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|a Rao, Madhumathi
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|a Serum free light chain analysis for the diagnosis, management, and prognosis of plasma cell dyscrasias
|h Elektronische Ressource
|b future research needs : identification of future research needs from Comparative effectiveness review no. 73
|c prepared for Agency for Healthcare Research and Quality, U.S. Department of Health and Human Services ; prepared by Tufts Evidence-based Practice Center, Tufts Medical Center ; investigators, Madhumathi Rao [and six others]
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|a Rockville, MD
|b Agency for Healthcare Research and Quality
|c 2012, 2012
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|a 1 PDF file (various pagings)
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|a Comparative Effectiveness Research
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|a Paraproteinemias / diagnosis
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|a Immunoglobulin Light Chains / blood
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|a Paraproteinemias / therapy
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|a Disease Progression
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|a Biomarkers / blood
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|a Biomarkers / analysis
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|a United States
|b Agency for Healthcare Research and Quality
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|a Tufts Evidence-based Practice Center
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|a Effective Health Care Program (U.S.)
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|a eng
|2 ISO 639-2
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|b NCBI
|a National Center for Biotechnology Information
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|a Future research needs papers
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|a Title from PDF title page. - "September 2012.". - At head of title on cover: Effective Health Care Program. - Based on: Serum free light chain analysis for the diagnosis, management, and prognosis of plasma cell dyscrasias / prepared for Agency for Healthcare Research and Quality, U.S. Department of Health and Human Services ; prepared by Tufts Evidence-based Practice Center ; investigators, Madhumathi Rao ... [et al.]. 2012
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|u https://www.ncbi.nlm.nih.gov/books/NBK137788
|3 Volltext
|n NLM Bookshelf Books
|3 Volltext
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|a 610
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|a Plasma cell dyscrasias (PCDs) are a group of clonal disorders characterized by the uninhibited expansion of a monoclonal population of malignant plasma cells. Plasma cells arise from B cells in the bone marrow and produce immunoglobulins that constitute the body's normal humoral immune response. The immunoglobulin molecule is composed of a heavy chain and a light chain. Plasma cells normally produce light chains in excess that do not bind to heavy chains to form a complete immunoglobulin molecule and instead enter the bloodstream as free light chains (FLCs). In PCDs, each abnormally expanded clone of malignant plasma cells produce an excess of either intact immunoglobulin or FLCs of a single type called a monoclonal protein (M-protein) or paraprotein. The serum FLC (SFLC assay (the Freelite" Assay), The Binding Site Ltd., Birmingham, United Kingdom) was introduced in 2001 to measure the FLC component in particular.
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|a The assay could allow for quantitative monitoring of response and remission after treatment and provide prognostic information, potentially reducing the need for frequent bone marrow biopsy for purposes of quantifying plasma cells, which is required as part of stringent monitoring for monoclonal gammopathy of undetermined significance (MGUS) progression to multiple myeloma (MM) or defining disease remission, and potentially could be used in conjunction with serum protein electrophoresis (SPEP) and serum immunofixation electrophoresis (SIFE) to replace urine tests that require 24-hour collection (urine protein electrophoresis [UPEP] and urine immunofixation electrophoresis [UIFE]), which could simplify diagnosis and disease monitoring.
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|a The SFLC assay may also be the only means of detecting a disease marker in some disease settings: nonsecretory MM, where SFLCs are often the only marker of the disease; AL amyloidosis (systemic amyloidosis in which amyloid [A] proteins derived from immunoglobulin light chains [L] are deposited in tissue), where low monoclonal protein (M-protein) concentrations may not be detected by means of conventional techniques; and light chain MM, where the M-protein consists only of FLCs. These diagnostic applications have yet to be validated and standardized. Thus, although the SFLC assay has been in use for a decade, it remains unclear how best to incorporate it into clinical practice
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|a The SFLC assay works by recognizing an epitope that is detectable only on light chains that are not bound to the heavy chain of the immunoglobulin molecule (i.e., FLCs) in the serum. This is the sole SFLC assay approved by the U.S. Food and Drug Administration. It detects low concentrations of FLCs and can measure the ratio of kappa chains to lambda chains. It has been suggested that the SFLC assay could play an adjunctive role in screening, diagnosis, monitoring, and prognosis of PCDs in high-risk populations. The International Myeloma Working Group (IMWG) currently considers the SFLC assay to be an adjunct to traditional tests.
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