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Query: UMLS:C0018133 (graft-versus-host disease)
 18,032 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cellular immune response to herpesviruses was studied in 46 recipients of marrow grafts (23 autologous, 23 allogeneic). That study was performed in vitro by evaluating the degree of lymphocyte proliferative responses to herpes simplex virus (HSV), cytomegalovirus (CMV), and varicella zoster virus (VZV). No primary infections with any of those viruses were noted after bone marrow transplantation (BMT). The incidence of active infection in seropositive patients was significantly lower after autologous BMT than after allogeneic BMT (HSV, 2/22 vs. 11/22 patients, respectively, P = 0.007; CMV, 4/12 vs. 9/10 patients, respectively, P = 0.02; VZV, 3/23 vs. 11/23 patients, respectively, P = 0.02). After autologous BMT, the restoration of cellular immunity to the three viruses occurred at a clearly faster rate than after allogeneic BMT. That pattern may have contributed to the low incidence of active infections with those viruses after autologous BMT. Recipients of allogeneic marrow from donors with a positive lymphocyte proliferation test to HSV had a significantly increased incidence of active HSV infection post-BMT (8/9 patients) than those who received marrow from donors with a negative test (3/13 patients; P = 0.008). Acute or chronic graft-versus-host disease (GVHD) decreased the cellular immune response to the three herpes viruses, but not significantly. Our program of vaccinations with diphtheria and tetanus toxoids started in the fourth month post BMT. Chronic GVHD patients who were vaccinated had a clearly impaired cellular immune response to both toxoids as compared with those without chronic GVHD.
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PMID:Cellular immunity to vaccinations and herpesvirus infections after bone marrow transplantation. 301 33

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

Following transplant, circulating immunoglobulin levels fell moderately and remained depressed less than 2 months for IgG, and for variable and longer periods of time for IgM and IgA. Repeated quantitative determinations of antibodies against multiple antigens did not show any decrease in the pretransplant levels. Indeed some patients developed herpes and cytomegalovirus infections to which they responded by a sharp increase in antibody titers. In 2 cases, a primary immunization was demonstrated (against CMV and BK virus) with increasing levels of IgM and IgG antibodies. Lymphocyte counts in peripheral blood returned to 500 mm# between day 10 and 29 (median day 18) and to pretransplant values within 6 weeks. Non specific stimulation of lymphocytes by mitogens in the immediate post-transplant period showed a decreased response to PHA and Con A, whereas the responses to pokeweek mitogens and alloantigens were only slightly diminished. The degree of the responses was related to the dose of cryopreserved marrow infused. We conclude that:--although the minimum dose for autologous bone marrow transplantation in man is around 0,5 10(8) nucleated bone marrow cells/Kg, much higher doses should be used to ensure faster and better restoration of immune reactivity.--The similarity of the immunological dysfunction following autologous and allogeneous bone marrow transplantation suggest that, in the immediate post-transplant period, the role of GVHD in cellular immunity depression may be minimal.
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PMID:[Studies of immunological status, following autologous bone marrow transplantation in man (author's transl)]. 700 23

Pulmonary toxicity occurs in approximately 10 to 50% of patients undergoing bone marrow transplantation (BMT). Bacterial pneumonia very commonly affects patients within the first 6 months post-BMT. Etiologic factors include neutropenia and the presence of graft-versus-host disease (GVHD). Pulmonary fungal infections, due to candida and aspergillus, may develop in 16% of patients receiving BMT, with a high mortality rate, being about 80%. A prolonged neutropenia as well as GVHD and associated immunosuppressive treatments are important factors in predisposing a patient to develop fungal pneumonitis. Interstitial pneumonitis occurs in 10-40% of patients; herpes viruses are the most commonly documented cause, with cytomegalovirus (CMV) being the most common pathogen. No causative organism is identified in up to 60% of the cases. It is likely that some of these cases may result from drug or radiation toxicity. Lung shielding and fractionation of the dose have decreased the incidence of interstitial pneumonitis to less than 5%. Patients with GVHD are predisposed to lung infections because of the immunosuppression that accompanies GVHD and its treatment. In addition, GVHD itself appears to have a direct effect on pulmonary epithelium. Cultural and serologic studies as well as radiographic investigations and other diagnostic procedures (ie bronchoalveolar lavage) are needed for appropriate management of pulmonary complications.
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PMID:[Pulmonary complications after bone marrow transplantation]. 835 44

