Icariin contributes to healing skull defects in rabbit model.

OBJECTIVE: To investigate the efficacy of icariin for healing skull defects in rabbit models. METHODS: Thirty-six 3-month-old female New Zealand white rabbits, weighing 1.8-2.0 kg each, were randomly divided into either the control or experimental group. Skull defect models were constructed in both groups, with the experimental group receiving oral icariin afterwards. At 4, 8 and 12 postoperative weeks, the rabbits were euthanized, and X-rays and samples were taken. Tissue sections were stained using hematoxylin and eosin, followed by additional processing using histological and bone metrological methods for observing the rate and quality of the bone formation. RESULTS: Histologically, additional mature lamellar bone formed in the defect area in the experimental group compared with that of the control group. Bone metrological methods showed that the bone mass, trabecular bone width and number of osteoblasts in the experimental group were significantly higher than those of the control group (P < 0.01). The number of osteoclasts did not significantly differ between the two groups (P > 0.05). CONCLUSION: Icariin increased the bone mass and improved the condition of the defect area in the rabbit skulls.

Morphological Observation on Critical-Sized Cranial Defect Repaired by Icariin and Autologous Concentrate Growth Factors in Rabbits.

BACKGROUND Morphological changes repaired by icariin and autologous concentrate growth factors (ACGF) in critical-sized cranial defect were observed and their promoting effects were investigated. MATERIAL AND METHODS Seventy-two New Zealand white rabbits weighing 1.8~2.0kg were used to build a critical-sized cranial defect model and were randomly divided into 3 groups. X-ray, HE staining, general and histological observation, and immunohistochemistry were used to describe the changes caused by normal saline, icariin, and ACGF. RESULTS Cranial defects were covered with newly formed bone tissue at the 12th week in icariin and ACGF groups, with red color, hard surface, and no obvious boundary. Densities were the same in 2 groups at 4 timepoints. HE staining showed defects filled with a large amount of fibrous connective tissue, thick collagen fibers, and abundant osteoclasts. No new bone matrix appeared in any of the 3 groups. Trabecular area, trabeculae width, and osteoblast number in 2 groups were more than that of the control group, and osteoclast number was lower. However, osteoclast number among the 3 groups at the 12th week had no significant difference, which was the same with 4 indicators between the icariin and ACGF groups. From the 4th to 12th week, regenerated cartilage was formed and showed positive reaction with BMP-2 and TGFß1 from primary bone, which also was demonstrated by granulation tissue and uniform dyeing. CONCLUSIONS ACGF and icariin both can increase new bone quantity and improve bone quality, which can also promote healing. The effects and mechanisms of icariin and ACGF on the expression of gene are not exactly the same.

[Effects of traditional Chinese medicine on the differentiation of mesenchymal stem cells to osteoblasts].

OBJECTIVE: To investigate the effects of traditional Chinese medicine on the differentiation of mesenchymal stem cells (MSC) to osteoblasts. METHODS: Six male Beagle dogs weighed 10-15 kg each were divided into three groups, group A: medicine serum group, group B: non-medicine serum group and group C: bovine serum group. The serum of group A was obtained from the femoral artery of 2 Beagle dogs drinking equivalent dose of traditional Chinese medicine according to body surface area for 7 continuous days. The serum of group B was collected from the femoral artery of 2 Beagle dogs fed with equal volume of normal saline for 7 days. The serum of group C was fetal bovine serum. The tibia marrow was harvested from another 2 Beagle dogs and MSC were isolated and purified by density gradient centrifugation. MSC were cultured in DMEM solution with fetal bovine serum. After MSC were digested by trypsin, MSC were cultured in DMEM solution with the osteogeneic inducer, which contained dexamethasone, antiscorbutic and beta-glycerophosphate. Morphological and histological changes of the MSC were observed under an inverted microscope. Alizarin monosulfonate and nitric acid argentum staining was performed to observe the calcium deposition. MSC were curtured in DMED solution with medicine serum (group A), non-medicine serum (group B) and bovine serum (group C) respectively. The growth curve was detected by the methyl thiazolyl tetrazolium (MTT). The alkaline phosphatase (ALP) activities were detected to observe the differentiation of MSC. RESULTS: The original MSC were observed as fibroblast-like cell shapes. After the osteogeneic inducer was added, MSC were polygon cells with a few polyprocess. Calcium deposition appeared during 10-14 days and alizarin monosulfonate and Von Kossa staining presented positive. MTT results showed that the number of adherent cells of group A was more than that of group B and that of group C significantly after 6 days (P < 0.05). ALP detection proved that ALP activity of group A was more than that of group B and that of group C significantly after 5 days (P < 0.05). CONCLUSIONS: The traditional Chinese medicine promotes the differentiation of MSC to osteoblasts and osteogenesis.