Disposable electrochemical platform based on solid-binding peptides and carbon nanomaterials: an alternative device for leishmaniasis detection

Neglected tropical diseases are those caused by infectious agents or parasites and are considered endemic in low-income populations. These diseases also have unacceptable indicators and low investment in research, drug production, and control. Tropical diseases such as leishmaniasis are some of the...

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Bibliographic Details
Published in:Mikrochimica acta (1966) 2023-08, Vol.190 (8), p.321-321, Article 321
Main Authors: Braz, Beatriz A., Hospinal-Santiani, Manuel, Martins, Gustavo, Beirão, Breno C. B., Bergamini, Márcio F., Marcolino-Junior, Luiz H., Soccol, Carlos R., Thomaz-Soccol, Vanete
Format: Article
Language:English
Subjects:
Affinity
Analytical Chemistry
Animals
Antibodies
Binding
Biosensing Techniques
Carbon - chemistry
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Confidence intervals
Dogs
Electric properties
Electrochemical analysis
Electrochemical reactions
Graphene
Graphite - chemistry
Health aspects
Humans
Immunoassay
Immunosensors
Leishmaniasis
Leishmaniasis - diagnosis
Leprosy
Microengineering
Mortality
Nanochemistry
Nanomaterials
Nanotechnology
Original Paper
Parasitic diseases
Peptides
Quantum dots
Recognition
Reproducibility of Results
Tropical diseases
Viral antibodies
Voltammetry
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Summary:Neglected tropical diseases are those caused by infectious agents or parasites and are considered endemic in low-income populations. These diseases also have unacceptable indicators and low investment in research, drug production, and control. Tropical diseases such as leishmaniasis are some of the main causes of morbidity and mortality around the globe. Electrochemical immunosensors are promising tools for diagnostics against these diseases. One such benefit is the possibility of assisting diagnosis in isolated regions, where laboratory infrastructure is lacking. In this work, different peptides were investigated to detect antibodies against Leishmania in human and canine serum samples. The peptides evaluated (395-KKG and 395-G) have the same recognition site but differ on their solid-binding domains, which ensure affinity to spontaneously bind to either graphene oxide (GO) or graphene quantum dots (GQD). Cyclic voltammetry and differential pulse voltammetry were employed to investigate the electrochemical behavior of each assembly step and the role of each solid-binding domain coupled to its anchoring material. The graphene affinity peptide (395-G) showed better reproducibility and selectivity when coupled to GQD. Under the optimized set of experimental conditions, negative and positive human serum samples responses were distinguished based on a cut-off value of 82.5% at a 95% confidence level. The immunosensor showed selective behavior to antibodies against Mycobacterium leprae and Mycobacterium tuberculosis , which are similar antibodies and potentially sources of false positive tests. Therefore, the use of the graphene affinity peptide as a recognition site achieved outstanding performance for the detection of Leishmania antibodies. Graphical Abstract
ISSN:0026-3672
1436-5073
DOI:10.1007/s00604-023-05891-z