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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)

Cardiac pathologic findings were analyzed in 22 necropsy cases from a series of 29 patients with leukemia, aplastic anemia, or metastatic cancer who had been treated with ablative therapy followed by bone marrow transplantation. Some cardiac alterations were similar to those that occur in patients with hematologic and neoplastic diseases not treated with bone marrow transplantation, and consisted of cardiomegaly, cardiac atrophy, hemorrhage, foci of necrosis due to shock associated with sepsis or hepatic failure, myocardial abscesses secondary to systemic candidiasis or staphylococcal infection, fibrinous pericarditis, and hemosiderosis. Other cardiac alterations were more specifically related to factors associated with transplantation procedure. Six patients exhibited a distinctive interstitial reactive change characterized by the presence of (1) moderate to large numbers of Anitschkow cells, occurring alone or in small cellular aggregates and histiocytes, histiocytic cells with nuclei of the Anitschkow type, lymphoid cells, and plasma cells, and (2) nuclei of the Anitschkow type in cardiac vascular and endocardial smooth muscle, endothelial and Schwann cells, and occasional cardiac muscle cells. This alteration may have been induced by abnormal immune mechanisms, as suggested by the observation that five of the six patients with interstitial change had clinical evidence of graft-versus-host disease. Two patients developed fatal congestive cardiac failure in the early post-transplant period and exhibited myocardial damage with histologic and post-transplant period features indicative of severe acute injury. Findings in these two patients consisted of necrotic muscle cells, which exhibited multiple contraction bands, diastase-resistant PAS staining, and intracellular fibrin deposits; microthrombi, which were composed of fibrin and occasionally of fibrin and platelets; and extravasated erythrocytes and fibrin strands in the interstitium. One of the two patients also exhibited unusual nuclear alterations, which were characterized by replacement of normal chromatin by palely stained fibrous and filamentous material. Clinicopathologic analysis strongly suggested that the fatal cardiotoxicity in both patients resulted primarily from effects of high doses of cyclophosphamide, which were administered as part of a four drug regimen that provided tumor ablation and immunosuppression for bone marrow transplantation. Our findings emphasize the need for less toxic antineoplastic and immunosuppressive therapy for use in bone marrow transplantation procedures.
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PMID:Cardiac pathologic findings in patients treated with bone marrow transplantation. 110 69

Mesenchymal Stem Cells/Multipotent Marrow Stromal Cells (MSC) are multipotent adult stem cells present in all tissues, as part of the perivascular population. As multipotent cells, MSCs can differentiate into different tissues originating from mesoderm ranging from bone and cartilage, to cardiac muscle. Conflicting data show that MSCs could be pluripotent and able to differentiate into tissues and cells of non-mesodermic origin as neurons or epithelial cells. Moreover, MSCs exhibit non-HLA restricted immunosuppressive properties. This wide range of properties leads to increasing uses of MSC for immunomodulation or tissue repair. Based on their immunosuppressive properties MSC are used particularly in the treatment of graft versus host disease, For tissue repair, MSCs can work by different ways from cell replacement to paracrine effects through the release of cytokines and to regulation of immune/inflammatory responses. In regenerative medicine, trials are in progress or planed for healing/repair of different tissue or organs as bone, cartilage, vessels, myocardium, or epithelia. Although it has been demonstrated that ex-vivo expansion processes using fetal bovine serum, recombinant growth factors (e.g. FGF2) or platelet lysate are feasible, definitive standards to produce clinical-grade MSC are still lacking. MSCs have to be produced according GMP and regulation constraints. For answering to the numerous challenges in this fast developing field of biology and medicine, integrative networks linking together research teams, cell therapy laboratories and clinical teams are needed.
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PMID:Mesenchymal stem cells for clinical application. 1966 34

Mesenchymal stem cells (MSCs) are multipotent adult stem cells present in all tissues, as part of the perivascular population. As multipotent cells, MSCs can differentiate into different tissues originating from mesoderm ranging from bone and cartilage, to cardiac muscle. MSCs are an excellent candidate for cell therapy because they are easily accessible, their isolation is straightforward, they can be bio-preserved with minimal loss of potency, and they have shown no adverse reactions to allogeneic versus autologous MSCs transplants. Therefore, MSCs are being explored to regenerate damaged tissue and treat inflammation, resulting from cardiovascular disease and myo-cardial infarction (MI), brain and spinal cord injury, stroke, diabetes, cartilage and bone injury, Crohn's disease and graft versus host disease (GvHD). Most of the application and clinical trials involve MSCs from bone marrow (BMMSCs). Transplantation of MSCs from bone marrow is considered safe and has been widely tested in clinical trials of cardiovascular, neurological, and immunological disease with encouraging results. There are examples of MSCs utilization in the repair of kidney, muscle and lung. The cells were also found to promote angiogenesis, and were used in chronic skin wound treatment. Recent studies involve also mesenchymal stem cell transplant from umbilical cord (UCMSCt). One of these demonstrate that UCMSCt may improve symptoms and biochemical values in patients with severe refractory systemic lupus erythematosus (SLE), and therefore this source of MSCs need deeper studies and require more attention. However, also if there are 79 registered clinical trial sites for evaluating MSC therapy throughout the world, it is still a long way to go before using these cells as a routinely applied therapy in clinics.
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PMID:Bone marrow and umbilical cord blood human mesenchymal stem cells: state of the art. 2107 60