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Editor-in-chief
Maria Stella Graziani

Deputy Director
Martina Zaninotto

Associate Editors
Ferruccio Ceriotti
Davide Giavarina
Bruna Lo Sasso
Giampaolo Merlini
Martina Montagnana
Andrea Mosca
Paola Pezzati
Rossella Tomaiuolo
Matteo Vidali

International Advisory Board Khosrow Adeli Canada
Sergio Bernardini Italy
Marcello Ciaccio Italy
Eleftherios Diamandis Canada
Philippe Gillery France
Kjell Grankvist Sweden
Hans Jacobs The Netherlands
Eric Kilpatrick UK
Magdalena Krintus Poland
Giuseppe Lippi Italy
Mario Plebani Italy
Sverre Sandberg Norway
Ana-Maria Simundic Croatia
Tommaso Trenti Italy
Cas Weykamp The Netherlands
Maria Willrich USA
Paul Yip Canada


Publisher
Biomedia srl
Via L. Temolo 4, 20126 Milano

Responsible Editor
Giuseppe Agosta

Editorial Secretary
Andrea di Bello
Biomedia srl
Via L. Temolo 4, 20126 Milano
Tel. 0245498282
email: biochimica.clinica@sibioc.it

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ISSN print: 0393 – 0564
ISSN digital: 0392- 7091



BC: Articoli scritti da P. Altavilla

Catene leggere libere nella diagnostica liquorale della sclerosi multipla: possibile alternativa alla ricerca delle bande oligoclonali?
Free light chains in diagnosis of multiple sclerosis: an alternative to oligoclonal bands?
<p>Multiple sclerosis (MS) is one of the most common causes of neurological disability in young adults. MS presents heterogeneous clinical manifestations and both genetic and environmental factors are considered involved in the risk of developing the disease. The clinical diagnosis is rather complex reflecting the heterogeneity of the pathology. The diagnostic criteria, frequently modified over the years, require clinical symptoms, presence of typical lesions detected by magnetic resonance imaging and laboratory findings. The laboratory examination of the cerebrospinal fluid (CSF) allows an evaluation of inflammatory processes confined to the central nervous system reflecting the changes in the immunological pattern due to the progression of the pathology, playing thus an important role in the diagnosis and monitoring of MS. The detection of the oligoclonal bands (OCBs) is recognized as a &ldquo;gold standard&rdquo; for laboratory diagnosis of MS, although it suffers from methodological limitations. Indeed, OCBs assay is a manual multistep procedure, time-consuming that requires a subjective interpretation. In the last years, the measurement of the free light chains (FLC) in CSF appeared to assist in the diagnosis of MS. This procedure has been presented as a simpler and cheaper tool than the qualitative detection of OCBs. This article examines the current knowledge about the laboratory diagnostic of CSF, investigating both the validated method (OCBs) and the alternative biomarkers of immunoglobulins intrathecal synthesis, as the quantification of FLC in CSF.</p>
Biochimica Clinica ; 44(2) 157-167
Opinioni - Opinions
 
Glycated albumin is correlated to insulin resistance and β-cell secretory function in subjects at risk of developing diabetes
<p>Insulin resistance and &beta;-cell secretory function represent two main issues in the pathogenesis of type 2 diabetes mellitus (T2DM). Conflicting results have been obtained about the association between glycated albumin (GA) and body mass index (BMI), insulin resistance and &beta;-cell function in diabetic patients. Actually, the relationship (if any) between GA and the markers of glucose homeostasis and insulin resistance in subjects at risk of developing diabetes, has not been completely elucidated yet. Two hundred and one patients undergoing to oral glucose tolerance test (OGTT) were enrolled in the study. Routine laboratory tests, including fasting insulin, were performed at enrollment. GA was measured on plasma-EDTA by quantILab<sup>&reg;</sup> Glycated Albumin (Instrumentation Laboratory, A Werfen Company) on ILab Taurus analyzer. According to the plasma glucose concentration measured after 2 hours of glucose intake (2h- PG), 13 subjects (6.4%) were classified as impaired glucose tolerance (IGT). GA weakly correlated with fasting plasma glucose (FPG) (r=0.21; P=0.002), with HbA1c (r=0.16; P=0.024) but not with 2h-PG (P=0.7). GA, but not HbA1c, was negatively correlated to HOmeostasis Model Assessment for &beta; cell fuction (HOMA-&beta;) (r<sup>2</sup>=0.23; P&lt;0.001), to HOMA for insulin resistence (HOMA-IR) (r<sup>2</sup>=0.15; P&lt;0.0001) and to BMI (r<sup>2</sup>=0.05; P=0.001). In a stepwise multivariate regression analysis including HbA1c, HOMA-&beta;, plasma albumin, BMI, eGFR, age, FPG, and HOMA-IR as predictors of GA, only HbA1c (&beta;-coefficient: 0.04; P=0.038) and HOMA-&beta; (&beta;-coefficient: -0.01; P&lt;0.0001) were able to predict GA levels (r<sup>2</sup>=0.26; P&lt;0.001 for the model). Our results demonstrated that GA was associated to HOMA-&beta; and, to a lesser extent, to HOMA-IR and BMI. The increase of GA values can be explained by the reduction of &beta;-cell secretory function in subjects with no significant increase of FPG and 2h-PG.</p>
Biochimica Clinica ; 42(3) 234-239
Contributi Scientifici - Scientific papers