With the global prevalence of periodontitis which leads to irreversible bone loss, the regeneration of bone tissue poses a challenge to engineers and clinicians. The importance of alveolar bone cannot be overemphasized since it is one of the tooth-supporting structures. In the past few years, the research of growth factor for alveolar bone regeneration is blooming, but still remains controversial due to its instability and high cost. Instead of using growth factors, we hypothesized that cells could be recruited from extracellular matrix for bone repair by collagenase treatment without any autologous grafts. Hence, the purpose of this study is to evaluate the bone regenerative capacity after the implantation of hydroxyapatite and calcium sulfate (gypsum) with hyaluronic acid carrying collagenase in the rat model. In the study, the setting time, compressive strength, release characteristics and biocompatibility of Hyaluronic acid/Collagenase/Hydroxyapatite/Calcium sulfate were evaluated. The potential for reconstruction of destroyed alveolar bone by the implanted composite was also tested in rat model. The initial setting time of the composite was 21 minutes which is adequate for clinicians to handle. The compressive strength of composites after immersion in phosphate buffered saline solution in 7 days was 6.5MPa, and decreased after 2 weeks. The release profile shows 60 % of collagenase incorporated in the composite was released in 30 minutes that coincides with the time of collagenase digestion normally used in primary culture. The good biocompatibility of the composite was also confirmed by WST-1 test which indicates no significant difference between control group and experimental group. In animal study, the result of the composite HA/Collagenase/HAP/CS in 12-week after surgery was superior to other groups including commercial product Bio-OssR. Evidence of obvious regeneration in bone defects treated with HA/Collagenase /HAP/CS can be observed in micro-CT images histological results. Then we can conclude that it might be feasible for collagenase treatment to recruit more cells during healing process. In the future, the study can be applied to canines as an animal model for further confirmation.