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Query: UMLS:C0005940 (
bone disease
)
7,459
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Multiple myeloma (MM) originates from the malignant clonal expansion of transformed B-lymphocytes (in which c-myc and ras oncogenes are probably involved). MM cells have a hybrid phenotype (with coexpression of the markers for both early and late B-differentiation and, sometimes, of T-lymphocyte, myelomonocyte, erythroid and megakaryocyte markers), which accounts for the association between MM and myeloproliferative disorders and for cytokine production. Interleukin-6 and immunologic control mechanisms regulate proliferation and differentiation into plasma cells secreting a monoclonal component (MC). Overt MM is diagnosed 1-2 years following malignant transformation. At this time, several aneuploid clones with resistant phenotype have been selected, and a small pool of actively cycling cells produces the great bulk (over 90%) of non proliferating tumor cells. The clinical and laboratory signs of MM arise from both tumor proliferation and MC damage to organs and organ systems. Tumor proliferation is mainly responsible for
bone disease
(since MM cells produce cytokines that activate the osteoclasts), inhibition of hemopoiesis and the appearance of plasma cell tumors. The MC causes renal failure, neurological signs, hemorrhagic manifestations. The prognosis for multiple myeloma is probably best estimated by two parameters, serum
beta-2-microglobulin
and the bone marrow labeling index. Induction therapy is still based on the use of alkylating agents, melphalan and cyclophosphamide, combined with prednisone. Second line treatment consists of VAD polychemotherapy or high-dose pulsed glucocorticoids. Many investigational approaches have been proposed, but their effectiveness awaits confirmation. In the absence of a curative regimen, much effort should be dedicated to the quality of supportive care. In this respect, bisphosphonates represent a new effective tool for the control of myeloma
bone disease
.
...
PMID:Multiple myeloma. 208 Oct 91
The purpose of this study was to quantitate the number and labeling index of monoclonal plasma cells in the blood of patients with newly diagnosed multiple myeloma (MM) to learn if these values were independent prognostic factors for survival. Patients were candidates for this study if they had untreated myeloma requiring therapy, were evaluated at our institution between 1984 and 1993, and had a sample of blood analyzed with a sensitive immunofluorescence technique for monoclonal plasma cells and the blood B-cell labelling index (BLI). The % blood monoclonal plasma cells (%BPC) and the BLI were analyzed along with stage, marrow plasma cell LI, % marrow plasma cells, calcium, creatinine, albumin,
beta-2-microglobulin
, and C-reactive protein as univariate and multivariate factors for survival. Eighty percent of the 254 patients accrued to this study had monoclonal BPC detected. The median % BPC was 6% and 57% (144 of 254) of patients had a high number (> or = 4%). Patients with > or = 4% BPC had a median survival of 2.4 years vs 4.4 years for those with < 4% BPC (P < .001). The BLI was also prognostic (P = .008). In a multivariate analysis, the % BPC, age, albumin, stage, marrow plasma cell LI, and the BLI were independent factors for survival. The %BPC and the marrow plasma cell LI best separated the group into low, intermediate, and high risk myeloma with median survivals of 52, 35, and 26 months, respectively. Patients with high %BPC were less likely to have lytic
bone disease
from their MM (P = .002). The %BPC and the BLI are independent prognostic factors for survival and are useful in identifying patients as low, intermediate, and high risk. Clonal cells in the blood should be quantified in future clinical trials for myeloma.
...
PMID:Peripheral blood monoclonal plasma cells as a predictor of survival in patients with multiple myeloma. 910 31
The net impact of malignancy and anti-tumor therapy on bone resorption in myeloma is poorly understood because conventional skeletal radiographs are relatively insensitive for the diagnosis and monitoring of
bone disease
. We performed determinations of bone mineral density (BMD) at the lumbar spine, femoral neck and radial diaphysis by dual energy X ray absorptiometry (DEXA) in 168 consecutive patients with myeloma seen at our institution. Follow up studies were performed in 41 of these patients. A detailed analysis of patient and disease characteristics was performed to identify the determinants of BMD. Compared to normal age and sex matched controls, mean (+/- SE) BMD was significantly decreased at the lumbar spine (Z score -0.4 +/- 0.10) and femoral neck (Z score -1.0 +/- 0.10), but was surprisingly above normal at the radial diaphysis (Z score +0.35 +/- 0.10), a cortical bone site devoid of hematopoietic marrow, suggesting a differential bone preserving effect at this site. Lack of correlation between the BMD findings and the presence or extent of radiographically evident osteolytic lesions suggested the presence of a systemic
bone disease
. On multivariate analysis, duration of disease >12 months (p = 0.003) and female sex (p = 0.01) were independently associated with a lower BMD at the femoral neck/lumbar spine. On follow up DEXA (n = 41), BMD increased at > or = 1 site in 9 of 20 patients receiving bisphosphonates and in only 2 of 21 patients not receiving such therapy (p = 0.02). Similarly a decline in BMD at > or = 1 site was seen in 9 of 21 patients not receiving bisphosphonates, irrespective of the disease response status. Interval pamidronate therapy (p = 0.0007) and a low serum
beta-2-microglobulin
(< 2.5 mg/l) (p = 0.04) were the two most significant variables associated with an increase in BMD on multivariate analysis. These data suggest that myeloma is associated with a systemic
bone disease
with progressive generalized cancellous bone loss and a bone preserving effect on the radial cortical bone. The early use of bisphosphonates may improve myeloma related
bone disease
.
...
PMID:Biologic and therapeutic determinants of bone mineral density in multiple myeloma. 1003 7
Solitary plasmacytoma is plasma cell neoplasm. It is a localized
bone disease
and for this reason it is different from multiple myeloma (systemic plasma cell neoplasm). Sometimes, solitary plasmacytoma precedes a following multiple myeloma. Clinical findings of solitary plasmacytoma are related to the univocal localization on damaged bone, while laboratory findings could be similar to multiple myeloma (i.e. M component, kidney dysfunction, blood calcium alterations, increased
beta-2-microglobulin
). However, during a solitary plasmacytoma, laboratory findings could not be present contemporaneously such clinical complications (i.e. kidney failure, immunological disorders with a trend toward infectious disease and/or autoimmunity, neurological disorders, haematological disorders, amyloidosis, POEMS syndrome). These raise the reason because solitary plasmacytoma has better prognosis compared to multiple myeloma.
...
PMID:Up-date on solitary plasmacytoma and its main differences with multiple myeloma. 1581 50
