Showing total 15 results

1. Immunosensing of breast cancer tumor protein CA 15-3 (carbohydrate antigen 15.3) using a novel nano-bioink: A new platform for screening of proteins in human biofluids by pen-on-paper technology.

Author

Saadati, Arezoo, Hassanpour, Soodabeh, Hasanzadeh, Mohammad, Shadjou, Nasrin, and Hassanzadeh, Ahmad

Subjects

*TUMOR proteins, *BREAST cancer, *HUMAN proteins, *CARBOHYDRATES, *ANTIGENS

Abstract

Early stage diagnosis of breast cancer by monitoring the proteins in human biological fluids is the best method and the first section toward efficient therapy, delaying metastasis and hindrance mortality. In this study, graphite ink was synthesized and combined with CA 15-3 antibody in order to develop a novel immunosensor for detection of CA 15-3, breast cancer biomarker. Conductivity of bioink was examined by designing various conductive patterns on paper using a rollerball pen. Electrochemical behavior of engineered immunosensor was evaluated through employing sensitive diagnostic technique, DPV (differential pulse voltammetry). Under optimal conditions, the linear concentration range and low limit of quantification (LLOQ) of designed immunosensor was 15–250 U/mL and 15 U/mL, respectively. The process was successfully applied to assay of breast cancer biomarker (CA15-3) in unprocessed human plasma specimens. Unlabelled Image [ABSTRACT FROM AUTHOR]

Published

2019

2. Development of a new paper based nano-biosensor using the co-catalytic effect of tyrosinase from banana peel tissue (Musa Cavendish) and functionalized silica nanoparticles for voltammetric determination of l-tyrosine.

Author

Rahimi-Mohseni, Mohadeseh, Raoof, Jahan Bakhsh, Ojani, Reza, Aghajanzadeh, Tahereh A., and Bagheri Hashkavayi, Ayemeh

Subjects

*CARBON electrodes, *ELECTRODES, *IMMUNOASSAY, *IMMUNOGLOBULINS, *ANTIGENS

Abstract

In this paper, a new and facile method for the electrochemical determination of l -tyrosine was designed. First, 3-mercaptopropyl trimethoxysilane-functionalized silica nanoparticles were added to a paper disc. Then, the banana peel tissue and the mediator potassium hexacyanoferrate were dropped onto the paper, respectively. The modified paper disc was placed on the top of the graphite screen printed electrode and electrochemical characterization of this biosensor was studied by cyclic voltammetry and electrochemical impedance spectroscopy methods. The effective parameters like pH, banana peel tissue percentage, and the amount of mediator loading were optimized. l -tyrosine measurements were done by differential pulse voltammetry with a little sample (3 μL) for analysis. The biosensor showed a linear response for l -tyrosine in the wide concentration range of 0.05–600 μM and a low detection limit about 0.02 μM because of the co-catalytic effect of enzyme and nanoparticles. The stability of the biosensor and its selectivity were evaluated. This biosensor was applied for the voltammetric determination of l -tyrosine in the blood plasma sample. The results of the practical application study were comparable with the standard method (HPLC). In conclusion, a simple, inexpensive, rapid, sensitive and selective technique was successfully applied to the l -tyrosine analysis of the little samples. [ABSTRACT FROM AUTHOR]

Published

2018

3. Paper-based diagnostics in the antigen-depletion regime: High-density immobilization of rcSso7d-cellulose-binding domain fusion proteins for efficient target capture.

Author

Miller, Eric A., Baniya, Subha, Osorio, Daniel, Al Maalouf, Yara Jabbour, and Sikes, Hadley D.

