Many researchers are interested in wound healing in the t reatment of burns, prevention of post surgical adhesions and cosmetic s urgery by excess collagen production and scar formatlOn Synthetic epidermal substi tutes with cultured epi thelial cells seem to be an attractive strategy since keratinocytes have been demonstrated to modulate fibroblast growth and collagen synthesis. Bioa bsorbable and biocompatible chitosan structurally mimics hyaluronic acid. Recently, a bio compatible synthesi zecl ch itosa n-PVP(polyvinyl pyrrolidone) hydrogels demonstrated in vitro biocompat ibi li ty for bio medical applications . However. there is no re port on this hydrogeJ"s ability to modulate human gingival fibroblast growth. The purpose of this study were to investigate different growth modulation between human gingival fibroblast and normal human oral keratinocyte by chitosan- PVP hydrogel, and to apply this biocompatible synthetic polymer to oral and maxillofacial wound healing. We have synthesized a hydrogel from chitosan-PVP and examined its effect on human gingival fibroblast growth modulation in vitro. Non-toxic and biocompatible hydrogel with human gingival fi broblasts and epithelial cells was tested by MTT assay. HGF showed a higher growth proliferation than that of NHOK after cell seeding. In MTT assay, 30% hydrogel leach out products showed a higher cellular viability in NHOK than that of any other products. In MTT assay, 30% hyclrogel leach out products showed relatively lower cellular viability of HGF ln growth profile, NHOK showed about 7 fo lcls higher than HGF after 1 day, while about 2 fo lds higher after 5 days. And also NHOK showed above about 70% cell ular via bility from 1 to 7 days. It suggested that Chitosan-PVP hydrogel would inhibit relatively the growth of HGF and s timulate the growth of NHOK_ This phenomenon may prove to be of use in wound management 0 1' oral and maxillofacial area as epitheli al substitutes.