PEER-REVIEWED PUBLICATION

2023

Design, Preparation, and Physicochemical Characterisation of Alginate-Based Honey-Loaded Topical Formulations

A tensile test divider icon

Hossain ML, Lim LY, et al.

Pharmaceutics

University of Western Australia, Cooperative Research Centre for Honey Bee Products Limited

RESEARCH SUMMARY
This study developed alginate-based topical formulations with high honey loading (70% w/v) in three formats—pre-gel solutions, calcium-crosslinked “wet” hydrogel sheets, and freeze-dried “dry” sheets—using several Western Australian honeys and a New Zealand Manuka comparator. The formulations were physicochemically characterized (pH, moisture, color, spreadability/viscosity), assessed for mechanical handling strength (sheet tensile strength), swelling behavior (dry sheets), and chemical integrity of selected non-sugar honey constituents (HPTLC), with additional quantification of methylglyoxal (MGO) for Manuka honeys. A 6-month stability study (5/30/40 °C) showed largely stable physical properties and retention of monitored honey constituents, with temperature-dependent changes noted for some markers (e.g., modest MGO decreases at higher temperatures and HMF formation at 30–40 °C).
CellScale hexagons, without text

CELLSCALE INSTRUMENT USED

UniVert

Tensile strength testing of honey-loaded alginate wet sheets and dry sheets was performed using a CellScale UniVert tensile tester (200 N load cell). Rectangular specimens (40 mm × 5 mm) were cut from each sheet, and the force at failure was recorded to quantify tensile strength and compare mechanical robustness across sheet types and honey formulations.
AUTHORS

Md Lokman Hossain; Lee Yong Lim; Katherine Hammer; Dhanushka Hettiarachchi; Cornelia Locher.

PUBLICATION DETAILS
JOURNAL

Pharmaceutics

YEAR

2023

INSTITUTIONS

University of Western Australia, Cooperative Research Centre for Honey Bee Products Limited

COUNTRIES

Australia

INSTRUMENT USED

UniVert

TESTING METHODS

Tensile Testing

RESEARCH APPLICATIONS

Hydrogel Mechanical TestingSkin and Wound Healing Biomechanics

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