The overview and perspectives of biosensors and Mycobacterium tuberculosis: A systematic review

doi:10.1002/jcp.30007

. 2021 Mar;236(3):1730-1750.

doi: 10.1002/jcp.30007. Epub 2020 Sep 15.

The overview and perspectives of biosensors and Mycobacterium tuberculosis: A systematic review

Kobra Salimiyan Rizi¹, Ehsan Aryan¹, Zahra Meshkat¹, Golnaz Ranjbar², Mojtaba Sankian³, Kiarash Ghazvini¹, Hadi Farsiani¹, Hamid R Pourianfar⁴, Majid Rezayi^{5

6}

Affiliations

¹ Department of Medical Bacteriology and Virology, School of Medicine, Antimicrobial Resistance Research Center, Qaem University Hospital, Mashhad University of Medical Sciences, Mashhad, Iran.
² Department of Nutrition, Faculty of Medicine, Mashhad University of Medical Sciences, Mashhad, Iran.
³ Division of Immunobiochemistry, Immunology Research Centre, Bu-Ali Research Institute, Mashhad University of Medical Sciences, Mashhad, Iran.
⁴ Research Department of Industrial Fungi Biotechnology, Research Institute for Industrial Biotechnology, Academic Centre for Education, Culture and Research [ACECR]-Khorasan Razavi Province Branch, Mashhad, Iran.
⁵ Medical Toxicology Research Center, Mashhad University of Medical Sciences, Mashhad, Iran.
⁶ Department of Medical Biotechnology and Nanotechnology, School of Medicine, Mashhad University of Medical Sciences, Mashhad, Iran.

PMID: 32930412
DOI: 10.1002/jcp.30007

The overview and perspectives of biosensors and Mycobacterium tuberculosis: A systematic review

Kobra Salimiyan Rizi et al. J Cell Physiol. 2021 Mar.

. 2021 Mar;236(3):1730-1750.

doi: 10.1002/jcp.30007. Epub 2020 Sep 15.

Authors

Kobra Salimiyan Rizi¹, Ehsan Aryan¹, Zahra Meshkat¹, Golnaz Ranjbar², Mojtaba Sankian³, Kiarash Ghazvini¹, Hadi Farsiani¹, Hamid R Pourianfar⁴, Majid Rezayi^{5

6}

Affiliations

¹ Department of Medical Bacteriology and Virology, School of Medicine, Antimicrobial Resistance Research Center, Qaem University Hospital, Mashhad University of Medical Sciences, Mashhad, Iran.
² Department of Nutrition, Faculty of Medicine, Mashhad University of Medical Sciences, Mashhad, Iran.
³ Division of Immunobiochemistry, Immunology Research Centre, Bu-Ali Research Institute, Mashhad University of Medical Sciences, Mashhad, Iran.
⁴ Research Department of Industrial Fungi Biotechnology, Research Institute for Industrial Biotechnology, Academic Centre for Education, Culture and Research [ACECR]-Khorasan Razavi Province Branch, Mashhad, Iran.
⁵ Medical Toxicology Research Center, Mashhad University of Medical Sciences, Mashhad, Iran.
⁶ Department of Medical Biotechnology and Nanotechnology, School of Medicine, Mashhad University of Medical Sciences, Mashhad, Iran.

PMID: 32930412
DOI: 10.1002/jcp.30007

Abstract

Tuberculosis (TB) is referred to as a "consumption" or phthisis, which has been a fatal human disease for thousands of years. Mycobacterium tuberculosis (M. tb) might have been responsible for the death of more humans than any other bacterial pathogens. Therefore, the rapid diagnosis of this bacterial infection plays a pivotal role in the timely and appropriate treatment of the patients, as well as the prevention of disease spread. More than 98% of TB cases are reported in developing countries, and due to the lack of well-equipped and specialized diagnostic laboratories, development of effective diagnostic methods based on biosensors is essential for this bacterium. In this review, original articles published in English were retrieved from multiple databases, such as PubMed, Scopus, Google Scholar, Science Direct, and Cochrane Library during January 2010-October 2019. In addition, the reference lists of the articles were also searched. Among 109 electronically searched citations, 42 articles met the inclusion criteria. The highest potential and wide usage of biosensors for the diagnosis of M. tb and its drug resistance belonged to DNA electrochemical biosensors (isoniazid and rifampin strains). Use of biosensors is expanding for the detection of resistant strains of anti-TB antibiotics with high sensitivity and accuracy, while the speed of these sensory methods is considered essential as well. Furthermore, the lowest limit of detection (0.9 fg/ml) from an electrochemical DNA biosensor was based on graphene-modified iron-oxide chitosan hybrid deposited on fluorine tin oxide for the MPT64 antigen target. According to the results, the most common methods used for M. tb detection include acid-fast staining, cultivation, and polymerase chain reaction (PCR). Although molecular techniques (e.g., PCR and real-time PCR) are rapid and sensitive, they require sophisticated laboratory and apparatuses, as well as skilled personnel and expertise in the commentary of the results. Biosensors are fast, valid, and cost-efficient diagnostic method, and the improvement of their quality is of paramount importance in resource-constrained settings.

