroderma. Treatment of GVHD includes the use of prednisone, cyclosporin A, ATG, and monoclonal antilymphoid antibodies. Prevention includes the attempt to remove T cells from the donor marrow with monoclonal antibodies using complement-mediated cytolysis and other approaches such as conjugation of antibodies to ricin and other toxins. GVHD also produces severe immunosuppression in and of itself added to that produced by chemoirradiation therapy. As a result, the marrow transplant recipient is extremely susceptible to infections. During the early period, the patient is granulocytopenic and susceptible to bacterial and fungal infections, which are dealt with by antibiotics and isolation procedures. Later, viral infections become very important, particularly CMV and other herpes viruses. The relative success in dealing with bacterial and, to some extent, viral infections has brought fungal infections to the fore as major causes of death, especially in higher risk categories of patients. Hemorrhage is a frequent complication owing to delayed megakaryocyte engraftment and thrombocytopenia during the early period and is a serious problem in patients with GVHD of the gut.
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PMID:Pathology of bone marrow in transplant recipients. 306 26

The pathogenesis of GVHD is not fully elucidated. Some groups of patients have a higher risk of developing GVHD post-BMT than others. Environmental factors may be important. Much attention has focused on the role of viruses, particularly herpes viruses, in GVHD. CMV in particular has been implicated as a pathogenic agent. Data from animal work and from observations of the frequent clinical association of CMV with GVHD have suggested a pathogenic link. Several large multi-centre seroepidemiological studies have been performed in an attempt to clarify this issue. This review discusses the data implicating herpes viruses in the pathogenesis of GVHD and considers the mechanisms by which viruses may exacerbate or initiate GVHD. Implications for the management of allogeneic BMT patients are discussed.
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PMID:Pathogenesis of GVHD: role of herpes viruses. 838 19

After allogeneic BMT, transient homogeneous Ig components (H-Ig) can be detected in the sera of most graft recipients. So far, data on the antigen-specificity and therefore the function of these H-Ig are not available. Such information may be important for our understanding of the underlying mechanisms that are responsible for these excessive clonal B cell expansions, and it may help to delineate the functional antibody repertoire after BMT. In the present study, sera of 98 paediatric BM graft recipients were investigated for the potential presence of H-Ig of IgG isotype (H-IgG) with specificity towards a panel of antigens, including vaccine and herpes virus antigens, auto-antigens and allo-antigens. The vast majority of H-IgG in sera of BM graft recipients were unreactive when tested for this panel of antigens. However, in four cases, antigen-specificity of H-IgG to tetanus toxoid could be demonstrated after vaccination with that antigen. An explanation for the negative findings may be either that a restricted antibody production had been elicited by other non-tested antigens, eg substances of colonizing and translocating bacteria or of food antigens, or that the H-IgG components may have anti-idiotype or anti-'self' specificity.
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PMID:Search for the antigen-specificity of homogeneous IgG components (H-IgG) after allogeneic bone marrow transplantation. 873 5

Three hundred and six patients with low- and intermediate-risk leukaemias undergoing allogeneic BMT between 1980 and March 1996 were studied regarding transplantation-related mortality (TRM), relapse, and leukaemia-free survival (LFS). Among the patients were 262 recipients of marrow from HLA-identical siblings and 44 patients receiving marrow from HLA-A, -B, and -DR identical unrelated donors. Between 1986 and 1993, 153 adult patients received ciprofloxacin continuously during Cy conditioning, but since November 1993 ciprofloxacin has not been given until after Cy treatment. TRM at 5 yr showed an incidence of 30%. Significant risk factors in Cox regression multivariate analysis comprised acute GVHD grades II-IV (p < 0.0001), seropositivity for 3-4 herpes viruses prior to BMT (p = 0.002), intermediate risk disease (p = 0.008), female donor to male recipient (p = 0.015), and a donor age over 17 yr (p = 0.025). The risk of relapse was studied from 90 d after BMT, and the overall 5-yr incidence was 32%. Significant risk factors comprised acute leukaemia, as compared to CML (p = 0.003), total body irradiation (TBI) compared to busulphan treatment (p = 0.011), gram-negative prophylaxis with ciprofloxacin during cyclophosphamide (Cy) conditioning (p = 0.024), GVHD prophylaxis using a combination of methotrexate (MTX) and cyclosporine (CSA), compared to monotherapy (p = 0.037) and absence of chronic GVHD (p = 0.050). The 5-yr probability of relapse in patients receiving ciprofloxacin prophylaxis during Cy conditioning was 40%, compared to 24% in patients not receiving this treatment (p = 0.01). Overall, LFS at 5 yr was 49%. LFS was evaluated from day 30 after BMT until relapse or death of the patient. We found no difference in TRM, relapse or LFS between recipients of HLA-identical sibling or unrelated bone marrow, risk factors significantly associated with an inferior LFS included acute GVHD grades II-IV (p = 0.0002), intermediate risk disease (p = 0.003), donor seropositivity for 3-4 herpes viruses (p = 0.046), and TBI conditioning (p = 0.048).
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PMID:Risk factors in bone marrow transplant recipients with leukaemia. Increased relapse risk in patients treated with ciprofloxacin for gut decontamination. 957 94

