The goal of peridontal treatment is regeneration of the periodontium. Bone graft and absorbable PWPGA membrane have been used for this purpose. In this study, 4×4mm 1-wall intrabony defects were surgically created bilaterally in the mandible of five male beagles. The control group went through a conventional flap operation, while the experimental group I was treated with absorbable PWPGA membranes only, group Ⅱ was treated with absorbable membrane and calcium phosphate. The results are the following : 1. The defect height was 4.82±0.45mm in the control group, 4.93±0.79mm in the experimental I group, and 4.92±0.62mm in the experimental Ⅱ group. There was no statistically significant difference among 3 groups(P (0.05). 2. The amount of junctional epithelium migration was 30.90±9.92% of the defect height in the control group, 39.16±7.51% in the experimental I group, and 38.68±12.22% in the experimental Ⅱ group. There was no statistically significant difference among 3 groups(P <0.0 5). 3. The amount of connective tissue adhesion was 36.38±9.03% in the control group, 14.73±3.93% in experimental I group, and 27.87±9.70% experimental Ⅱ group. Experimental group I was a statistically significantly different from control group(P (0.05). 4. The amount of new cemenhim regeneration was 32.92±10.51%, 50.04±7.61%, and 39.62±12.14% for the control, experimental I, and experimental Ⅱgroup respectively. Experimental group I was a statistically significantly different from control group(P (0.05). 5. The amount of new alveolar bone regeneration was 27.24±7.49%, 40.75±8.03%, and 36.47±15.11% for the control, experimental I, and experimental Ⅱ group respectively. Experimental group I was a statistically significantly different from control group(P <0.05). The results suggest that the use of PWPGA membrane in 1-wall intrabony defect of beagle dogs may premote periodontal regeneration. Further studies are required to determine their regeneration effects.