posted on 2024-02-02, 21:45authored byYanan Xue, Cheng Chen, Xiangyu Mi, Rong Tan, Ji Wang, Sufan Wu, Yue Wang, Rong Xiong, Mengxiao Chen, Wei-Qiang Tan, Haojian Lu
As
a new type of transdermal drug delivery system (TDDS), microneedles
have garnered significant attention for their noninvasiveness, portability,
controllable drug administration, and wide-ranging loading capacity.
While initially designed for transdermal administration via the stratum
corneum for minimizing adverse reactions associated with systemic
administration and enhancing patient compliance, microneedles have
recently found applications in a multitude of medical contexts. Hence,
their potential in medical applications transcends mere drug delivery.
Recent reviews on microneedles have extensively covered various aspects,
including needle types, materials, and manufacturing methods, as well
as their applications in treating skin diseases. This review aims
to provide a comprehensive overview of the diverse designs and applications
of microneedles from different new perspectives, which encompass traditional
integrated microneedles as well as more intelligent and structurally
optimized ones in nowadays. Additionally, this review offers a comprehensive
analysis of the material properties utilized in microneedles for different
applications, including nondegradable materials and degradable materials.
Furthermore, the review presents the wide-ranging applications of
these microneedles in different medical scenarios such as regeneration
and repair, disease treatment, monitoring, and prevention. Moreover,
the discussion of the article highlights the future clinical applications
of microneedles and the necessary efforts required to achieve their
widespread adoption. This review serves as a valuable reference for
bridging the gap between the laboratory setting and the clinical practice
in terms of using microneedles in medical scenarios.