Subjects

*IMMUNOASSAY, *CHIMERIC proteins, *CELLULOSE, *ANTIGENS, *THERAPEUTIC immobilization, *BIOSENSORS

Abstract

In this work, we report the development of a general strategy for enhancing the efficiency of target capture in immunoassays, using a bifunctional fusion protein construct which incorporates a substrate-anchoring moiety for the high-abundance immobilization of an antigen-binding domain. This approach was informed by the development of a pseudo first-order rate constant model, and tested in a paper-based assay format using a fusion construct consisting of an rcSso7d binding module and a cellulose-binding domain. These rcSso7d-CBD fusion proteins were solubly expressed and purified from bacteria in high molar yields, and enable oriented, high-density adsorption of the rcSso7d binding species to unmodified cellulose within a 30-second incubation period. These findings were validated using two distinct, antigen-specific rcSso7d variants, which were isolated from a yeast surface display library via flow cytometry. Up to 1.6 micromoles of rcSso7d-CBD was found to adsorb per gram of cellulose, yielding a volume-averaged binder concentration of up to 760 μM within the resulting active material. At this molar abundance, the target antigen is captured from solution with nearly 100% efficiency, maximizing the attainable sensitivity for any given diagnostic system. [ABSTRACT FROM AUTHOR]

Published

2018

4. Electrochemical immunoassay for detection of hepatitis C virus core antigen using electrode modified with Pt-decorated single-walled carbon nanotubes.

Author

Pusomjit, Pannaporn, Teengam, Prinjaporn, Chuaypen, Natthaya, Tangkijvanich, Pisit, Thepsuparungsikul, Nichanan, and Chailapakul, Orawon

Subjects

*CARBON nanotubes, *HEPATITIS C virus, *PLATINUM electrodes, *IMMUNOASSAY, *ANTIGENS, *ELECTRODES, *DETECTION limit

Abstract

Pt nanoparticles deposited on single-walled carbon nanotubes (PtSWCNTs), synthesized via the deposition precipitation (DP) method, were introduced as a substrate for immobilizing antibodies on an electrode surface and then enhancing the electrochemical sensitivity. A PtSWCNT-modified paper-based screen-printed graphene electrode was successfully developed to diagnose hepatitis C virus (HCV) infection. The hepatitis C virus core antigen (HCV-cAg) level was determined by differential pulse voltammetry (DPV) using [Fe(CN)6]3−/4− as a redox solution. In the presence of HCV-cAg, the DPV current response decreased with increasing HCV-cAg concentration. Under the optimal conditions, the change in current response provides a good linear correlation with the logarithm of HCV-cAg concentration in the range 0.05 to 1000 pg mL−1 (RSD < 5%), and the limit of detection was 0.015 pg mL−1 (or 0.71 fmol L−1). Furthermore, the proposed immunosensor has been utilized to quantify HCV-cAg in human serum samples with reliable results compared with standard immunoassays (% relative error < 10%). This sensor offers a simple, sensitive, selective, disposable, and inexpensive means for determination of HCV-cAg in human serum samples. The paper-based label-free immunosensor is versatile and feasible for clinical diagnosis. [ABSTRACT FROM AUTHOR]

Published

2022

5. Point-of-care diagnosis of COVID-19 disease based on antigen tests.

Author

M., Pohanka

Subjects

*COVID-19, *SARS-CoV-2, *ANTIGENS, *MEDICAL literature, *PRAXIS (Process)

Abstract

AIMS: This review is focused on the laboratory diagnoses of the coronavirus disease 2019 (COVID-19) by recognizing the antigen of the causative agent SARS-CoV-2 virus. Various antigen tests are available in this moment and these tests are being further developed in order to reach a better diagnostic value. The issue is reviewed in a complex view. METHODS: In this work, a complex survey of the current literature was made. The relevant and recent papers related to antigen tests of COVID-19 are discussed and cited. Basic specifications of the antigen tests and competitive methods were also scrutinized in the current literature. RESULTS: The survey of the current literature (years 2019 - 2021) was made and diagnostic methods like lateral flow tests (lateral flow immunochromatographic assay) and various types of biosensors were specified as tools for COVID-19 diagnosis and their application to be used as a point-of-care test is considered. CONCLUSIONS: Small hand-held assays applicable in the point-of-care conditions for diagnosis of COVID-19 by analysis of SARS-CoV-2 antigen are the means of a growing interest and these means undergo a significant development leading to the improvements of their specifications and applicability to the current praxis. Merit of the assays is discussed in this paper. [ABSTRACT FROM AUTHOR]

Published

2021

6. The Chemistry in Immunohistochemistry.

Author

Miller, Dylan V.

