Methods of extraction, physicochemical properties of alginates and their applications in biomedical field – a review

• Main Authors: Beata Łabowska Magdalena, Michalak Izabela, Detyna Jerzy
• Format: Article
• Language: English
• Published: De Gruyter 2019-10-01
• Series: Open Chemistry
• Subjects: brown seaweeds; alginates; biopolymers; extraction; physicochemical properties; analytical techniques; applications; wound dressings; healing wounds; chronic wounds; hydrogels
• Online Access: https://doi.org/10.1515/chem-2019-0077

In this paper, the current state-of-art of extraction of alginates and the determination of their physico-chemical properties as well as their overall applications focussing on biomedical purposes has been presented. The quality and quantity of the alginate obtained with a variable yield prepared from brown seaweeds as a result of many factors, such as type of algae, extraction methods, chemical modification and others. Alginates are mainly extracted by using conventional alkaline extraction. However, novel extraction techniques such as microwave and ultrasound assisted extractions have gained a lot of interest. The extraction parameters (e.g., temperature and time of extraction) have critical impact on the alginate physiochemical and mechanical properties and thus, their potential applications. By controlling a chemical process makes it possible get various forms of alginates, such as fibres, films, hydrogels or foams. It is important to characterise the obtained alginates in order to their proper applications. This article presents several techniques used for the analysis of alginate properties. These natural polysaccharides are widely used in the commercial production, as a food ingredient, in the pharmaceutical industry due to their antibacterial, anticancer and probiotic properties. Their gelling characteristic and absorbable properties enable using alginates as a wound management material. Moreover, they are also biocompatible, non-toxic and biodegradable, therefore adequate in other biomedical applications.