# Structural and Functional Enhancement of Halal Gelatin Capsules Reinforced with Corn Husk Cellulose

**Authors:** Flora Elvistia Firdaus, Aurelia Kinanti

PMC · DOI: 10.3390/polym17202803 · Polymers · 2025-10-21

## TL;DR

Corn husk cellulose strengthens halal gelatin capsules, making them more durable and sustainable for pharmaceutical use.

## Contribution

Introduces corn husk cellulose as a sustainable, plant-based reinforcement for halal gelatin capsules.

## Key findings

- CHC improves structural cohesion and resistance to temperature-humidity stress in capsules.
- Films with CHC maintain mechanical performance and appearance under ICH storage conditions.
- CHC-reinforced capsules meet pharmacopeial disintegration requirements in acidic and neutral media.

## Abstract

Corn husk-derived cellulose (CHC) was incorporated into gelatin–cassava starch (CS) capsule formulations to evaluate its effectiveness as a sustainable reinforcing agent. The addition of CHC enhanced the structural cohesion of the films and improved their resistance to storage-related temperature–humidity stress, while maintaining desirable flexibility. Consistent with this, the films retained mechanical performance and appearance under ICH-aligned storage conditions, indicating better endurance during storage and processing. Disintegration performance remained within pharmacopeial requirements in both acidic and neutral media, confirming the suitability of the capsules for oral delivery applications. Surface assessment revealed more uniform morphology and fewer irregularities in the capsule matrix when CHC was present, suggesting strong compatibility among the cellulose, gelatin, and starch components. Collectively, these findings demonstrate that CHC is an effective plant-based reinforcement capable of strengthening gelatin capsules without compromising functional performance. The use of corn husk, an abundant agricultural residue, also highlights a sustainable pathway for the development of halal-compliant capsule shells and contributes to the broader advancement of eco-friendly biopolymer systems in pharmaceutical applications.

## Full-text entities

- **Diseases:** ICH (MESH:D002543)
- **Chemicals:** CS (-), starch (MESH:D013213)

## Full text

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## Figures

11 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12567270/full.md

## References

16 references — full list in the complete paper: https://tomesphere.com/paper/PMC12567270/full.md

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Source: https://tomesphere.com/paper/PMC12567270