Advancement in Salmonella Detection Methods: From Conventional to Electrochemical-Based Sensing Detection

Awang, Mohd Syafiq; Bustami, Yazmin; Hamzah, Hairul Hisham; Zambry, Nor Syafirah; Najib, Mohamad Ahmad; Khalid, Muhammad Fazli; Ismail, Asma; Manaf, Asrulnizam Abd

doi:10.3390/bios11090346

Cited by 44 publications

(43 citation statements)

References 274 publications

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“…were used, as compared with the response when the same number of Salmonella cells was used, implies that the sensor surface with immobilized mouse anti- Salmonella monoclonal antibody (MCA) is specific for binding of Salmonella cells and will not permit non-selective binding of nonspecific bacterial cells that do not possess epitopes complementary to the immobilized antibody ( Figure 12 ). The results clearly show that a specific response signal is generated in the presence of more than 30 Salmonella cells, which represents an improvement in sensitivity over existing sensors currently on the market [ 4 , 45 , 46 , 47 , 48 , 49 , 50 ]. Statistical one-way analysis of variance (ANOVA) was computed for pairs of data.…”

Section: Resultsmentioning

confidence: 84%

“…Electrochemical biosensors with three electrodes have already been shown capable of converting a chemical signal into an electrical signal [ 16 , 17 ]. In principle, secondary antibodies conjugated with enzymes bind to antigenic proteins already immobilized on the transducer in biosensors, and as a result of the interaction of the enzyme with the specific provided substrate, the chemical signal is converted into an electric signal, which can be measured using sensors [ 4 , 18 ]. In the two electrode systems described here, cadmium was used as the reference electrode, as opposed to the Ag/AgCI and Calomel electrodes used by previous workers [ 16 , 17 ].…”

Section: Discussionmentioning

confidence: 99%

“…The specificity of the immuno electrochemical biosensor in the presence of other nonspecific organisms was therefore demonstrated [ 42 , 57 , 64 , 65 ]. Multiple research projects [ 4 , 59 , 60 , 64 ] have lately focused on detecting Salmonella using standard analytical approaches such as an immunosensor. As demonstrated in this investigation, monoclonal antibodies are useful in the specific biosensor detection of Salmonella .…”

Section: Discussionmentioning

confidence: 99%

“…Salmonella is one of the major foodborne pathogens and all the species of Salmonella are known to be pathogenic, causing morbidity and mortality in both humans and animals [ 3 ]. Within the genus, Salmonella typhimurium causes gastroenteritis leading to diarrhea, abdominal cramps, vomiting, and fever, while Salmonella typhi causes typhoid fever, leading to complications including liver damage, swelling of the heart and gut and internal bleeding [ 4 ]. Early detection, diagnosis and treatment of Salmonella infections is important to control the spread of infection [ 5 ].…”

Section: Introductionmentioning

confidence: 99%

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A Novel Prototype Biosensor Array Electrode System for Detecting the Bacterial Pathogen Salmonella typhimurium

et al. 2022

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Salmonellosis caused by Salmonella sp. has long been reported all over the world. Despite the availability of various diagnostic methods, easy and effective detection systems are still required. This report describes a dialysis membrane electrode interface disc with immobilized specific antibodies to capture antigenic Salmonella cells. The interaction of a specific Salmonella antigen with a mouse anti-Salmonella monoclonal antibody complexed to rabbit anti-mouse secondary antibody conjugated with HRP and the substrate o-aminophenol resulted in a response signal output current measured using two electrode systems (cadmium reference electrode and glassy carbon working electrode) and an agilent HP34401A 6.5 digital multimeter without a potentiostat or applied potential input. A maximum response signal output current was recorded for various concentrations of Salmonella viz., 3, 30, 300, 3000, 30,000 and 30,0000 cells. The biosensor has a detection limit of three cells, which is very sensitive when compared with other detection sensors. Little non-specific response was observed using Streptococcus, Vibrio, and Pseudomonas sp. The maximum response signal output current for a dialysis membrane electrode interface disc was greater than that for gelatin, collagen, and agarose. The device and technique have a range of biological applications. This novel detection system has great potential for future development and application in surveillance for microbial pathogens.

