Normalization of the Serum Free Light Chain (FLC) Ratio Is Associated with Superior Overall Survival among Myeloma Patients Achieving Immunofixation Negative State: Results Support Incorporation of Serum FLC Ratio in Stringent CR Definition.

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 1692-1692 ◽  
Author(s):  
Shaji Kumar ◽  
Angela Dispenzieri ◽  
Dirk Larson ◽  
Colin Colby ◽  
Robert Kyle ◽  
...  
Keyword(s):  
Overall Survival ◽  
Light Chain ◽  
Median Overall Survival ◽  
Free Light Chain ◽  
Serum Free ◽  
Monoclonal Protein ◽  
Protein Levels ◽  
Serum Free Light Chain ◽  
Serum And Urine

Abstract Background: Traditionally response to therapy in multiple myeloma (MM) is based on changes in the serum and urine monoclonal protein by immunoelectrophoresis. Immunofixation allows for detection of small amounts of monoclonal protein that cannot be quantitated on immunoelectrophoresis. Serum immunoglobulin free light chain (FLC) assay allows for detection of unbound kappa and lambda free light chain and has allowed disease measurement in patients with oligosecretory myelomas and can potentially allow detection of low levels of tumor burden, below the threshold of the standard tests. We examined this hypothesis in patients who had obtained a negative immunofixation in serum and urine following treatment of their MM. Methods: For the purposes of the study, we included selected patients with MM who had measurable monoclonal (M) protein levels at baseline (defined as >1 gm/dL in the serum or >200 mg/24 hour in the urine or involved free light chain > 10 mg/dL) on protein electrophoresis; patients with non-secretory and oligo-secretory myeloma were excluded. We then identified patients who since 1995 had a negative immunofixation in the serum and urine, all done at the same time (within 30 days of each other). Baseline demographics and clinical characteristics; date of diagnosis, last follow up, and follow up status; serum and urine M protein levels at diagnosis; and results of serum and urine immunofixation, and serum free light chain (FLC) ratio within 30 days of the immunofixation were all collected from the existing databases. Results: Eighty-four patients met the criteria for the study, all of whom had measurable disease at baseline and subsequently achieved negative immunofixation in serum and urine. Among these, 46 patients (55%) also had a normal FLC ratio (K/L ratio; 0.26–1.65). Th median time from diagnosis to the documented immunofixation was 7.5 months (range, 1–157). The median overall survival from diagnosis among those with a normal FLC ratio along with negative immunofixation was not reached compared to 76 months for those with abnormal FLC ratio, P = 0.02. The median overall survival from the documentation of negative immunofixation was not reached for the group with normal FLC ratio compared to 46.5 months for those with an abnormal FLC, P = 0.03. Conclusion: Attainment of a normal FLC ratio at the time of serum and urine immunofixation negative status identifies a group of patients with better outcome. The presence of an abnormal FLC ratio likely represents persistence of the clonal population that is secreting none or very small amounts of monoclonal protein. The data presented here supports the inclusion of FLC measurements as part of response criteria for MM as has been done for the definition of stringent CR in the IMWG response criteria. Figure: Overall survival from diagnosis in patients with or with out a normal FLC ratio at the time of serum and urine immunofixation. Figure:. Overall survival from diagnosis in patients with or with out a normal FLC ratio at the time of serum and urine immunofixation.

Serum Free Kappa to Free Lambda Ratios as an Adjunct to Serum Protein Electrophoresis for the Detection of Monoclonal Proteins in the Serum.

