Performance comparison of EasyFix G26 and HYDRASYS 2 SCAN for the detection of serum monoclonal proteins.

BACKGROUND: Serum protein electrophoresis (SPE) is a widely used laboratory technique to diagnose patients with multiple myeloma (MM) and other disorders related to serum protein. In patients with MM, abnormal monoclonal protein can be detected by SPE and further characterized using immunofixation electrophoresis (IFE). There are several semi-automated agarose gel-based systems available commercially for SPE and IFE. In this study, we sought to evaluate the analytical performance of fully automated EasyFix G26 (EFG26) and semi-automated HYDRASYS 2 SCAN (H2SCAN) for both SPE and IFE. METHODS: Both instruments were operated according to manufacturer's instructions. Samples used include a commercially available normal control serum (NCS) and patients' specimens. The following were evaluated: precision and comparison studies for SPE, and reproducibility and comparison studies for IFE. Statistical analyses were performed using Microsoft Excel. RESULTS: For SPE repeatability study, our results showed that EFG26 has higher coefficient of variation (%CV) compared with H2SCAN for both samples except for monoclonal component with %CV of 0.97% and 1.18%, respectively. Similar results were obtained for SPE reproducibility study except for alpha-1 (4.16%) and beta (3.13%) fractions for NCS, and beta fractions (5.36%) for monoclonal sample. Subsequently, reproducibility for IFE was 100% for both instruments. Values for correlation coefficients between both instruments ranged from 0.91 to 0.98 for the five classic bands. CONCLUSION: Both instruments demonstrated good analytical performance characterized by high precision, reproducibility and correlation.

Development of an electrophoretic method based on nanostructured materials for HbA1c determination.

Glycosylated hemoglobin (HbA1c) detection is performed routinely in hospitals as it is the most widespread confirmatory diagnosis of diabetes mellitus. Here we present a novel CE method for measuring HbA1c by introducing silica nanoparticles (NPs) modified with a boronic acid derivative (sugar loadings of 51 ± 2 µg/mg) as pseudo-stationary phase. Before the sample injection, SiO2 NP─B(OH)2 were introduced via pressure. Electrophoretic separation was explored through variation of the buffer pH and separation voltage, being the best separation, resolution and shorter separation time achieved with a 25 mM phosphate buffer pH 6.5. The calibration curve obtained was expressed as Area = 182.05%-1 × HbA1c - 377.02; R2  = 0.9826, using a UV/VIS absorbance detector at 415 nm (diode array). No interferences were observed from carbamylated or acetylated hemoglobin and the method shows a noteworthy stability. A paired t-test was applied to compare the developed CE method with a commercial HbA1c test and no significant variations have been observed at a 90% significance level.

Analytical sensitivity and diagnostic performance of serum protein electrophoresis on the HYDRAGEL 30 PROTEIN(E) ß1-ß2 Sebia Hydrasys system.

BACKGROUND: Serum protein electrophoresis (SPE) and immunofixation electrophoresis (IFE) are used in the diagnosis and monitoring of plasma cell dyscrasias. IFE is considered the most sensitive method for the detection of monoclonal proteins (M-proteins), but it is not quantitative. The goal of this study was to establish the analytical sensitivity and diagnostic performance of SPE on the Sebia Hydrasys using HYDRAGEL 30 PROTEIN(E) ß1-ß2. METHODOLOGY: Patient sera with a previously identified M-protein (IgG, IgA or IgM) were serially diluted with a normal serum pool and electrophoresed on the Sebia Hydrasys using HYDRAGEL 30 PROTEIN(E) ß1-ß2. The SPE gels were individually interpreted by five independent observers and IFE was performed on selected samples. Limit of detection was determined as the lowest concentration of M-protein band visible on the gel. SPE diagnostic performance was evaluated against the "gold standard" IFE according CLSI EP12-A2 guidelines. RESULTS: Detection limit was comparable among all M-proteins migrating in the gamma region, IgG-κ (0.18±0.08g/L; n=6), IgG-λ (0.36±0.25g/L; n=8), IgA-κ (0.40±0.13g/L; n=7), IgA-λ (0.37±0.23g/L; n=4), IgM-κ (0.47±0.20g/L; n=13) and IgM-λ (0.29±0.24g/L; n=6). Percentage agreement with IFE for IgG and IgA in the gamma region ranged from 65% to 100%, whereas IgM migrating in the gamma region and immunoglobulins co-migrating with alpha or beta globulins, showed poor (0-38%) agreement. CONCLUSIONS: This study evaluates the analytical sensitivity and diagnostic performance of SPE on the Sebia Hydrasys using HYDRAGEL 30 PROTEIN(E) ß1-ß2. There was acceptable agreement between SPE and IFE for IgG-κ/λ and IgA-κ/λ migrating in the gamma region, suggesting that repeating IFE for samples with these isotypes, when the previous IFE and second SPE are both negative, may not be necessary.

