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A Nanotechnology-Based Approach to Biosensor Application in Current Diabetes Management Practices

Journal

NANOMATERIALS
Volume 13, Issue 5, Pages -

Publisher

MDPI
DOI: 10.3390/nano13050867

Keywords

biosensors; glucose biosensor; nanomaterials; nanotechnology; diabetes management

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Diabetes mellitus is a serious condition that can lead to various health problems. Early detection is crucial, and biosensors have proven to be effective in diagnosing and monitoring diabetes. The incorporation of nanotechnology has further enhanced the performance and sensitivity of these biosensors, allowing for disease detection and therapy tracking. This article focuses on the applications of biosensors in diabetes management, including glucose sensors and printed biosensors. It also discusses the advances and challenges of nanotechnology-based biosensors for medical use.
Diabetes mellitus is linked to both short-term and long-term health problems. Therefore, its detection at a very basic stage is of utmost importance. Research institutes and medical organizations are increasingly using cost-effective biosensors to monitor human biological processes and provide precise health diagnoses. Biosensors aid in accurate diabetes diagnosis and monitoring for efficient treatment and management. Recent attention to nanotechnology in the fast-evolving area of biosensing has facilitated the advancement of new sensors and sensing processes and improved the performance and sensitivity of current biosensors. Nanotechnology biosensors detect disease and track therapy response. Clinically efficient biosensors are user-friendly, efficient, cheap, and scalable in nanomaterial-based production processes and thus can transform diabetes outcomes. This article is more focused on biosensors and their substantial medical applications. The highlights of the article consist of the different types of biosensing units, the role of biosensors in diabetes, the evolution of glucose sensors, and printed biosensors and biosensing systems. Later on, we were engrossed in the glucose sensors based on biofluids, employing minimally invasive, invasive, and noninvasive technologies to find out the impact of nanotechnology on the biosensors to produce a novel device as a nano-biosensor. In this approach, this article documents major advances in nanotechnology-based biosensors for medical applications, as well as the hurdles they must overcome in clinical practice.

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