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

Based on the concept of circulating hematopoietic stem cells with indefinite self-renewal capacity that gives rise to all three cell lineages, peripheral blood progenitor cells (PBPCs) have widely replaced the use of bone marrow (BM) progenitors for autologous transplantation purposes in patients with malignant hematological disorders and selected solid tumors. Ex vivo purification of normal CD34+ cell subsets contained in the patient's apheresis product possibly eliminates clonogenic tumor cells, but also serves as a target cell population for gene transduction. Genetic tagging of PBPC autografts has proven that: 1) NEOR gene expression is sustained for more than 18 months and 2) clonogenic tumor cells contaminating the autograft contribute to relapse. A second generation of gene transduction studies includes new treatment strategies such as the induction of chemoprotection (multidrug resistance gene-1), chemotherapy sensitization (p53), cancer vaccination and genetic chemosensitization. Most recently allogeneic PBPC transplantation has successfully been introduced with the intention of improving the graft-versus-leukemia effect without inducing a higher incidence or more severe graft-versus-host disease (GVHD) than what is expected after BM transplantation. Introducing the herpes virus thymidine kinase cDNA into activated donor T cells makes them susceptible to gangciclovir, thus allowing the in vivo inactivation of GVHD-inducing T cells. With the close interaction of molecular genetics and clinical oncology/hematology, genetic engineering of stem cell grafts will lead into a new stage of stem cell transplantation technology.
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PMID:Blood stem cell transplantation and gene therapy of cancer. 874 97

We analysed 35 risk factors for acute GVHD in 291 consecutive recipients of HLA-identical sibling marrow transplants from 1975 to 1993. Of these, 16% developed moderate-to-severe acute GVHD following transplantation. In multivariate analysis, GVHD prophylaxis with monotherapy (MTX or CsA) (P = 0.015) seropositivity for several herpes viruses in the donor (P = 0.015) and seropositivity for CMV in the recipient (P = 0.037) before the transplants as well as early engraftment (P = 0.016), were the principal risk factors for GVHD. A high serum TNF-alpha level during conditioning therapy was also a significant risk factor in 75 recipients (P = 0.005). The risk of grades II-IV acute GVHD increased with the number of risk factors. Thus the cumulative incidence of acute GVHD was 1%, if no risk factor was present, 4% with one, 9% with two, 21% with three and 44% in patients with four risk factors. Factors reported to correlate with acute GVHD, such as age, diagnosis, female donor to male recipient, relative response and donor-responding capacity in MLC, MNS blood group antigen, splenectomy and bone marrow cell dose were not associated with acute GVHD in this study. Five-year survival was 24% in patients with grades II-IV GVHD vs 62% in patients with grades 0-I GVHD (P = 0.0001).
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PMID:Risk factors for acute graft-versus-host disease in 291 consecutive HLA-identical bone marrow transplant recipients. 875 Feb 64

To investigate the hypothesis that target organ infection with human herpes virus-6 (HHV-6) exacerbates the clinical severity of GVHD, skin and rectal biopsies from 34 allogeneic bone marrow transplant (BMT) recipients and 23 comparative autologous recipients were studied. Biopsies and heparinised blood samples were obtained from all patients prior to and at regular intervals after BMT, and whenever GVHD was suspected. HHV-6 antigen was detected in cryostat sections by immunohistochemistry, and HHV-6 DNA in peripheral blood leucocytes (PBL) and biopsies by nested PCR. Twenty-eight (90%) of the 31 patients who engrafted developed clinical GVHD, which was mild in five, moderately severe in nine and severe in 14. Overall, HHV-6 DNA was detected in PBl in 74% of autologous recipients and 76% of allogeneic recipients, and in biopsy tissue in 48% of autos and 71% of allos. However, HHV-6 DNA was detected in skin and/or rectal biopsies more frequently in allogeneic recipients with severe GVHD (92%) than in those with either moderate (55%) or mild GVHD (22%), suggesting an association (P = 0.004) between HHV-6 DNA in biopsy tissue and GVHD severity. A significant linear trend (P = 0.03) was identified between detection of HHV-6 DNA in biopsy tissue obtained prior to or concomitant with the onset of GVHD and increased GVHD severity, suggesting that HHV-6 was causally linked to GVHD rather than reactivated as a consequence of GVHD therapy. Thus this study supports a role for HHV-6 in the initiation and/or exacerbation of GVHD, and suggests that the presence of HHV-6 DNA in the skin or rectum may be a factor in determining GVHD severity. If confirmed, these findings may have implications for the management of allogeneic BMT recipients.
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PMID:Human herpes virus-6 infection in marrow graft recipients: role in pathogenesis of graft-versus-host disease. Newcastle upon Tyne Bone Marrow Transport Group. 875 Feb 69