Blood ◽  
2004 ◽  
Vol 104 (11) ◽  
pp. 4856-4856
Author(s):  
Arthur R. Bradwell ◽  
Jean Garbincius ◽  
Earle W. Holmes
Keyword(s):  
Serum Protein ◽  
Light Chain ◽  
Protein Electrophoresis ◽  
Free Light Chain ◽  
Serum Protein Electrophoresis ◽  
Serum Free ◽  
Monoclonal Protein ◽  
Serum Free Light Chain ◽  
Monoclonal Proteins

Abstract Serum free light chain measurements have been shown to be useful in the diagnosis and monitoring of patients with monoclonal gammopathies. The present study was undertaken to evaluate the effect of adding the measurement of serum free light chain kappa to lambda ratios to the serum protein electrophoresis evaluation that we typically use as an initial screen for the detection of monoclonal proteins. We retrospectively tested 347 consecutive samples from individuals who had no previous history of plasma cell dyscrasia and had not previously had a serum or urine electrophoresis or immunofixation electrophoresis test at our institution. The quantitative serum protein electrophoresis test that was ordered was performed using Hydragel Beta 1- Beta 2 gels and Hydrasis instrument (Sebia, Inc., Norcross, GA). The protein content of the electrophoresis zones were quantitated by scanning densitometry and the electrophoresis pattern of each sample was qualitatively examined for abnormal bands and suspicious findings by a single, experienced observer. Serum free light chain concentrations and the serum free light chain kappa to lambda ratios were determined using the Freelite Human Kappa and Lambda Kits (The Binding Site Ltd, Birmingham, UK) and the Immage analyzer (Beckman Coulter Inc., Brea, CA). The serum free light chain kappa to lambda ratios were outside the reference interval (0.25 to1.65) in 23 of the samples. Ten abnormal ratios were observed among a group of 57 samples that had either positive or suspicious qualitative evaluations for the presence of a restriction or that demonstrated hypo-gammaglobulinemia. Both abnormalities led to recommendations for follow-up testing, which confirmed the presence of a monoclonal protein in 21 of the samples. Six abnormal ratios were observed among a group of 159 specimens that had quantitative abnormalities in albumin or one or more of globulin fractions (hypo-gammaglobulinemia excepted) and normal qualitative evaluations. Seven abnormal ratios were observed among a group of 131 samples that had normal quantitative results and normal qualitative evaluations. Follow-up testing is not usually recommended for serum protein electrophoresis results like those in the latter two groups. We found that the addition of the serum free light chain kappa to lambda ratio to the serum protein electrophoresis test increased the number of abnormal screens that would have required further clinical and/or laboratory evaluation by 23%(i.e. from 57 to 70). Given the high specificity of the serum free light chain kappa to lambda ratio for monoclonal light chains, the additional 13 abnormal samples identified by this test are expected to have a high likelihood of harboring a monoclonal protein that would have otherwise eluded detection. Pending a definitive prospective study, we estimate that the addition of a serum free light chain kappa to lambda ratio to the serum protein electrophoresis screen would increase the rate of detection of serum monoclonal proteins by as much as 1.6-fold.

scholarly journals Serum free light chain measurements to reduce 24-h urine monitoring in patients with multiple myeloma with measurable urine monoclonal protein

2018 ◽  
Vol 93 (10) ◽  
pp. 1207-1210 ◽  
Author(s):  
Marcella Tschautscher ◽  
Vincent Rajkumar ◽  
Angela Dispenzieri ◽  
Martha Lacy ◽  
Morie Gertz ◽  
...  
Keyword(s):  
Multiple Myeloma ◽  
Light Chain ◽  
Free Light Chain ◽  
Serum Free ◽  
Monoclonal Protein ◽  
Serum Free Light Chain

Abnormal serum free light chain ratio predicts poor overall survival in mantle cell lymphoma

2012 ◽  
Vol 160 (1) ◽  
pp. 63-69 ◽  
Author(s):  
Michelle Furtado ◽  
Nimish Shah ◽  
Alison Levoguer ◽  
Stephen Harding ◽  
Simon Rule
Keyword(s):  
Overall Survival ◽  
Mantle Cell Lymphoma ◽  
Light Chain ◽  
Cell Lymphoma ◽  
Free Light Chain ◽  
Poor Overall Survival ◽  
Serum Free ◽  
Serum Free Light Chain ◽  
Mantle Cell