Subjects

*CLINICAL pathology, *IMMUNOHISTOCHEMISTRY, *IMMUNOASSAY, *CHEMISTRY, *DYES & dyeing, *QUALITY assurance, *ANTIGENS

Abstract

The article comments on a paper by B. Magnani and C. R. Taylor on the regulation of immunohistochemistry (IHC) as an assay. Topics mentioned include the challenges for achieving accuracy and precision with IHC, the impact of signal detection on how IHC and immunoassay should be regulated by government agencies in the U.S., the need to incorporate clinical immunoassay concepts into the IHC laboratory, and some developments in the staining/technical aspects of IHC.

Published

2023

7. Step-by-step full factorial design to optimize a quantitative sandwich ELISA.

Author

Hernández, Carlos A., Pérez-Bernal, Maylin, Abreu, Daymí, Valdivia, Onel, Delgado, Magali, Dorta, Dayamí, Domínguez, Andy G., Pérez, Enrique R., and Sánchez-Ríos, José M.

Subjects

*FACTORIAL experiment designs, *FACTORIALS, *IMMUNOASSAY, *ANTIGENS, *STATISTICIANS

Abstract

In this work, a quantitative sandwich ELISA was optimized, through a full factorial design of experiments (DOE) in successive steps of a preliminary protocol obtained by the method of one factor at a time (OFAT). The specificity of the optimized ELISA, the lower limit of quantification, the quantification range and the analytical sensitivity of the antigen quantification curve were evaluated, in comparison with the curve obtained from the preliminary protocol. The full factorial DOE was linked to a simple statistical processing, which facilitates the interpretation of the results in those laboratories where there is no trained statistician. The step-by-step optimization of the ELISA and the successive incorporation into the protocol of the best combination of factors and levels, allowed obtaining a specific immunoassay, with an analytical sensitivity 20 times greater and with a lower limit of antigen quantification that decreased from 156.25 at 9.766 ng/mL. As far as we know, there are no reports of optimization of an ELISA following the step-by-step scheme used in this work. The optimized ELISA will be used for the quantification of the TT-P0 protein, the active principle of a vaccine candidate against sea lice. [Display omitted] • ELISA optimization followed a step-by-step scheme not described previously in scientific papers. • The full factorial design of experiments was linked to a simple statistical processing. • The optimized ELISA has a 20-fold higher analytical sensitivity. • The lower limit of quantification of antigen decreased from 156.25 to 9.766 ng/mL. [ABSTRACT FROM AUTHOR]

Published

2023

8. Effect of the optimized selective enrichment medium on the expression of the p60 protein used as Listeria monocytogenes antigen in specific sandwich ELISA.

Author

Etty, Marie-Christine, D'Auria, Sabato, Fraschini, Carole, Salmieri, Stephane, and Lacroix, Monique

Subjects

*PROTEIN expression, *LISTERIA monocytogenes, *CELL growth, *ANTIGENS, *MONOCLONAL antibodies, *MASS media use

Abstract

This paper presents the effects of the composition of different media (i.e., Tryptic soy broth (TSB), Brain heart infusion (BHI), Listeria enrichment broth (LEB), Fraser broth (FB) and University of Vermont medium (UVM)) on the detection of a short peptide fragment PepD specific to the p60 protein (p60) of L. monocytogenes by a monoclonal antibody (anti-PepD mAb). Expression of the p60 obtained was demonstrated to be proportional to the cellular growth of Listeria monocytogenes regardless of the tested growth medium. However, the early growth of L. monocytogenes and the expression of the p60 were negatively affected by the presence of selective agents present in LEB, FB and UVM. Among those three selective enrichment media commonly used for L. monocytogenes , LEB allowed a better expression of L. monocytogenes p60 after an incubation period of 18 h. Optimization of the LEB revealed that the dextrose concentration was the critical factor for improving the expression of p60 and promotes the early expression of p60. Moreover, an optimal dextrose concentration of 0.5% (w/v) in LEB, coupled with anti-PepD mAb immobilized to solid support, reduced the detection of p60 from 18 h to 9 h for an initial concentration of L. monocytogenes of 108 CFU/ml. [ABSTRACT FROM AUTHOR]

Published

2019

9. A fully integrated paperfluidic molecular diagnostic chip for the extraction, amplification, and detection of nucleic acids from clinical samples.

