Carbon nanomaterial-based electrochemical sensor in biomedical application, a comprehensive study

Majumdar, Srabani; Shahazi, Razu; Saddam, Amirul Islam; Rahman, Mohammed Muzibur; Alam, Md. Mahmud; Kumer, Ajoy; Paimard, Giti

doi:10.24294/can.v7i1.4654

Charact. Appl. Nanomater.

2024

DOI: 10.24294/can.v7i1.4654

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Carbon nanomaterial-based electrochemical sensor in biomedical application, a comprehensive study

Srabani Majumdar,

Razu Shahazi,

Amirul Islam Saddam

et al.

Abstract: Recently, carbon nanocomposites have garnered a lot of curiosity because of their distinctive characteristics and extensive variety of possible possibilities. Among all of these applications, a development of sensors with electrochemical properties based on carbon nanocomposites for use in biomedicine has shown as an area with potential. These sensors are suitable for an assortment of biomedical applications, such as prescribing medications, disease diagnostics, and biomarker detection. They have many benefits… Show more

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References 93 publications

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Recent progress in Nanomaterial based biosensors for the detection of cancer biomarkers in human fluids

Shahazi,

Saddam,

Islam

et al. 2024

Nano Carbons

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Cancer is a global health challenge, and early detection is crucial for effective treatment to improve patient outcomes. In recent years, nanomaterial-based biosensors have emerged as powerful tools for the detection of cancer biomarkers in human fluids. This article highlights the recent progress in biosensor technology for the detection of cancer biomarkers, focusing on advancements in sensitivity, selectivity, multiplexed detection, liquid biopsies, point-of-care testing, wearable biosensors, and integration with artificial intelligence (AI). Recent advancements have significantly improved the sensitivity and selectivity of biosensors, allowing for the detection of low concentrations of cancer biomarkers in complex biological samples. Novel sensing technologies, such as nanomaterial-based sensors and aptamer-based sensors, have played a crucial role in enhancing biosensor performance. Multiplexed biosensors have the ability to simultaneously detect multiple cancer biomarkers, providing comprehensive diagnostic information. This capability is particularly valuable for accurate cancer diagnosis and prognosis. Liquid biopsies, which involve the detection of cancer biomarkers in circulating tumor cells, cell-free DNA, or exosomes present in body fluids, have gained considerable attention. Biosensors have played a pivotal role in the development of liquid biopsy technologies, offering non-invasive and real-time monitoring of cancer progression, treatment response, and the emergence of drug resistance. Integration of biosensors with AI algorithms has shown great potential. AI can analyze and interpret biosensor data, identifying patterns, correlations, and biomarker signatures that may be difficult to detect with traditional methods.

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Recent progress in Nanomaterial based biosensors for the detection of cancer biomarkers in human fluids

Shahazi,

Saddam,

Islam

et al. 2024

Nano Carbons

View full text Add to dashboard Cite

show abstract

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Carbon nanomaterial-based electrochemical sensor in biomedical application, a comprehensive study

Cited by 1 publication

References 93 publications

Recent progress in Nanomaterial based biosensors for the detection of cancer biomarkers in human fluids

Recent progress in Nanomaterial based biosensors for the detection of cancer biomarkers in human fluids

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