Tooth loss due to periodontal disease, dental caries and trauma affect humans and animals adversely at some time in their lives. A biologically regenerated tooth could replace a lost tooth and the new substituted tooth would provide a vital alternative to currently available clinical treatments. For this purpose, we used a tissue engineering approach to research tooth regeneration. Using surgical operation to remove a molar tooth from a 1.5 month-old miniature pig, before eruption, and then minced dental bud tissues into < 1 mm3 pieces to culture in medium at 37℃ with 5 ％ CO2 . The dental bud cells (DBCs) were isolated, re-suspended, and then the cell suspension was injected into Gelatin/chondoitin-6-sulfate /hyaluronan tri-copolymer scaffold (GCHT scaffold). The DBCs/GCHT scaffold was cultured in a spinner flask bioreactor for 1 week. The DBCs/GCHT scaffold structures were implanted into the pig's original alveolus. In addition, a small piece of DBCs/GCHT scaffold sample was individually fixed with 10 ％ neutral formalin and 2.5 ％ glutaraldehyde. The results showed DBCs growing and attaching on GCHT scaffold, and even secreted extracellular matrix. In experimental groups: 6 pigs were implanted with DBCs/GCHT scaffold into the original alveolus. After 36 weeks, regenerated teeth could be found in 3 pigs by X-ray examination, especially a recognizable 1×0.5 ㎝2 and 0.5×0.5 ㎝2 size tooth formed in 2 different swine mandibular alveolus, and in other swine can see a 1 cm diameter radio-opaque region, the other 3 pigs had no notable results. Which 2 pigs showed tooth regeneration containing dentin/pulp-like complex tooth structures which appeared by H&E staining. We also detected bone sialoprotein (BSP) expressed in dental pulp, odontoblast and dentin by immunohistochemical (IHC) methods. A 1 cm radio-opaque region in a pig stained by H&E staining only presented bone tissue. Above all, we demonstrate the self-renewal capability, multi-lineage differentiation capacity, and clonogenic efficiency of DBCs. In control groups: 3 pigs molar tooth was removed but no implanted DBCs/ GCHT scaffold and 3 pigs receival merely implanted GCHT scaffold. After 36 weeks, no regenerated tooth was found in the original site. Our results demonstrated regeneration of tooth tissue structures could be achieved by applying tissue engineering techniques and suggested that dental stem cells may appear in dental pulp tissues.