Comparison of Fully Automated and Semiautomated Systems for Protein Immunofixation Electrophoresis.

BACKGROUND: In order to establish a diagnosis of monoclonal gammopathy, it is necessary to detect and identify monoclonal components. To confirm the immunological nature of the proteins, the next step is to define their composition in heavy and light chains using immunofixation. The purpose of this study was to compare two different instruments, one semiautomated and the other fully automated for serum and urine immunofixation. METHODS: We selected 150 sera and 100 urines from patients admitted for routine analysis, which were analyzed by immunofixation to characterize monoclonal components. RESULTS AND CONCLUSION: Comparison study showed a difference in the identification of small monoclonal components and hypogammaglobulinemia, in serum and urine, between the two analyzers. We also observed a difference in the length of the electrophoretic pattern that is of considerable importance as it leads to a better resolution of the gamma region, allowing to identify even the smallest monoclonal component that can be easily hide in an oligoclonal pattern. For this reason, there is need to ameliorate commercial immunofixation assays. It is essential to improve data harmonization and standardize measurement procedures in order to guarantee a correct diagnosis for the right patient care.

Label-free biomolecular detection at electrically displaced liquid interfaces using interfacial electrokinetic transduction (IET).

Biosensors require a biorecognition element that specifically binds to a target analyte, and a signal transducer, which converts this targeted binding event into a measurable signal. While current biosensing methods are capable of sensitively detecting a variety of target analytes in a laboratory setting, there are inherent difficulties in developing low-cost portable biosensors for point-of-care diagnostics using traditional optical, mass, or electroanalytical-based signal transducers. It is therefore important to develop new biosensing transducer elements for recognizing binding events at low cost and in portable environments. Here, we demonstrate a novel electrokinetic liquid biosensing method for the sensitive label-free detection of a model biomolecule against a background of serum protein. The biosensor is based on the motion of a microfluidic-generated electrical liquid interface when subjected to an external alternating current electrical field. We demonstrate that the electric field-induced motion of the interface can be used as a sensitive and specific transducer for the detection of avidin at femtomolar concentrations in solution. This new detection strategy does not require surface functionalization or fluorescent labels, and has the potential to serve as a sensitive low-cost method for portable biomarker detection.

Protein and cholesterol electrophoresis of plasma samples from captive cownose ray (Rhinoptera bonasus).

Our study was undertaken to assess the application of semiautomated methods available at the reference laboratory level for the evaluation of plasma protein and cholesterol via electrophoresis in samples from cownose rays (Rhinoptera bonasus). Three groups of animals were assessed: clinically normal, clinically abnormal, and parasitized with leeches. As reported previously, the albumin band was negligible; the protein electrophoretograms were dominated by a large beta-globulin fraction. While the group of samples from the leech-parasitized rays did not show any large differences, the abnormal group exhibited significantly elevated total solids and cholesterol levels. The latter was related to a significant increase in very low density lipoprotein levels. The results demonstrate the potential application of these laboratory methods in quantitation of plasma proteins and cholesterol fractions in subclass Elasmobranchii.

