Table 2.
Possible biomaterials to be used for the controlled release of bioactive agents in Table 3.
| Hydrogel | Synthetic/Naturally Derived | Advantages | Ref |
|---|---|---|---|
| Dextran | Naturally derived | Ubiquitous in medical applications: blood plasma substitute, drug delivery vehicle. Dextran-HEMA hydrogels degrade in a controlled manner at physiologic temperature and pH. |
[126, 127] |
| Poly (ethylene glycol) (PEG) | Synthetic | Non-cytotoxic, biodegradable. Does not interact with blood and cellular proteins. Numerous methods of polymerization. Responsive to a number of stimuli: temperature, pH, cellular milieu. |
[126, 128] |
| Alginate | Naturally derived | Fast kinetics of gel formation. Tunable porosity allows for controlled drug release. |
[126, 127] |
| Chitosan | Naturally derived | Has natural wound healing properties. Used in wound dressings. Easily complexes with other chemicals (ie: alginate, gellan). |
[127] |
| Gelatin | Naturally derived | Extensively used in pharmaceutical and medical applications. Electrical properties of gelatin matrix may be altered by collagen extraction method. |
[129] |
| Hyaluronic Acid | Naturally derived | Well established in drug delivery. Negative charge allows for complexing with cationic compounds. Biocompatible; major component of extracellular matrix. |
[126, 130] |
| Poly(acrylic acid) | Synthetic | Used for controlled release of insulin, lysozyme, albumin and fibrinogen. Has tunable porous and mucoadhesive properties. |
[126] |