← Back to Search
Novel Colorimetric Immunoassay For The Detection Of Aflatoxin B1
S. Garden, N. Strachan
Published 2001 · Chemistry
Save to my Library
Download PDFAnalyze on Scholarcy
Abstract A rapid colorimetric sequential injection immunoassay (SIIA) system utilising a jet ring flow cell packed with a solid phase of polymethylmethacrylate beads was used for the detection of aflatoxin B 1 (AFB 1 ). This method is proven in its ability to detect AFB 1 down to a level of 0.2 ng ml −1 in artificially contaminated food materials, which is comparable to the sensitivity of microtitre plate ELISA. The automated SIIA system takes under 10 min per sample and uses a methanol–water (80:20) and hexane extraction procedure that takes approximately 15 min to perform.
This paper references
Serological determination of Helicobacter pylori infection using sandwiched and enzymatically amplified piezoelectric biosensor
Xiaodi Su (2001)
Portable fiber-optic immunosensor for detection of methsulfuron methyl.
W. Xing (2000)
Immunosensing of photoimmobilized proteins on surface acoustic wave sensors
T. Wessa (1999)
Development of a portable field immunoassay for the detection of aflatoxin M1 in milk.
L. Sibanda (1999)
Aflatoxins and their Metabolites in the Tissues, Faeces and Urine from Lambs Feeding on an Aflatoxin-Contaminated Diet
A. Fernández (1997)
Amperometric enzyme immunosensor for the determination of the antigen of the pathogenic fungi Trichophyton rubrum
E. P. Medyantseva (2000)
Performance characteristics for flow injection immunoassay using monoclonal antibodies against s-triazine and 2,4-D herbicides.
M. Fránek (2000)
An automated, handheld biosensor for aflatoxin.
M. A. Carlson (2000)
Application of the assay of aflatoxins by liquid chromatography with fluorescence detection in food analysis.
J. Jaimez (2000)
Application of an automated particle‐based immunosensor for the detection of aflatoxin B1 in foods
N. Strachan (1997)
Immunosensor for the determination of the herbicide simazine based on an ion-selective field-effect transistor
N. Starodub (2000)
Highly selective and sensitive SPR immunosensor for detection of methamphetamine
G. Sakai (1999)
On-line immunoanalysis for environmental pollutants: from batch assays to automated sensors
Miguel Ángel González-Martínez (1999)
This paper is referenced by
Hollow PDA-Au nanoparticles-enabled signal amplification for sensitive nonenzymatic colorimetric immunodetection of carbohydrate antigen 125.
Y. Zhao (2015)
Detection of Aflatoxin B1 in Barley: Comparative Study of Immunosensor and HPLC
N. H. S. Ammida (2006)
Development of an impedimetric aflatoxin M1 biosensor based on a DNA probe and gold nanoparticles.
E. Dinçkaya (2011)
Aflatoxin B 1 : Toxicity , characteristics and analysis : Mini review
S. Saini (2013)
Food, Beverages and Agricultural Applications
I. V. Tóth (2008)
Studies Towards the Development of a Screen‐Printed Carbon Electrochemical Immunosensor Array for Mycotoxins: A Sensor for Aflatoxin B1
R. M. Pemberton (2006)
Highly sensitive toxin microarray assay for aflatoxin B1 detection in cereals
A. Beizaei (2015)
Determination Of The Aflatoxin B1 In Ground Nut By Differential Pulse Cathodic Stripping Voltammetry (Dpcsv) Technique
M. Yaacob (2009)
Immunochemical methods for the determination of mycotoxins
I. Y. Goryacheva (2009)
Determination of Aflatoxin Levels in Some Dairy Food Products and Dry Nuts Consumed in Saudi Arabia
M. Ashraf (2012)
Sequential-injection analysis (SIA): A useful tool for on-line sample-handling and pre-treatment
A. Economou (2005)
Immunochemical methods of mycotoxin analysis (review)
A. E. Urusov (2010)
Direct competitive ELISA based on a monoclonal antibody for detection of aflatoxin B1. Stabilization of ELISA kit components and application to grain samples
A. Y. Kolosova (2006)
EFFECTS OF DIFFERENT STORAGE CONDITIONS ON AFLATOXIN FORMATION IN KÖME INOCULATED WITH ASPERGILLUS PARASITICUS NRRL 2999
H. Yıldız (2008)
Biosensors for mycotoxin analysis: recent developments and future prospects
C. Maragos (2009)
Toxicant substitutes in immunological assays for mycotoxins detection: A mini review.
P. Li (2020)
Application of sequential injection analysis (SIA) to food analysis
R. Pérez-Olmos (2005)
Recent advances in aflatoxin B1 detection based on nanotechnology and nanomaterials-A review.
Z. Xue (2019)
Fenton reaction-based colorimetric immunoassay for sensitive detection of brevetoxin B.
Wenqiang Lai (2016)
Natural Occurrence, Analysis, and Prevention of Mycotoxins in Fruits and their Processed Products
J. Yang (2014)
Indirect competitive immunoassay for detection of aflatoxin B1 in corn and nut products using the array biosensor.
K. Sapsford (2006)
Techniques for Detection, Quantification and Control of Mycotoxins in Dairy Products
O. Donkor (2016)
Recent Biosensors Technologies for Detection of Mycotoxin in Food Products
Kobun Rovina (2019)
Sequential injection analysis.
C. Lenehan (2002)
Indirect determination of aflatoxin B1 in beer via a multi-commuted optical sensor
L. Molina-García (2012)
A development of a molecularly imprinted polymer: Specific for ochratoxin A: Theoretical and sensor applications
N. Turner (2004)
A combinatorial approach to obtain affinity media with binding properties towards the aflatoxins
Cinzia Tozzi (2003)
Emerging Technologies for Mycotoxin Detection
C. Maragos (2004)
Abiotic Fluorescent Receptors for Detection of Pb2+ in Aqueous Media as well as Living Cells: Mechanistic and Sensing Aspects
Masood Ayoub Kaloo (2017)
Aflatoxins: Detection, toxicity, and biosynthesis
Jin Hanwan Do (2007)
Analytical methods for determination of mycotoxins: a review.
N. Turner (2009)
Development of antibody-based microarray assay for quantitative detection of aflatoxin B1
A. Beizaei (2014)See more