Natural Biopolymers for Biomedical Applications

This article presents a comprehensive overview of naturally-derived biopolymers relevant to the biomedical field. Their definition, classification, sources and key requirements for biomedical application are given and their main advantages and disadvantages are highlighted and discussed. A brief description of the structures and the important properties of two principal classes of natural biopolymers, namely, polysaccharides and proteins, are presented with special emphasis on their biomedical applications in wound management products, drug delivery systems, and tissue engineering scaffolds. The section on polysaccharide presents a review of the important characteristics and areas of application of selected members of glucan family, seaweed-derived polysaccharides and glycosaminoglycans of nonmammalian and mammalian origin, with special emphasis on chitosan, a unique positively charged nonmammalian glycan. In the section on protein, the properties and biomedical usage of several important structural proteins are reviewed, and there is a focus on collagen, which is widely used component in tissue engineered devices and other biomedical materials. Further details of the origin, type, and structural diversity of collagen are provided and results around the development of different collagen-based tissue engineering platforms are presented. The article concludes by considering future challenges and directions in this rapidly expanding field.

[1]  M. V. Van Dyke,et al.  A Review of Keratin-Based Biomaterials for Biomedical Applications , 2010, Materials.

[2]  Federica Chiellini,et al.  Chitosan—A versatile semi-synthetic polymer in biomedical applications , 2011 .

[3]  D. Klemm,et al.  Cellulose: fascinating biopolymer and sustainable raw material. , 2005, Angewandte Chemie.

[4]  Yitao Wang,et al.  Review for carrageenan-based pharmaceutical biomaterials: favourable physical features versus adverse biological effects. , 2015, Carbohydrate polymers.

[5]  J C M van Hest,et al.  Elastin as a biomaterial for tissue engineering. , 2007, Biomaterials.

[6]  Yugyung Lee,et al.  Biomedical applications of collagen. , 2001, International journal of pharmaceutics.

[7]  K. Kiick,et al.  Heparin-functionalized polymeric biomaterials in tissue engineering and drug delivery applications. , 2014, Acta biomaterialia.

[8]  Jennifer E Gagner,et al.  Designing protein-based biomaterials for medical applications. , 2014, Acta biomaterialia.

[9]  Tsung-Lin Yang Chitin-based Materials in Tissue Engineering: Applications in Soft Tissue and Epithelial Organ , 2011, International journal of molecular sciences.

[10]  Yangchao Luo,et al.  Recent development of chitosan-based polyelectrolyte complexes with natural polysaccharides for drug delivery. , 2014, International journal of biological macromolecules.

[11]  Yuan Cheng,et al.  Structures, mechanical properties and applications of silk fibroin materials , 2015 .

[12]  Robert Stern,et al.  Hyaluronic acid: a natural biopolymer with a broad range of biomedical and industrial applications , 2006, Biotechnology Letters.

[13]  S. Ricard-Blum The collagen family. , 2011, Cold Spring Harbor perspectives in biology.

[14]  Aaron D Baldwin,et al.  Polysaccharide‐modified synthetic polymeric biomaterials , 2010, Biopolymers.

[15]  Wei Liu,et al.  Collagen Tissue Engineering: Development of Novel Biomaterials and Applications , 2008, Pediatric Research.

[16]  L. E. Umoru,et al.  Natural Products: A Minefield of Biomaterials , 2012 .

[17]  R. Cameron,et al.  Control of crosslinking for tailoring collagen-based scaffolds stability and mechanics , 2015, Acta biomaterialia.

[18]  D. Mooney,et al.  Alginate: properties and biomedical applications. , 2012, Progress in polymer science.