WJPPS Citation

  All Since 2020
 Citation  6651  4087
 h-index  26  21
 i10-index  174  83

Login

Search

News & Updation

  • Journal web site support Internet Explorer, Google Chrome, Mozilla Firefox, Opera, Saffari for easy download of article without any trouble.
    •  
  • Updated Version
    • WJPPS introducing updated version of OSTS (online submission and tracking system), which have dedicated control panel for both author and reviewer. Using this control panel author can submit manuscript
  • Call for Paper
      • WJPPS  Invited to submit your valuable manuscripts for Coming Issue.
  • ICV

    • WJPPS Rank with Index Copernicus Value 84.65 due to high reputation at International Level

  • Scope Indexed

    • WJPPS is indexed in Scope Database based on the recommendation of the Content Selection Committee (CSC).

  • WJPPS: New Impact Factor 2026

    • WJPPS Impact Factor has been Increased to 8.485 for Year 2026.

  • WJPPS: MARCH ISSUE PUBLISHED

    • MARCH 2026 Issue has been successfully launched on 1 MARCH 2026.

Abstract

A REVIEW ON MICRONEEDLE-BASED TRANSDERMAL DRUG AND VACCINE DELIVERY: DESIGN, FABRICATION, AND EMERGING APPLICATIONS

Beetha Rohini S.*, Kayalvizhi R. S., Lavanya P., Maria Sneha N., Monica Delphin A., Dr. Ganesan V.

ABSTRACT

Transdermal drug delivery systems (TDDS) have emerged as an effective alternative to conventional drug administration routes due to their ability to bypass gastrointestinal degradation and hepatic first-pass metabolism while improving patient compliance. However, the outermost layer of the skin, the stratum corneum, acts as a major barrier limiting the delivery of many therapeutic agents, particularly macromolecules such as proteins, peptides, and vaccines. Microneedle technology has been developed as an innovative approach to overcome this limitation by creating microscopic channels in the skin that allow efficient drug transport with minimal pain and tissue damage. Microneedles are micron-sized needle arrays capable of penetrating the stratum corneum without reaching deeper nerve endings, enabling painless and minimally invasive drug administration. Various types of microneedles have been developed, including solid, hollow, coated, dissolving, and hydrogel-forming microneedles, each designed for specific drug delivery strategies. Among these, dissolving polymer microneedle patches have gained significant attention due to their ability to encapsulate drugs or vaccines and dissolve completely within the skin, eliminating biohazardous sharps waste. This review discusses the design, fabrication methods, and material composition of microneedles, along with their applications in transdermal drug and vaccine delivery. Special emphasis is given to dissolving polymer microneedle patches for influenza and COVID-19 vaccination, highlighting their ability to induce strong immune responses by targeting antigen-presenting cells in the skin. In addition, the advantages, limitations, and future prospects of microneedle-based delivery systems are addressed. Overall, microneedle technology represents a promising platform for safe, efficient, and patient-friendly transdermal therapeutic delivery.

Keywords: Microneedles; Transdermal drug delivery; Dissolving microneedle patches; Vaccine delivery; Polymer microneedles.


[Download Article]     [Download Certifiate]

Call for Paper

World Journal of Pharmacy and Pharmaceutical Sciences (WJPPS)
Read More

Online Submission

World Journal of Pharmacy and Pharmaceutical Sciences (WJPPS)
Read More

Email & SMS Alert

World Journal of Pharmacy and Pharmaceutical Sciences (WJPPS)
Read More

Downloads

Author Instruction

Covering Letter

Copyright Form