Variación de la expresión proteica en función de la gravedad del síndrome de apnea-hipopnea del sueño / Variation in Protein Expression Depending on the Severity of Sleep Apnoea-Hypopnoea Syndrome

ObjetivoEstudio prospectivo con muestreo consecutivo y grupo control para determinar si la expresión proteica en pacientes con SAHS es diferente a la de un grupo control (IAH ≤5).Pacientes y métodosFueron incluidos 32 pacientes, entre 35 y 60 años, a los que se les realizó una polisomnografía. Fueron excluidos los sujetos con enfermedad aguda o crónica. La primera dimensión del estudio proteómico se realizó en tiras IPG (18cm, pH 4–7) y, la segunda, en geles SDS-PAGE por triplicado para cada grupo. Los geles se tiñeron con SYPRO-Ruby (Bio-Rad®), se obtuvieron las imágenes con un escáner láser FX-Imager, y el análisis de los spots se realizó con el software ProteomWeaver v4.0 (Bio-Rad®). Se analizaron los cambios significativos entre los geles agrupados por réplicas y por separado, considerándose un cambio significativo si la intensidad relativa en los spots fue superior o inferior en 3 veces a la del control y se observó en 2 de las 3 réplicas de cada grupo con un coeficiente de variación <20%.ResultadosLos pacientes fueron divididos en 8 sujetos por grupo (control, leve, moderado y grave). La comparación de los geles constató diferencias significativas entre el grupo control y los 3 grupos clínicos, observándose 3 spots con sobreexpresión significativa y 7 spots subexpresados respecto al grupo control.ConclusiónExisten cambios significativos en la expresión protéica entre un grupo control y pacientes en distintos estadios de enfermedad. El estudio proteómico puede identificar biomarcadores relacionados con el diagnóstico y gravedad del SAHS(AU)

ObjectiveA prospective study with a consecutive sample and a control group to determine whether protein expression in patients with sleep apnoea-hypopnoea syndrome (SAHS) is different from that of the control group (IAH ≤5).Patients and methodsA total of 32 patients aged between 35 and 60 years who had a polysomnograph performed were included. Patients with an acute or chronic were excluded. The first dimension of the proteomic study was carried out on IPG strips (18cm, pH 4–7) and the second on SDS-PAGE gels in triplicate for each group. The gels were stained with SYPRO-Ruby (Bio-Rad®), the images obtained with an FX-Imager laser scanner and the spots were analysed using ProteomWeaver v. 4.0 (Bio-Rad®) software. Significant changes between the gels were analysed by replicates and separately, being considered a significant change if the relative intensity of the spots was three times higher or lower than that of the control and if it was observed in 2 of the 3 replicates of each group, with a coefficient of variation of <20%.ResultsThe patients were divided into 8 subjects per group (control, mild, moderate and severe). The comparison of the gels showed significant differences between the control group and the 3 clinical groups, with significant over-expression being observed in 3 spots, and under-expression in 7 spots in the control group.ConclusionThere are significant changes in protein expression between a control group and patients in different stages of disease. The proteomic study can identify biomarkers associated with the diagnosis and severity of the SAHS(AU)

Two-dimensional separation of human plasma proteins using iterative free-flow electrophoresis.

Blood plasma is the most complex human-derived proteome, containing other tissue proteomes as subsets. This proteome has only been partially characterized due to the extremely wide dynamic range of the plasma proteins of more than ten orders of magnitude. Thus, the reduction in sample complexity prior to mass spectrometric analysis is particularly important and alternative separation methodologies are required to more effectively mine the lower abundant plasma proteins. Here, we demonstrated a novel separation approach using 2-D free-flow electrophoresis (FFE) separating proteins and peptides in solution according to their pI prior to LC-MS/MS. We used the combination of sequential protein and peptide separation by first separating the plasma proteins into specific FFE fractions. Tryptic digests of the separated proteins were generated and subsequently separated using FFE. The protein separation medium was optimized to segregate albumin into specific fractions containing only few other proteins. An optimization of throughput for the protein separation reduced the separation time of 1 mL of plasma to approximately 3 h providing sufficient material for digestion and the subsequent peptide separation. Our approach revealed low-abundant proteins (e.g., L-selectin at 17 ng/mL and vascular endothelial-cadherin precursor at 30 ng/mL) and several tissue leakage products, thus providing a powerful orthogonal separation step in the proteomics workflow.

