Forty New-Zealand male rabbits, weighing 3.0kg, were randomly divided into 4 groups of 10 animals each. All rabbits received a 3mm in diameter drilled hole operation at the shaft 3cm underneath the superior fibular incisura of the proximal tibia by using 3mm in diameter round bone bur, and a 3mm long fracture operation at the shaft 2cm underneath the superior tibial incisura of the proximal fibula by using fissure bone bur on both hind limbs. The animal s were wrapt with placebo over the skin of operated area of right hind limb as the control group and with Wan-Ling Paste (WLP) over the left hind limb as the WLP group. Replacement of wrapt WLP twice a week for each animal. For experiment the animals were sacrificed at 1, 2, 3 or 4 weeks intervals after operation, respectively. The day and 13 days after hind-limb operation, all animals were received 25mg/kg of tetracycline HCI and 90mg/kg of xylenol orange, respectively. The tibia and fibula of each hind limb of the rabbit were removed whole and assayed microradiographically, contact microradiographically and histomorphometrically for fracture healing observations in callus and bone formation, bone resorption, bone cell kinetics and other elements in addition to gross appearance. No significant difference in the gross appearances of the control and WLP at l-week of treatment were observed. However, the histomorphometric structure of the WLP treated group showed more granulation tissue and less blood clot at the fracture site of the tibial cortex than the control group did. In addition, the osteoblasts and osteoclasts appeared at both fracture ends of the WLP treated group. These results indicated that WLP could cause a shortage of inflammatory stage of fracture healing. At 2-week WLP treated group, more uniting callus and bone formation were found between two fracture ends of the tibial cortex when compared to that of the control group indicating that WLP could a1so enhance the reparative stage of fracture healing under the condition. The uniting callus filled a1mostcompletely at two fracture ends of the tibial cortex in the 4-week WLP treated group. However, uniting callus was continuous forming but not connecting with the two fracture ends of the tibial cortex at the 4-week control group. The results indicated that processes of bone modeling and remodeling were proceeded better in WLP than that of the control group. At l-week, there were no significant changes observed microradiographically at the fracture site of fibula. However, at 2-,3-and 4-week of the WLP treated groups better reparative efforts were found when compared to that of the control group. Based on microradiographic, contact microradiographic and histomorphometric findings, it suggests that WLP not only increase the granulation formation, callus and bone formation but also promote the proceeding of bone modeling and remodeling. In conclusion, WLP could enhance the fracture healing.