Table 2.
Details of natural polymers commonly used for growth factor and cytokine delivery
| Polymer | Class | Properties | Forms | Crosslinking Mechanisms |
|---|---|---|---|---|
| Chitosan | Polysaccharide | Polycationic polymer with antimicrobial activity but weak mechanical strength and stability | Hydrogels, films | Covalent: GA, dextran aldehyde, ionic: oxalic acid90 |
| Alginate | Polysaccharide | Negatively charged polymer, adjustable mechanical and biological properties by varying the content of two monomers | Beads, hydrogel, sponge | Physical: Calcium chloride or other divalent metal chlorides94,95 |
| Hyaluronate | Polysaccharide | Negatively charged GAG, main connective tissue ECM component, good biocompatibility and mechanical properties | Hydrogel, film | Covalent: amine-modified HA reacted with oxidized GAG to form imine bonds99 |
| Heparin | Polysaccharide | Negatively charged sulphated GAG | Hydrogel | Covalent: disulphide bond between cysteine residues101 |
| Collagen | Protein | Slightly anionic, most abundant protein in the body, provides cell-matrix and matrix–matrix interactions, good biocompatibility, low immunogenicity, poor mechanical properties | Scaffold, sponges, membranes, hydrogel | Covalent: GA, TG, three polypeptide chains that form pH and temperature dependent hydrogels103 |
| Gelatin | Protein | Anionic, denaturalized form of collagen, similar properties as collagen | Microspheres, sheets, sponge | Covalent: genipin, GA112,114 |
| Fibrin/fibrinogen | Protein | Anionic, component of tissue architecture, cell-matrix and matrix–matrix interactions, good biocompatibility | Matrix, hydrogel | Initiated by thrombin115 |
ECM, extracellular matrix; GA, glutaraldehyde; GAG, glycosaminoglycan; TG, transglutiminase.