Linearity and detection limit in the measurement of serum M-protein with the capillary zone electrophoresis system Capillarys.

We studied the linearity and detection limits of the capillary zone electrophoresis system Capillarys in the measurement of serum monoclonal protein. Three monoclonal proteins with different isotypes and electrophoretic migrations were diluted with a hypo-gamma-globulinemic polyclonal serum pool. Mathematical linearity was observed for all monoclonal protein isotypes in the ranges studied without removing the polyclonal gamma-globulin background. Theoretical concentrations of 0.43, 0.89 and 0.33 g/L for monoclonal proteins immunoglobulin (Ig)G, IgA and IgM, respectively, gave a discernible spike by Capillarys, although they were measured as 0.76, 1.09 and 0.76g/L, respectively. We observed overestimation of monoclonal protein inversely correlated to concentrations below 15 g/L. All these limitations have to be taken into account when monitoring monoclonal proteins, because the loss of linearity and the protein background may hide an increase in concentration at low levels.

Microchip-based capillary electrophoresis of human serum proteins.

The separation and relative quantitation of human serum proteins is important to the clinical diagnosis of various states of disease. Microchip-based capillary electrophoresis (CE) of human serum proteins offers several advantages over sodium dodecyl sulfate-poly(acrylamide) gel electrophoresis and conventional CE methods, including decreased sample consumption and analysis time and the possibility of on-chip sample manipulation (dilution, labelling, etc.). The microchip used in these studies was designed to allow for on-chip, post-separation labelling of the proteins and subsequent laser-induced fluorescence detection. 2-Toluidinonaphthalene-6-sulfonate (TNS) is a virtually non-fluorescent reagent which, upon non-covalent association with the protein and excitation at 325 nm, produces a fluorescent product with an emission maximum near 450 nm. After optimization of buffer conditions (100 mM borate with 2 mM lactate, pH 10.5), individual serum proteins (IgG to mimic the gamma zone, transferrin the beta zone, alpha-1-antitrypsin the alpha 1 zone and albumin its own zone) were successfully resolved on-chip, as was a "synthetic" serum solution composed of a mixture of all four of the previously mentioned proteins. Analysis of all five protein zones in a true human serum sample, however, has not yet been achieved on-chip due to the poor sensitivity of the TNS label for several of the serum proteins.

[Assessment of proteinograms obtained using the Beckman Paragon system]. / Otsenka proteinogrammy, vypolnennoi na sisteme Paragon firmy "Beckman".

A high resolving capacity of agarose gel in electrophoretic separation of blood serum proteins permits the isolation of 7 or 8 fractions instead of 5 routinely isolated by paper or acetate cellulose film electrophoresis. The strips on proteinograms obtained using Beckman Paragon device are identified. The authors emphasize that reference values should be determined for each laboratory and present the proteinograms of 80 normal subjects they obtained. If M-gradient appears on the proteinogram, the zone of its localization should be specified in comments.

Evaluation of a new automated system for the determination of CK-MB isoforms.