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Section: Resultsmentioning

confidence: 84%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A Novel Prototype Biosensor Array Electrode System for Detecting the Bacterial Pathogen Salmonella typhimurium

et al. 2022

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“…Furthermore, the utilization of different nanomaterials such as carbon nanotubes (CNTs), metallic nanoparticles, silica nanoparticles, metal oxide nanoparticles and organic nanoparticles enhances the detection limit in comparison with sensors with only molecular probes, antibodies or peptides [ 15 ]. Therefore, the selection of a bio-recognition element in combination with a nanomaterial is highly essential for electrochemical sensor development that would help with the sensitive and rapid detection of analytes [ 16 ].…”

Section: Introductionmentioning

confidence: 99%

Recent Advances in Electrochemical Biosensors for the Detection of Salmonellosis: Current Prospective and Challenges

Mahari

Gandhi

2022

Biosensors

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Salmonellosis is a major cause of foodborne infections, caused by Salmonella, posing a major health risk. It possesses the ability to infiltrate the food supply chain at any point throughout the manufacturing, distribution, processing or quality control process. Salmonella infection has increased severely and requires effective and efficient methods for early monitoring and detection. Traditional methods, such as real-time polymerase chain reaction and culture plate, consume a lot of time and are labor-intensive. Therefore, new quick detection methods for on-field applications are urgently needed. Biosensors provide consumer-friendly approaches for quick on-field diagnoses. In the last few years, there has been a surge in research into the creation of reliable and advanced electrochemical sensors for the detection of Salmonella strains in food samples. Electrochemical sensors provide extensive accuracy and reproducible results. Herein, we present a comprehensive overview of electrochemical sensors for the detection of Salmonella by focusing on various mechanisms of electrochemical transducer. Further, we explain new-generation biosensors (microfluidics, CRISPR- and IOT-based) for point-of care applications. This review also highlights the limitations of developing biosensors in Salmonella detection and future possibilities.

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Aptamers: A prospective tool for infectious diseases diagnosis

Chen

Zhou

Peng

et al. 2022

Clinical Laboratory Analysis

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It is well known that people's health is seriously threatened by various pathogens (such as Mycobacterium tuberculosis, Treponema pallidum, Novel coronavirus, HIV, Mucor, etc.), which leads to heavy socioeconomic burdens. Therefore, early and accurate pathogen diagnosis is essential for timely and effective therapies. Up to now, diagnosing human contagious diseases at molecule and nano levels is remarkably difficult owing to insufficient valid probes when it comes to determining the biological markers of pathogens. Aptamers are a set of high‐specificity and high‐sensitivity plastic oligonucleotides screened in vitro via the selective expansion of ligands by exponential enrichment (SELEX). With the advent of aptamer‐based technologies, their merits have aroused mounting academic interest. In recent years, as new detection and treatment tools, nucleic acid aptamers have been extensively utilized in the field of biomedicine, such as pathogen detection, new drug development, clinical diagnosis, nanotechnology, etc. However, the traditional SELEX method is cumbersome and has a long screening cycle, and it takes several months to screen out aptamers with high specificity. With the persistent development of SELEX‐based aptamer screening technologies, the application scenarios of aptamers have become more and more extensive. The present research briefly reviews the research progress of nucleic acid aptamers in the field of biomedicine, especially in the diagnosis of contagious diseases.

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Advancement in Salmonella Detection Methods: From Conventional to Electrochemical-Based Sensing Detection

Cited by 44 publications

References 274 publications

A Novel Prototype Biosensor Array Electrode System for Detecting the Bacterial Pathogen Salmonella typhimurium

A Novel Prototype Biosensor Array Electrode System for Detecting the Bacterial Pathogen Salmonella typhimurium

Recent Advances in Electrochemical Biosensors for the Detection of Salmonellosis: Current Prospective and Challenges

Aptamers: A prospective tool for infectious diseases diagnosis

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