Oropharyngeal shedding of herpes viruses (herpes simplex, cytomegalovirus) was assessed in patients on standard acyclovir prophylaxis during bone marrow transplantation (BMT) to determine the frequency of viral shedding and to assess possible oropharyngeal complications that may be associated with viral reactivation in these patients. We conducted a prospective assessment of 83 patients receiving BMT. Patients were evaluated weekly and oral surveillance cultures were completed. Shedding of herpes simplex virus (HSV) was detected in the oropharynx of 2.9% of seropositive patients on prophylactic acyclovir, and only one case of clinical oral herpetic infection was seen. Cytomegalovirus (CMV) was cultured from the oropharynx in 13.3% of CMV seropositive patients provided with prophylactic acyclovir, but no oropharyngeal lesions were attributed to CMV reactivation. No correlation was seen between HSV and CMV pretransplant serology and severity of oral mucositis and acute graft versus host disease. No effect on time to engraftment was detected. This study supports the continuing use of acyclovir prophylaxis in HSV seropositive patients receiving BMT. Acyclovir prophylaxis was effective in preventing viral shedding in all but 2.9% of patients, and only one case of clinical infection was diagnosed. The frequency of CMV shedding was approximately four times that of HSV; however, no oral lesions were attributed to CMV.
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PMID:Acyclovir prophylaxis of oral herpes virus during bone marrow transplantation. 876 72

We analyzed risk factors in 724 patients evaluable for acute graft-versus-host disease (GVHD) and in 614 patients evaluable for chronic GVHD who had received bone marrow transplantation (BMT) from HLA-identical siblings and/or parents for thalassemia and/or microdrepanocytosis, in a single institution. The overall incidence of grade II-IV and III-IV acute GVHD (aGVHD) was 26.9% and 13.5%, respectively. The cumulative incidence of grade II-IV aGVHD in patients treated with cyclosporine (CsA)/methylprednisolone (MP) or CsA/methotrexate (MTX)/MP was 32% and 17%, respectively (P=0.001). In logistic regression analysis, the risk factors associated with the onset of grade II-IV aGVHD in the entire group of patients were: patient age < or = 4 years (P=0.009), male patient sex (P=0.023), GVHD prophylaxis with CsA/MP or MTX/MP (P=0.000), more than twofold elevated alanine aminotransferase (P=0.001), and patient seropositivity for two to three herpes viruses (P=0.007). In patients treated with CsA/MP, splenomegaly > 2 cm (P=0.042) and donor age > or = 17 years (P=0.034) predicted aGVHD. Risk factors for grade III-IV aGVHD were similar to the risk factors identified for grade II-IV aGVHD. Moreover, moderate and severe liver fibrosis or cirrhosis predicted grade III-IV aGVHD (P=0.018). The incidence of chronic GVHD (cGVHD) was 27.3%. The probability of cGVHD at 2 years after BMT in patients with grade 0, I, II, and III-IV aGVHD was 15%, 32%, 53%, and 54%, respectively. Among patients with absent or grade I-IV aGVHD, prior aGVHD (P=0.000), female donor sex (P=0.000), use of alloimmune female donors for male patients (0.009), and GVHD prophylaxis with CsA/MP or MTX/MP (P=0.003) predicted cGVHD. This data should be considered in clinical management and in future investigations for improvement of immunosuppressive prophylaxis in BMT patients with thalassemia.
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PMID:Graft-versus-host disease after bone marrow transplantation for thalassemia: an analysis of incidence and risk factors. 908 26


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