Table 1.
Application of electrostatic spinning technology in skin diseases.
| Types of Electrostatic Spinning Technology | Carbohydrate Types | Superiority | Treatment of Dermatosis Category | References |
|---|---|---|---|---|
| Coaxial electrostatic spinning | Specific protein polymer | Has higher cell proliferation efficiency; can change the surface characteristics; multi-system solution spinning; can easily manufacture nanofibers; easy to operate; excellent material handling ability; | Skin burning | [34] |
| Side-by-side electrostatic spinning |
Synthetic polymer | The two solutions can be blended, and the release effect in vitro is remarkable; productivity can be improved. | Diabetic wound | [35] |
| Triaxial electrostatic spinning | Synthetic polymer | Able to build complex drug control system; promote the dissolution and penetration of drugs with poor water solubility in the model. | Diabetic ulcer | [36] |
| Emulsion electrostatic spinning | polysaccharide | Easy to process and control; suitable for delivering hydrophobic and hydrophilic drugs. | Skin wound | [37] |
| Multi-nozzle electrostatic spinning | polysaccharide | Manufactures large nanofibers to increase yield and coverage. | Skin wound | [38] |
| Portable electrostatic spinning | Synthetic polymer | Flexible use; in situ spinning; higher voltage; accuracy of voltage and flow; safe use; precise deposition | Skin burning | [39] |
| Near-field electrostatic spinning | Synthetic polymer | Combining biological 3D printing with traditional disordered electrospinning technology, highly ordered ultrafine fibers can be prepared. | Diabetic wound | [40] |