Comparison of Serum Free Light Chain Levels and 24 Hour Urinary Monoclonal Protein Secretion in Patients with Myeloma: Concordant Changes with Response to Therapy.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 5064-5064 ◽  
Author(s):  
Shaji Kumar ◽  
S. Vincent Rajkumar ◽  
Matthew Plevak ◽  
Robert A. Kyle ◽  
Jerry A. Katzmann ◽  
...  
Keyword(s):  
Light Chain ◽  
Protein Level ◽  
Free Light Chain ◽  
Response To Therapy ◽  
M Protein ◽  
Serum Free ◽  
Protein Levels ◽  
Serum Free Light Chain ◽  
Data Points ◽  
Over Time

Abstract Background: The measurement of monoclonal (M) protein in the serum and urine is critical for response assessment and disease evaluation in patients with multiple myeloma (MM). The serum free light chain (FLC) assay offers a new and sensitive method of assessing response to therapy. An important question that has not been adequately addressed is the correlation between 24 hour urine M protein levels and serum FLC measurements, and the extent to which response to therapy estimated using the FLC assay correlates with that assessed using the 24 hour urine M protein level. Methods: A total of 2194 sets of data, with simultaneous UPEP and serum FLC measurement, were studied. These included 752 unique patients, with individual patients having 1–23 paired assessments over time. FLC estimation was carried out using the serum FLC assay (Freelite; The Binding Site Limited, UK) performed on a Dade-Behring Nephelometer. Based on the established reference range, kappa/lambda FLC ratio <0.26 or >1.65 were defined as abnormal indicating the presence of monoclonal lambda and kappa FLC, respectively. The monoclonal light chain isotype was considered the involved FLC isotype, and the opposite light chain type as the uninvolved FLC type. The Urine M protein by UPEP was compared to the serum levels of the involved light chain using Spearman Rank Correlation. For comparisons in individual patients over time, those with at least 10 measurements each were studied. Results: The median involved FLC level in patients with an undetectable urine M protein was 2.3 mg/dl compared to 32.2 mg/dL among those with a detectable urine M protein (P<0.001). Among the 1676 points with an abnormal FLC ratio, only 75% had an M protein detected in the urine, P < 0.001. Conversely, among patients with a positive urine M-protein, 91% had an abnormal FLC ratio. When all the 2194 data points were considered together, there was a significant correlation between the urine M protein level and the FLC levels (FLC level calculated as the difference between involved and uninvolved levels), rho=0.763, P < 0.001. The correlation did not change when patients with a serum creatinine of over 2.5 were excluded. The correlation between FLC levels and urinary M protein can be affected by several factors such as renal function that will differ across patients. Therefore, we examined whether the correlation between the two variables is stronger when the variations introduced by inter-patient differences in the relationship between the two variables are eliminated. In order to do this, we studied individual patients on whom multiple data points over time were available. One patient who had the maximum number of paired assessments (23 pairs) of serum FLC level and urinary M protein; the correlation between the two variables over time was highly significant, rho 0.981, p<0.001. Similarly 26 other patients who had measurable urine M protein levels in whom 10 nor more paired observations over time were available, also showed significant correlations, rho, range 0.726–0.981, p<0.01. Conclusion: There is a significant correlation between urine M-protein and serum free light chain across patients and the correlation is stronger in individual patients in whom the effect of inter-patient variation in other confounding factors can be eliminated. These data if confirmed in a clinical trial setting would support the use of serum FLC levels instead of urinary M protein measurements to assess response to therapy.

The Addition of sFLCR Improves ISS Prognostication in Multiple Myeloma (MM).