We evaluated a new analyzer (Cardio REP) specifically designed for cardiac CK-MB isoenzyme and isoforms activity, with a performance time of 24 minutes. Ten AMI patients, with times elapsed between the onset of chest pain and admission to hospital ranging from 30 minutes to 4 hours, were monitored every 3-4 hours until the 16th hour of hospitalization. In each serum sample, in addition to total CK-MB and CK-MB isoforms measured by the Cardio REP analyzer, we also assayed total CK activity, CK-MB activity by immunoinhibition method, CK-MB mass concentration, CK-MB isoforms by REP method, troponin T, and myoglobin. The precision study demonstrated acceptable within assay and between assay CVs% for total CK-MB (8.1 and 10.4), MB1 (9.1 and 14.2), and MB2 (9.1 and 8.2) isoforms. The method was found to be linear up to 371 U/L for MB2 isoform fraction and up to 516 U/L for total CK-MB. Results for CK-MB obtained with the Cardio REP correlated well with those for CK-MB activity obtained with the immunoinhibition method (r = 0.869) and those of CK-MB mass concentration (r = 0.923). The sensitivity of the Cardio REP CK isoforms method was found to be greater than that of the REP CK isoforms method. Time to first increased value of MB2/MB1 ratio and MB2 isoform was earlier in comparison to that for CK-MB mass concentration and similar to that for myoglobin, a marker that, however, lacks specificity. The diagnostic efficiency of CK-MB isoforms and the availability of a real-time, fully automated method for their measurement suggest that utilization of this biochemical marker in emergency for the early diagnosis of AMI.

Fully automated capillary isotachophoresis of proteins.

An apparatus for fully automated capillary isotachophoresis was constructed. A commercial apparatus (Shimadzu IP-2A) was modified in the electrolyte pumping system and the flow lines were simplified. An automatic sampler was used for sequential sampling. The equipment, pumps, the sampler, a high-voltage DC power supply, and a recorder, were controlled by a system controller which comprises a microcomputer and a BASIC program for time-control of the equipments. The apparatus was successfully used for the automated sequential analysis of human serum proteins. Forty serum samples were analyzed within 17 h without manual operation and for each sample the serum proteins were resolved into about twenty UV peaks or shoulders.

[Use of a conductometric detector in capillary isotachophoresis of blood serum proteins]. / Primenenie konduktometricheskogo detektora pri kapilliarnom izotakhoforeze belkov syvorotki krovi.

Conductometric detectors can be employed for analysis of the blood serum proteins. Conductometric curves of various sera show at least 12 peaks corresponding to certain protein fractions and inorganic components. Isotachophoresis of individual protein preparations detects impurities in them. The type of conductometric curves of various blood sera helps diagnose abnormal shifts. Use of a spacer is not conducive to a more accurate detection of the blood serum protein compounds.

Bloodstain characterization in the EAP, Hp, Hb, AK and Glo I typing systems using minigels and the PhastSystem.

Application of minigels and the PhastSystem to obtain phenotyping results from bloodstains in the EAP, Hp, AK, and Glo I typing systems was investigated. Nonequilibrium isoelectric focusing with 4-6.5 PhastGel produced readily interpretable phenotypes in the EAP typing system. Both 4-6.5 and 5-8 PhastGel produced AK typing system phenotypes using nonequilibrium isoelectric focusing conditions. The 8-25% PAG PhastGel developed by two staining techniques allowed discrimination of phenotypes for the Hp typing system. Phenotypes from the Glo I typing system were also obtained with this gel type. Variant haemoglobins could be detected on pH 5-8 PhastGel using isoelectric focusing conditions. Much potential for standardized, rapid phenotyping of bloodstains was found to exist utilizing the PhastSystem.

[Electrophoretic separation of high-molecular protein components of low-density lipoproteins]. / Elektroforeticheskoe razdelenie vysokomolekuliarnykh belkovykh komponentov lipoproteidov nizkoi plotnosti.

Apolipoprotein B (apoB) and 40 different protein standards have been studied at electrophoresis under various conditions of separation. The system was selected that is capable of fractionating well the apoB and its high-molecular weight species formed after the treatment of serum lipoproteins with malondialdehyde. The separation of proteins is based on the usage of complex gels combining in one unit the regions with constant (T = 3 and 10%) or continuously changing (gradient gel with T = 3-6%) concentration of acrylamide. The technique allows to create the optimum conditions for simultaneous separation of both high and low-molecular weight polypeptides. The method was applied to determine the relative molecular mass (Mr) of apoB. When apoB was isolated in strictly controlled environment its Mr has been found to be about 500-540 kilodaltons. The result is in a good accordance with the data on the amino acid sequence of mature apoB.