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The Potential of Sugarcane Waste-Derived Cellulose Fibres as Haemostatic Agents

Siobhan Malone, Ramanathan Yegappan, Amanda W. Kijas, Anna C. Gemmell, Alan E. Rowan, Divya Rajah, Minjun Kim, Ján Lauko, Nasim Amiralian

2024Polymers8 citationsDOIOpen Access PDF

Abstract

Haemorrhage control during surgery and following traumatic injury remains a critical, life-saving challenge. Cellulose products are already employed in commercially available haemostatic dressings. This work explores sourcing cellulose from sugarcane trash pulp to produce micro- and nanosized fibres with hydroxyl, carboxylic acid, and trimethylamine functional groups, resulting in either positive or negative surface charges. This paper assesses the influence of these fibres on multiple blood clotting parameters in both dispersed solutions and dry gauze applications. In vitro blood clotting studies demonstrated the significant haemostatic potential of cellulose fibres derived from sugarcane waste to initiate clotting. Plasma absorbance assays showed that the 0.25 mg/mL cellulose microfibre dispersion had the highest clotting performance. It was observed that no single property of surface charge, functionality, or fibre morphology exclusively controlled the clotting initiation measured. Instead, a combination of these factors affected clot formation, with negatively charged cellulose microfibres comprising hydroxyl surface groups providing the most promising result, accelerating the coagulation cascade mechanism by 67% compared to the endogenous activity. This difference in clot initiation shows the potential for the non-wood agricultural waste source of cellulose in haemostatic wound healing applications, contributing to the broader understanding of cellulose-based materials' versatility and their applications in biomedicine.

Topics & Concepts

CelluloseCellulose fiberSurface modificationChemistryLigninPulp (tooth)Materials sciencePulp and paper industryChemical engineeringBiomedical engineeringBiochemistryOrganic chemistryMedicineDentistryPhysical chemistryEngineeringHemostasis and retained surgical itemsWound Healing and TreatmentsAdvanced Cellulose Research Studies
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