Blood ◽  
2007 ◽  
Vol 110 (11) ◽  
pp. 1490-1490 ◽  
Author(s):  
Marie-Christine Kyrtsonis ◽  
Theodoros P. Vassilakopoulos ◽  
Nikolitsa Kafasi ◽  
Dimitris Maltezas ◽  
Athanasios Anagnostopoulos ◽  
...  
Keyword(s):  
Multivariate Analysis ◽  
Light Chain ◽  
Free Light Chain ◽  
Newly Diagnosed ◽  
Prognostic Information ◽  
Serum Free ◽  
Serum Free Light Chain ◽  
Poor Outcomes ◽  
Chain Type

Abstract We have recently shown that serum free light chain ratio (sFLCR) provides independent prognostic information in patients with newly diagnosed MM (Kyrtsonis et al, Br J Haematol, 137: 240–243, 2007). The aim of the present study was to extend our previous observations in a multicenter setting and to investigate the potential additive effect of sFLCR to the ISS system, in determining the prognosis of patients with MM. We analyzed 214 newly diagnosed MM patients (125 kappa-, 89 lambda-). Serum free light chain levels were measured in sera drawn at diagnosis, using a latex-enhanced immunoassay (The Binding Site, Birmingham, UK). Then, the sFLCR was calculated, accordingly as kappa/lambda or lambda/kappa, depending on the monoclonal light chain type of the patient. Based on our previous study “high” sFLCR was defined as ratios ≥3.57 and ≥45.09 for kappa- and lambda- MM respectively. The median age of the patients was 68 years (33–92), 51% were males, 28%, 30%, and 42% had Durie-Salmon stages I, II, and III, 14% creatinine >2 mg/dl, and 13% had Bence-Jones MM. ISS stage was 1, 2, or 3 in 33%, 33%, and 34% of the patients, 48% had CRP ≥4 mg/l, 18% elevated LDH, 31% hemoglobin <10 g/dl, 32% albumin <3.5 g/dl, and 51% bone marrow infiltration ≥50%. The median sFLCR was 6.00 in the 125 kappa-MM, and 46.43 in the 89 lambda-MM patients. With a median follow-up of 16 months (1–105), 88 MM patients with “low” sFLCR had a 3-year disease specific survival (DSS) of 93±4% vs. 63±6% for 126 patients with “high” sFLCR. The corresponding 5-year DSS rates were 83±7% vs. 43±10% (p=0.0001). In multivariate analysis, “high” sFLCR provided prognostic information independent of the value of ISS, as further reflected by the data presented in the table. LDH levels further contributed in the discrimination of prognosis in multivariate analysis: A subgroup of 19 patients (9% of total) with “high” sFLCR plus ISS=3 plus elevated LDH had a 0% projected DSS at 19 months. sFLCR and the previously described models remained predictive of the outcome, if only patients requiring treatment at diagnosis were analyzed. In conclusion, baseline sFLCR appears to be an easily determined, powerful, independent and very promising novel prognostic factor for survival in patients with newly diagnosed MM. Establishment of the optimal cutoff and prospective validation is needed. Its addition to ISS and LDH can identify subgroups of patients with excellent or very poor outcomes. DSS According to the Combined sFLCR and ISS System Patient Subgroup Pts (#,%) 3-yr DSS (%) 5-yr DSS (%) p “Low” sFLCR and ISS <3 61 (29) 95 90 Either “High” sFLCR or ISS=3 96 (46) 82 56 <0.0001 “High” sFLCR and ISS=3 50 (24) 37 24

Intact Immunoglobulin or Fragments Thereof Can Be Detected in Urine in a Proportion of Patients with Multiple Myeloma and Are Associated with Reduced Survival At Presentation

Blood ◽  
2012 ◽  
Vol 120 (21) ◽  
pp. 1828-1828
Author(s):  
Heinz Ludwig ◽  
Philip Young ◽  
Dejan Milosavljevic ◽  
Niklas Zojer ◽  
Wolfgang Hübl ◽  
...  
Keyword(s):  
Multiple Myeloma ◽  
Overall Survival ◽  
Binding Site ◽  
Light Chain ◽  
Free Light Chain ◽  
Light Chains ◽  
Glomerular Injury ◽  
Female Ratio ◽  
Serum Free ◽  
Serum Free Light Chain