Keywords: Mycobacterium tuberculosis; biosensors; detection; tuberculosis diagnosis.

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References

REFERENCES

1. Abraham, A. A., Rezayi, M., Manan, N. S., Narimani, L., Rosli, A. N. B., & Alias, Y. (2015). A novel potentiometric sensor based on 1,2-bis (N’-benzoylthioureido) benzene and reduced graphene oxide for determination of lead(II) cation in raw milk. Electrochimica Acta, 165, 221-231.
1. Ahmadzadeh, S., Rezayi, M., Faghih-Mirzaei, E., Yoosefian, M., & Kassim, A. (2015). Highly selective detection of titanium (III) in industrial waste water samples using meso-octamethylcalix [4] pyrrole-doped PVC membrane ion-selective electrode. Electrochimica Acta, 178, 580-589.
1. Ahmadzadeh, S., Rezayi, M., Kassim, A., & Aghasi, M. (2015). Cesium selective polymeric membrane sensor based on p-isopropylcalix [6] arene and its application in environmental samples. RSC Advances, 5(49), 39209-39217.
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1. Amin, I., Idrees, M., Awan, Z., Shahid, M., Afzal, S., & Hussain, A. (2011). PCR could be a method of choice for identification of both pulmonary and extra-pulmonary tuberculosis. BMC Research Notes, 4(1), 332.

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[1] Abraham, A. A., Rezayi, M., Manan, N. S., Narimani, L., Rosli, A. N. B., & Alias, Y. (2015). A novel potentiometric sensor based on 1,2-bis (N’-benzoylthioureido) benzene and reduced graphene oxide for determination of lead(II) cation in raw milk. Electrochimica Acta, 165, 221-231.

[2] Abraham, A. A., Rezayi, M., Manan, N. S., Narimani, L., Rosli, A. N. B., & Alias, Y. (2015). A novel potentiometric sensor based on 1,2-bis (N’-benzoylthioureido) benzene and reduced graphene oxide for determination of lead(II) cation in raw milk. Electrochimica Acta, 165, 221-231.

[3] Ahmadzadeh, S., Rezayi, M., Faghih-Mirzaei, E., Yoosefian, M., & Kassim, A. (2015). Highly selective detection of titanium (III) in industrial waste water samples using meso-octamethylcalix [4] pyrrole-doped PVC membrane ion-selective electrode. Electrochimica Acta, 178, 580-589.

[4] Ahmadzadeh, S., Rezayi, M., Faghih-Mirzaei, E., Yoosefian, M., & Kassim, A. (2015). Highly selective detection of titanium (III) in industrial waste water samples using meso-octamethylcalix [4] pyrrole-doped PVC membrane ion-selective electrode. Electrochimica Acta, 178, 580-589.

[5] Ahmadzadeh, S., Rezayi, M., Kassim, A., & Aghasi, M. (2015). Cesium selective polymeric membrane sensor based on p-isopropylcalix [6] arene and its application in environmental samples. RSC Advances, 5(49), 39209-39217.

[6] Ahmadzadeh, S., Rezayi, M., Kassim, A., & Aghasi, M. (2015). Cesium selective polymeric membrane sensor based on p-isopropylcalix [6] arene and its application in environmental samples. RSC Advances, 5(49), 39209-39217.

[7] Al-Zamel, F. A. (2009). Detection and diagnosis of Mycobacterium tuberculosis. Expert Review of Anti-Infective Therapy, 7(9), 1099-1108.

[8] Al-Zamel, F. A. (2009). Detection and diagnosis of Mycobacterium tuberculosis. Expert Review of Anti-Infective Therapy, 7(9), 1099-1108.

[9] Amin, I., Idrees, M., Awan, Z., Shahid, M., Afzal, S., & Hussain, A. (2011). PCR could be a method of choice for identification of both pulmonary and extra-pulmonary tuberculosis. BMC Research Notes, 4(1), 332.

[10] Amin, I., Idrees, M., Awan, Z., Shahid, M., Afzal, S., & Hussain, A. (2011). PCR could be a method of choice for identification of both pulmonary and extra-pulmonary tuberculosis. BMC Research Notes, 4(1), 332.

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The overview and perspectives of biosensors and Mycobacterium tuberculosis: A systematic review

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The overview and perspectives of biosensors and Mycobacterium tuberculosis: A systematic review

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