Author

Rodriguez, Natalia M., Wong, Winnie S., Liu, Lena, Dewar, Rajan, and Klapperich, Catherine M.

Subjects

*MOLECULAR diagnosis, *INTEGRATED circuits, *EXTRACTION (Chemistry), *WAVE amplification, *NUCLEIC acids, *ANTIGENS, *IMMUNOASSAY

Abstract

Paper diagnostics have successfully been employed to detect the presence of antigens or small molecules in clinical samples through immunoassays; however, the detection of many disease targets relies on the much higher sensitivity and specificity achieved via nucleic acid amplification tests (NAAT). The steps involved in NAAT have recently begun to be explored in paper matrices, and our group, among others, has reported on paper-based extraction, amplification, and detection of DNA and RNA targets. Here, we integrate these paper-based NAAT steps into a single paperfluidic chip in a modular, foldable system that allows for fully integrated fluidic handling from sample to result. We showcase the functionality of the chip by combining nucleic acid isolation, isothermal amplification, and lateral flow detection of human papillomavirus (HPV) 16 DNA directly from crude cervical specimens in less than 1 hour for rapid, early detection of cervical cancer. The chip is made entirely of paper and adhesive sheets, making it low-cost, portable, and disposable, and offering the potential for a point-of-care molecular diagnostic platform even in remote and resource-limited settings. [ABSTRACT FROM AUTHOR]

Published

2016

10. General Steps to Standardize the Laboratory Measurement of Serum Total 25-Hydroxyvitamin D.

Author

SEMPOS, CHRISTOPHER T., BETZ, JOSEPH M., CAMARA, JOHANNA E., CARTER, GRAHAM D., CAVALIER, ETIENNE, CLARKE, MICHAEL W., DOWLING, KIRSTEN G., DURAZO-ARVIZU, RAMON A., HOOFNAGLE, ANDREW N., LIU, ANDY, PHINNEY, KAREN W., SARAFIN, KURTIS, WISE, STEPHAN A., and COATES, PAUL M.

Subjects

*VITAMIN D, *FAT-soluble vitamins, *IMMUNOASSAY, *IMMUNOGLOBULINS, *ANTIGENS

Abstract

The Vitamin D Standardization Program (VDSP) has collaborated with numerous groups and agencies to assemble a set of tools, i.e., a reference measurement system, that can be used to establish the traceability of 25-hydroxyvitamin D [25(OH)D] assays to relevant reference measurement procedures and reference materials. This is done with the goal of verifying end-user laboratory performance using precise statistical criteria to determine whether a specific assay is standardized. The purpose of this paper was to outline a set of steps that routine clinical and research laboratories can use to standardize their 25(OH)D assays using these tools. These steps apply to laboratories using commercially developed immunoassay measurement systems as well as in-house assays, usually based on high HPLC or LC tandem MS measurement systems. The steps are (1) initial calibration, (2) initial assessment of accuracy and bias, (3) assessment of total percent CV and mean bias, (4) use of trueness controls, and (5) participation in accuracy-based performance testing and/or external quality assessment schemes. The goal of each laboratory assay is to have a total CV of ≤10% and mean bias of ≤5%. Rigorous and less rigorous but low-cost options for meeting these statistical criteria are provided. Research laboratories who infrequently measure 25(OH)D are advised to repeat steps 1–4 for every measurement cycle. For users of commercial immunoassays who have relatively little control over standardization, we present an option for using trueness controls to develop a master equation that can be used to standardize results to the reference methods. [ABSTRACT FROM AUTHOR]

Published

2017

11. Photonic ring resonance is a versatile platform for performing multiplex immunoassays in real time.

Author

Mudumba, Sasi, de Alba, Sophia, Romero, Randy, Cherwien, Carli, Wu, Alice, Wang, Jue, Gleeson, Martin A., Iqbal, Muzammil, and Burlingame, Rufus W.