Abstract Abstract 1828 Introduction: Intact immunoglobulin or fragments thereof (intact/fragmented Ig) can be found in the urine due to nephrotic injury or the preferential scavenging of albumin by the renal FcRn receptor leading to immunoglobulin catabolism. Until now the occurrence, frequency and clinical impact of this phenomenon has not been assessed in patients with multiple myeloma (MM). Here we determine the incidence of intact/fragmented Ig in urine and evaluate its prognostic relevance. Patients and Methods: 94 patients with MM, median age 70 years old (range 41–87) with a male / female ratio 28/66, ISS stage I (48), stage II (23), stage III (28), 69 IgG (43 IgGk/26 IgGl) and 25 IgA (15 IgAk/7 IgAl) were enrolled. Serum free light chain concentrations (sFLC) were measured using commercially available immunoassays (Freelite™, The Binding Site, Birmingham, UK) and compared to electrophoresis results (Hydrasys, Sebia, Paris, France). Overall survival was estimated by the product limiting method of Kaplan-Meyer and survival was compared by the log rank test. Results: Overall, sFLC ratios had a greater sensitivity than urine immunofixation (uIFE) for the detection of monoclonal light chains 86/94 vs. 46/94. In 13/46 (28%) uIFE positive patients intact immunoglobulins or significant fragments (intact/fragmented Ig) thereof were detected, 12 IgG, (12/69, 17%) and 1 IgA (1/25, 4%). Three of these patients had normal urine protein concentrations (<250mg/L) and 2/13 patients had glomerular injury identified by increased levels of albumin excretion. There was no difference in creatinine levels between patients with or without intact/fragmented Ig (p=0.673). Analysis of overall survival in patients stratified at presentation according to uIFE results, namely the presence of intact/fragmented Ig, abnormal serum free light chain ratio-, and negative uIFE results revealed significantly shorter overall survival for the intact/fragmented Ig group (median OS: 34.5 vs. 66.0, vs. 80.6 months, respectively, p< 0.048) (figure 1). Discussion: Our findings confirm the superiority of the serum free light chain assay for detection of monoclonal free light chains as compared to urine immunofixation. However, the serum free light chain assay is inadequate for detection of intact/fragmented Ig in urine. The most important finding presented here is the observation that intact and/or fragment immunoglobulin is present in a substantial number of patients with MM. This phenomenon is mainly restricted to IgG isotypes. There are two possible explanations for these findings: first, the presence of glomerular injury, but this phenomenon (increased albumin leakage) was only seen in two patients and hence is unlikely to account for this observation. The second explanation relies upon disruption of the FcRn receptor function in immunoglobulin scavenging. This receptor will preferentially scavenge albumin in the renal setting, but dysfunction may lead to increased immunoglobulin catabolism and the presence of intact and/or fragmented Ig (Sarav, JASN, 20: 1941–1952, 2009). The results may reflect a hitherto unidentified subtle renal dysfunction. In line with this notion overall survival in our patients intact/fragmented Ig was found to be significantly shorter. Conclusion: We observed an unexpected high incidence of intact/fragmented Ig in the urine of our patients with MM. Patients with urinary excretion of intact/fragmented immunoglobulin had significantly shorter survival. These findings should be validated in further studies. Disclosures: Young: Binding Site: Employment. Harding:Binding Site: Employment.

Heavy/Light Chain Quantification Identifies Clonal Plasma Cell Disease in Patients with AL Amyloidosis and Normal Serum Free Light Chain Ratio

Blood ◽  
2015 ◽  
Vol 126 (23) ◽  
pp. 2956-2956
Author(s):  
Tatiana Prokaeva ◽  
Brian Spencer ◽  
Fangui Sun ◽  
Nathaniel McConnell ◽  
Richard M O'hara ◽  
...  
Keyword(s):  
Overall Survival ◽  
Binding Site ◽  
Plasma Cell ◽  
Light Chain ◽  
Free Light Chain ◽  
Al Amyloidosis ◽  
Cell Disease ◽  
Serum Free ◽  
Serum Free Light Chain ◽  
Combined Use

