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Unravelling the role of microneedles in drug delivery: Principle, perspectives, and practices. | LitMetric

AI Article Synopsis

  • The research on microneedles (MNs) has gained traction due to their ability to deliver drugs deeper into the skin with minimal invasion and to provide alternatives for substances that degrade in the gastrointestinal tract.
  • There are several types of MNs, including solid, hollow, coated, hydrogel-forming, and dissolving, each having unique applications and fabrication materials.
  • The review discusses the properties and case studies of MNs, their role in delivering therapeutics and monitoring biomarkers, as well as the challenges associated with their clinical use and future potential.

Article Abstract

In recent year, the research of transdermal drug delivery systems has got substantial attention towards the development of microneedles (MNs). This shift has occurred due to multifaceted advantages of MNs as they can be utilized to deliver the drug deeper to the skin with minimal invasion, offer successful delivery of drugs and biomolecules that are susceptible to degradation in gastrointestinal tract (GIT), act as biosensors, and help in monitoring the level of biomarkers in the body. These can be fabricated into different types based on their applications as well as material for fabrication. Some of their types include solid MNs, hollow MNs, coated MNs, hydrogel forming MNs, and dissolving MNs. These MNs deliver the therapeutics via microchannels deeper into the skin. The coated and hollow MNs have been found successful. However, they suffer from poor drug loading and blocking of pores. In contrast, dissolving MNs offer high drug loading. These MNs have also been utilized to deliver vaccines and biologicals. They have also been used in cosmetics. The current review covers the different types of MNs, materials used in their fabrication, properties of MNs, and various case studies related to their role in delivering therapeutics, monitoring level of biomarkers/hormones in body such as insulin. Various patents and clinical trials related to MNs are also covered. Covered are the major bottlenecks associated with their clinical translation and potential future perspectives.

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Source
http://dx.doi.org/10.1007/s13346-023-01475-9DOI Listing

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