Human herpes virus 8 (HHV8) may be sexually transmitted, but transmission via blood cells has not yet been excluded. We used a modified immunofluorescence assay to detect Ab to HHV8 latency-associated nuclear Ag in sera of 200 allogeneic BMT recipients and their related donors. In control subjects, Ab were found in 85% of patients with AIDS-related Kaposi sarcoma (n = 52), 34% of HIV-1 infected subjects without Kaposi sarcoma (n = 56) and 9. 5% of blood donors (n = 42). Among BMT donors, 14.5% were HHV8+, while 10% of recipients were positive before, and 18% after BMT. In the 176 HHV8-negative recipients at BMT, there was no relationship between post-BMT seroconversion, which occurred in 26 cases (15%), and the donor's serological status. Of note, 10 HHV8+ recipients before BMT became negative post-BMT. Outcome of BMT was not influenced by prior HHV8 seropositivity, seroconversion or seroreversion of recipients. That HHV8 seropositivity among blood donors from the Paris area was comparable to that of BMT donors and recipients before BMT indicates that these patients had not been at risk of HHV8 by blood products received before BMT, although post-BMT HHV8 seroconversion probably corresponded to contamination by blood transfusions rather than by the BMT.
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PMID:Human herpes virus 8 (HHV8) serology in allogeneic bone marrow transplant recipients. 1046 21

We examined the incidence of herpes varicella-zoster virus (VZV) infection in 151 patients undergoing allogeneic BMT between August 1990 and September 1997 and who survived at least 3 months. Median follow-up was 17 (range 3.3-80.7) months. Herpes simplex virus antibody positive (HSV+) patients received aciclovir 1200 mg p.o. daily or 750 mg i.v. daily, in divided doses from day 0 to engraftment. Ganciclovir (5 mg/kg i.v. three times per week) was given in CMV+ patients (or if the donor was CMV+) from engraftment to day 84. Ganciclovir was continued or recommenced if a dose of greater than 20 mg of prednisone was used for the treatment of GVHD otherwise aciclovir was recommenced. In HSV+ patients not receiving ganciclovir, aciclovir 600 mg p.o. daily in divided doses was given until at least 6 months after BMT. Thirty-two patients developed VZV infection from 4.1 to 28 months after transplant. The estimated cumulative incidence of VZV was 13% (95% confidence interval 6-19%) at 12 months, 32% (22-42%) at 24 months and 38% (27-50%) at 28 months, with no further cases beyond that time. No patient developed VZV whilst receiving aciclovir or ganciclovir (P < 0.0001). However, there was a rapid onset of VZV following cessation of antiviral therapy (33% (20-46%) at 1 year post cessation). The presence of GVHD and the prior duration of antiviral prophylaxis were significant and independent risk factors for the development of VZV. Age, underlying disease, conditioning therapy or donor type were not. We conclude that 3-6 months of low-dose aciclovir and ganciclovir are effective at delaying the onset of VZV after allogeneic BMT, but may not affect the overall incidence of infection. Prolonged prophylaxis may be warranted in patients at high risk of infection, for example those patients with GVHD.
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PMID:Varicella-zoster infection after allogeneic bone marrow transplantation: incidence, risk factors and prevention with low-dose aciclovir and ganciclovir. 1073 1

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