Abstract Background: Serum and urine immunofixation electrophoreses (SIFE/UIFE) are routinely used for detection of clonal immunoglobulins (Ig) in AL amyloidosis. Serum free light chain (FLC) assays (Freelite®, The Binding Site Ltd., Birmingham, UK) have significantly improved the management of patients with AL amyloidosis by providing quantitative measure for the detection and monitoring of clonal plasma cell disease. However, up to 20% of patients with AL amyloidosis may have uninformative serum free light chain values. Objective: To assess the quantitative potential of serum Heavy/Light Chain (HLC) pairs (Hevylite®, The Binding Site Ltd., Birmingham, UK) assay in identification of clonal plasma cell disease in AL amyloidosis. Methods: One hundred and ninety-nine untreated patients with AL amyloidosis were included in this study. Patients with multiple myeloma or B cell lymphoproliferative diseases associated AL amyloidosis were excluded. Serum sampleswere obtained at initial evaluation and stored at -20°C. SIFE/UIFE were performed at the time of sample collection. HLC pairs were assessed by the Hevylite® assay. HLC κ/λ normal ratios (HLCR) were: 1.12-3.21 for IgG κ/λ; 0.78-1.94 for IgA κ/λ; and 1.18-2.74 for IgM κ/λ. FLCs were assessed by the Freelite® assay; FLC κ/λ normal ratio (FLCR) was 0.26-1.65. In 103 cases, FLC testing was performed at the time of sample collection; 96 cases were tested at The Binding Site. Vital status of patients was obtained from either medical records or Social Security Death Index. Follow-up ended in June 2014. Results: An abnormal HLCR was found in 74 (37.2%), an abnormal FLCR in 163 (81.9%), and SIFE/UIFE positivity in 187 (94%) of 199 patients with AL amyloidosis. Of 36 patients with a normal FLCR, 23 (63.9%) were noted with an abnormal HLCR compared to 51 (31.3%) patients in an abnormal FLCR group (P = 0.001). In total 186/199 (93.5%) patients with AL amyloidosis had abnormalities in either HLCR or FLCR, compared to 187/199 (94%) of patients who were SIFE/UIFE+ (Table 1). The combined use of both FLCR and HLCR yielded quantifiable information in 93.5% of cases; the use of both tests in combination with SIFE/UIFE identified plasma cell clonality in 100% of patients. Seventy-two cases presented with an abnormal HLCR for a single isotype and 2 in multiple Ig isotypes. In all cases, involved LC type of abnormal HLCR matched LC type identified by SIFE/UIFE. None of 12 cases that were negative on the SIFE/UIFE presented with an abnormal HLCR, however, all showed abnormalities in FLCR. Table 1. Comparative efficiency of FLCR, HLCR and Serum/Urine Immunofixation in AL Amyloidosis patients. SIFE/UIFE+ (n=187) SIFE/UIFE- (n=12) HLCR+/FLCR+ 51 (27.2%) - HLCR+/FLCR- 23 (12.3%) - HLCR-/FLCR+ 100 (53.5%) 12 (100%) HLCR-/FLCR- 13 (7%) - Overall survival was similar in patients with and without abnormal HLCR (Log rank p=0.092; Figure 1), whereas patients with an abnormal FLCR had a significantly inferior overall survival compared to those with a normal FLCR (Log rank p=0.027; Figure 2). Combined use of both HLCR and FLCR demonstrated a trend toward superior overall survival in a group of patients with an abnormal HLCR / normal FLCR (Wilcoxon p=0.037; Log rank p=0.107; Figure 3). Conclusions: The Hevylite® assay provided information in addition to other laboratory tests for clonal plasma cell disease in AL amyloidosis. The combined use of the HLCR and FLCR provided quantifiable information in 93.5% of patients. The use of both assays in combination with SIFE/UIFE detected clonal disease in all patients. HLCR has potential to quantify clonal disease in patients with uninformative FLCR results. An abnormal HLCR was not predictive of overall survival, while an abnormal FLCR was, in this series of patients. Combined use of HLCR and FLCR could be beneficial in prognostication of outcome in AL amyloidosis. Disclosures McConnell: The Binding SIte: Employment. O'hara:The Binding Site: Employment.

