# Electrospun PVP/HPBCD nanofiber topical drug delivery platform for enhanced skin permeability and anti-pollution bioactivity of Artocarpus altilis extract

**Authors:** Chun-Yin Yang, Chih-Hua Tseng, Feng-Lin Yen

PMC · DOI: 10.1080/10717544.2025.2610654 · Drug Delivery · 2026-01-06

## TL;DR

Researchers created a nanofiber delivery system to improve the skin absorption and effectiveness of a plant extract against pollution-related skin damage.

## Contribution

A novel electrospun nanofiber system combining PVP, HPBCD, and Artocarpus altilis extract is developed to enhance topical drug delivery and anti-pollution efficacy.

## Key findings

- The nanofiber system improved AAM solubility and skin permeability through increased surface area and hydrogen bonding.
- In vitro tests showed enhanced antioxidant activity and anti-pollution efficacy in HaCaT keratinocytes compared to raw extract.
- The platform offers a biodegradable and sustainable solution for plant-derived topical formulations.

## Abstract

Artocarpus altilis methanolic extract (AAM) exhibits potent protective effects against particulate matter (PM)-induced skin damage; however, its poor aqueous solubility and limited skin permeability restrict its topical bioavailability. To overcome these limitations, we developed a polymer-based drug delivery system by fabricating electrospun nanofibers composed of polyvinylpyrrolidone (PVP), hydroxypropyl-β-cyclodextrin (HPBCD), and AAM. The optimized formulation engineering strategy enhanced AAM solubility via increased surface area, reduced crystallinity, and hydrogen bonding interactions with HPBCD/PVP. The nanofiber matrix also provided an occlusive effect, improving skin hydration and facilitating transdermal diffusion through the stratum corneum. In vitro studies demonstrated improved cellular uptake, greater permeability, and enhanced antioxidant activity, leading to superior anti-pollution efficacy compared to raw AAM in a PM-induced HaCaT keratinocyte model. These results highlight AAM-loaded electrospun nanofibers (ANFs) as a biodegradable, and environmentally sustainable platform for delivering plant-derived bioactive ingredient, offering high potential for advanced topical formulations targeting pollution-induced skin aging.

## Linked entities

- **Chemicals:** polyvinylpyrrolidone (PubChem CID 6917)

## Full-text entities

- **Diseases:** skin damage (MESH:D012871)
- **Chemicals:** HPBCD (MESH:D000073738), polymer (MESH:D011108), AAM (-), PVP (MESH:D011205), hydrogen (MESH:D006859)

## Full text

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## Figures

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## References

35 references — full list in the complete paper: https://tomesphere.com/paper/PMC12781955/full.md

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Source: https://tomesphere.com/paper/PMC12781955