Subjects

*IMMUNOASSAY, *ANTINUCLEAR factors, *BIOSENSORS, *AUTOANTIBODIES, *ANTIGENS

Abstract

Photonic ring resonance is a property of light where in certain circumstances specific wavelengths are trapped in a ring resonator. Sensors based on silicon photonic ring resonators function by detecting the interaction between light circulating inside the sensor and matter deposited on the sensor surface. Binding of biological material results in a localized change in refractive index on the sensor surface, which affects the circulating optical field extending beyond the sensor boundary. That is, the resonant wavelength will change when the refractive index of the medium around the ring resonator changes. Ring resonators can be fabricated onto small silicon chips, allowing development of a miniature multiplex array of ring based biosensors. This paper describes the properties of such a system when responding to the refractive index changed in a simple and precise way by changing the ionic strength of the surrounding media, and in a more useful way by the binding of macromolecules to the surface above the resonators. Specifically, a capture immunoassay is described that measures the change of resonant wavelength as a patient serum sample with anti-SS-A autoantibodies is flowed over a chip spotted with SS-A antigen and amplified with anti-IgG. The technology has been miniaturized and etched into a 4 × 6 mm silicon chip that can measure 32 different reactions in quadruplicate simultaneously. The variability between 128 rings on a chip as measured by 2 M salt assays averaged 0.6% CV. The output of the assays is the average shift per cluster of 4 rings, and the assays averaged 0.5% CV between clusters. The variability between chips averaged 1.8%. Running the same array on multiple instruments showed that after some improvements to the wavelength referencing system, the upper boundary of variation was 3% between 13 different instruments. The immunoassay displayed about 2% higher variability than the salt assays. There are several outstanding features of this system. The amount of antigen used on the chip for each test is around 200 picograms, only a few microliters of sample is necessary, and the assays take < 10 min. [ABSTRACT FROM AUTHOR]

Published

2017

12. Multiple sclerosis: assay of free immunoglobulin light chains.

Author

Ramsden, D. B.

Subjects

*MULTIPLE sclerosis diagnosis, *IMMUNOGLOBULINS, *CEREBROSPINAL fluid, *OLIGOCLONAL bands, *ANTIGENS

Abstract

Over the past five years, a number of papers have appeared describing the assay of free immunoglobulin light chains in cerebrospinal fluid to assist in the diagnosis of multiple sclerosis. The assay of kappa free immunoglobulin chains is being advocated as a technically simpler and cheaper quantitative alternative to the qualitative detection of oligoclonal bands. This article reviews the analytical and clinical characteristics of these immunoglobulin free light chain assays and places them in their historical context and possible future developments. [ABSTRACT FROM AUTHOR]

Published

2017

13. Quantitative improvement of magnetic immunoassays in thin channels using magnetofluorescent nanocomposites.

Author

Tsai, H.Y., Chuang, M.J., Chou, B.C., Yang, S.F., and Bor Fuh, C.

Subjects

*IMMUNOASSAY, *ANTIGENS, *ENZYME-linked immunosorbent assay, *MAGNETISM, *BIOMARKERS

Abstract

This paper presents the characterization and application of prepared magnetofluorescent nanocomposites for quantitatively improving magnetic immunoassays in a thin channel. Magnetofluorescent nanocomposites [(iron oxide@polystyrene,QD g @mSiO 2 )@SiO 2 ] were characterized for optimizing magnetic and fluorescence properties for multifunctional applications. The prepared magnetofluorescent nanocomposites have several times higher magnetism than those of literature and exhibit strong fluorescence. The number of magnetofluorescent nanocomposites with primary antibody can be reliably estimated through fluorescence measurement and used for a sandwich immunoassay. We used a model biomarker, tumor necrosis factor-α (TNF-α), to demonstrate the feasibility of method. The detection limit of TNF-α was 1.0 pg/ml and the linear range was 1.7 pg/ml to 17 ng/ml. This detection limit was substantially lower and the linear range was considerably wider than those of an enzyme-linked immunosorbent assay (ELISA) and other methods in sandwich immunoassays. The differences between our method and an ELISA for TNF-α measurements of serum samples were less than 11%. The results show that magnetofluorescent nanocomposites are useful to provide higher quantitative accuracy and wider linear range than those of previous methods with 50% of the biofunctional nanocomposites, enabling the simple, rapid, and sensitive detection of biomarkers. [ABSTRACT FROM AUTHOR]

Published

2016

14. Parameters of immunoglobulin extraction from dried blood spot cards and immunoassays for detection of antibody response to pathogens including the novel SARS-CoV-2.