Comparison of the Freelite serum free light chain (SFLC) assay with serum and urine electrophoresis/immunofixation and the N Latex FLC assay

Pathology ◽  
2015 ◽  
Vol 47 (6) ◽  
pp. 564-569 ◽  
Author(s):  
S.C. Sasson ◽  
K. McGill ◽  
L. Wienholt ◽  
A. Carr ◽  
D.A. Brown ◽  
...  
Keyword(s):  
Light Chain ◽  
Free Light Chain ◽  
Serum Free ◽  
Serum Free Light Chain ◽  
Serum And Urine

Significance of Serum Free Light Chain Estimation with Detectable Serum Monoclonal Protein on Immunofixation Electrophoresis.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 5048-5048
Author(s):  
Jayesh Mehta ◽  
Regina Stein ◽  
Eric Vickrey ◽  
William Resseguie ◽  
Seema Singhal
Keyword(s):  
Light Chain ◽  
Free Light Chain ◽  
Response To Therapy ◽  
Oligoclonal Bands ◽  
Serum Samples ◽  
Serum Free ◽  
Monoclonal Protein ◽  
Serum Free Light Chain ◽  
Small Series ◽  
Immunofixation Electrophoresis

Abstract The serum free light chain (SFLC) assay is useful in detecting monoclonal protein when there no detectable M protein on immunofixation electrophoresis (IFE). There are limited data on its value when IFE is positive. In a small series of 5 patients achieving CR, normalization of SFKLR was found to precede IFE negativity by a few weeks (Moesbauer et al. ASH 2005). Results on 231 serum samples from myeloma patients (most on therapy) where serum IFE showed IgA κ (n=33), IgA λ (n=13), IgG κ (n=153), or IgG λ (n=32), and where simultaneous SFLC and immunoglobulin (Ig) estimation had been performed were analyzed. Samples with &gt;1 monoclonal band or multiple oligoclonal bands were excluded. The serum free κ:λ ratio (SFKLR; normal 0.26–1.65) was abnormal in 113 (49%) and normal in 118 (51%). IgG and IgA levels were compared in the context of normal versus abnormal SFKLR within each of the 4 isotypes (IgA κ, IgAλ, IgG κ, IgG λ). The table below shows that involved Ig levels were higher with abnormal than with normal SFKLR. However, uninvolved Ig levels were higher with normal than with abnormal SFKLR suggesting that normalization of SFKLR may mark a response to therapy - improved uninvolved Ig levels being evidence of response. Monoclonal protein Immunoglobulin Abnormal SFKLR Normal SFKLR P IgA kappa IgA 1640 (190–4000) 515 (102–2230) 0.048 IgA kappa IgG 419 (118–1120) 404 (197–1740) 0.39 IgA lambda IgA 408 (159–696) 704 (180–779) 0.17 IgA lambda IgG 619 (495–1510) 1530 (533–1700) 0.025 IgG kappa IgA 42 (7–225) 94 (7–642) 0.0009 IgG kappa IgG 1490 (585–5560) 1260 (327–2690) 0.004 IgG lambda IgA 32 (7–121) 96 (19–562) 0.047 IgG lambda IgG 2060 (555–12300) 1050 (432–2830) 0.018 However, does normalization of SFKLR universally herald IFE negativity? This is an important unanswered question because SFKLR is normal in a high proportion of samples which still show monoclonal protein on IFE. The figures below show scatter plots of IgG and IgA for each of the 4 isotypes for normal vs abnormal SFKLR. Within each plot, there is no obvious pattern distinguishing normal (x) from abnormal (o) SFKLR. However, there are a number of normal SFKLR points with high involved and low uninvolved Ig levels where a normal SFKLR is difficult to explain. Figure Figure Figure Figure We conclude that the SFLC assay often reveals normal SFKLR even when there is a detectable monoclonal protein in the serum. Whether this always predicts eventual paraprotein clearance and achievement of IFE negativity in patients on therapy is unknown, and needs to be studied prospectively.

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