Author

Iankov, Ianko, Viker, Kimberly, Turgeon, Coleman, Matern, Dietrich, and Galanis, Evanthia

Subjects

*ANTIBODY formation, *IMMUNOASSAY, *SARS-CoV-2, *VIRAL antigens, *IMMUNOGLOBULIN G

Abstract

Dried blood spots (DBS) are routinely used in screening newborns for treatable disorders. Immunoglobulin extraction from DBS, serum or other biological fluids loaded on filter paper cards could represent a valuable method of specimen preservation in monitoring immune response against pathogens as well as vaccination efficiency. In this study using different sources including serum, and monoclonal antibodies we established parameters for antibody extraction from the filter cards to assess antibody reactivity against Helicobacter pylori , measles virus (MV) and the novel coronavirus SARS-CoV-2 antigens. We demonstrated that DBS and dried undiluted serum result in completely preserved antibody activity for immunoassays, including in virus neutralization assays against MV. Extraction efficiency was determined by IgG concentration measurements. The plaque-reduction neutralization titer 50% of dried human serum spots remained stable after more than 10-day storage – 1:359 vs. 1:345 for the corresponding frozen sample. DBSs could be used to monitor immune response to bacterial and viral antigens following natural exposure or immunization. Mice immunized with recombinant spike protein receptor-binding domain of SARS-CoV-2 developed a strong antibody response by day 14 and reached titers above 1:64,000 on day 21 following the secondary boost immunization as measured on DBS samples in antigen-mediated ELISA. Variability in IgG concentration of eluted DBS could be influenced by factors involved in sample application, extraction process and sample characteristics. Adjustment of antibody specific activity to the eluted IgG concentration can increase accuracy of the result interpretation, including in SARS-CoV-2 serological diagnostics. • Immunoglobulins could be efficiently extracted from dried filter cards and used in testing immune response against pathogens. • Antibody specific activity is preserved in serum and blood spot extracted samples run in ELISA and virus neutralization test. • Extraction conditions and dilution factor are critical for running the dried spot samples in virus neutralization test. • Measurement of IgG concentration and calculation of specific IgG activity is the most accurate way of result interpretation. [ABSTRACT FROM AUTHOR]

Published

2021

15. Quick and convenient construction of lambda-cyhalothrin antigen for the generation of specific antibody.

Author

Cui, Nan, Cao, Limin, Sui, Jianxin, Lin, Hong, Han, Xiangning, Chen, Xiangfeng, Xie, Hanyi, and Sun, Xun

Subjects

*CARRIER proteins, *PYRETHROIDS, *SUCCINIC anhydride, *ANTIGENS, *IMMUNOGLOBULINS, *PROTEIN synthesis, *OXYGEN carriers

Abstract

Lambda-cyhalothrin is a pyrethroid widely used in crop, fruit and vegetable production, but has potential health threats to human. Immunoassay is a cheap, rapid and facile method to detect lambda-cyhalothrin, yet wide application of this method still requires improvement in the construction of antigen. In this study, we developed a one-step lambda-cyhalothrin hapten synthesis that transformed the cyanide group in lambda-cyhalothrin to amide. Complete antigen was assembled by coupling the amide with succinic-anhydride-activated carrier proteins, and corresponding polyclonal antibodies were generated using Balb/c mice. Using antibody generated by the method in this paper, the competitive ELISA demonstrated the lowest detection limit of 3.772 μg/L for lambda-cyhalothrin, and no significant cross-reactivity for other pyrethroid pesticides was observed. All the results suggested we have established a more efficient technique of generating lambda-cyhalothrin antibody. Furthermore, since the activated proteins used in this study are highly controllable, we believe these proteins could potentially be the prototype of a series of standardized carrier proteins for the synthesis of complete antigens. Image 1 • A safe and high-yielding one-step lambda-cyhalothrin hapten synthesis strategy was developed. • A novel succinic anhydride activating technology was developed which provided the carrier proteins with more reactive sites. • The carrier protein activation method has provided a new solution to the poor-conjugation problems. [ABSTRACT FROM AUTHOR]

Published

2020