ObjectiveTo study absorbed mechanism of free bone auto-graft in cranium.MethodsTwenty-four adult New Zealand rabbits were randomly divided into two groups of twelve each. Cranium graft or rib graft was implanted on each side of the cranium. The onlay graft was harvested at the 12th and 24th week, and the collagen fibers were scrutinized under scanning electron microscope. ResultsThe number of the bone collagen fibrils at twenty- fourth week was more than that of the twelfth week, the arrangement of collagen fibrils at the twenty- fourth week was more regular than that of the twelfth week, and the collagen fibrils of the cranium graft were more numberous and regular than those of the rib graft observed at the twelfth week, but they were similar at twenty - fourth week. ConclusionRemoding time of cranium graft is shorter than that of rib graft, but bone remoding of both cranium and rib has finished in 24th week after operated.

Objective To observe the effects of transplantation of autologous adipose-derived stem cells (ASCs) on osteoporosis (OP) in a rabbit ovariectomy (OVX) model.Methods A total of fifteen 6-month-old female New Zealand white rabbits were randomly divided into two groups:ovariectomy group (group A,n =12) and sham operation group (group B,n =3).All rabbits were subjected to bilateral ovariectomy in the group A.Six months later,bone mineral density (BMD) of group A and group B were measured by dual energy X-ray absorptiometry (DXA) to check the result of OVX-OP.ASCs harvested from adipose of OP rabbits were cultured to be expanded and differentiated in osteogenic medium in vitro.Osteogenesis was evaluated by alizarin red staining,alkaline phosphatase (ALP) staining and quantitative assays of osteocalcin (OCN).Autologous osteo-induced ASCs were mixed in calcium alginate hydrogel (CAH) and then transplanted in the left distal femurs,while CAH was transplanted in the right distal femurs of OP rabbits.At 12 weeks after implantation,BMD,micro-CT and histomorphological analyses were performed on these rabbits.Results The BMD of femurs in group A rabbits were obviously lower than that of group B rabbits (P ＜ 0.05) at 6 months after OVX.Compared with control group,ASCs cultured in osteo-induction medium had similar proliferation rate as the non-induced cells,but displayed positive ALP and alizarin red staining and OCN contents.At 12 weeks after implantation,the cell-treated femurs displayed higher BMD,bone trabecula number,trabecula thickness and separation than those of control group,while the structure model index and porosity were lower (P ＜ 0.05).Histological examination indicated that the trabecular thickness increased with complete CAH resorption in cell-treated group,while CAH remained in control group.Conclusions Transplantation of autologous ASCs can help strengthen osteoporotic bone in OVX-OP rabbits,providing a novel approach to OP treatment.

This study is to establish an artificial neural network (ANN) for predicting blood tacrolimus concentration in liver transplantation recipients. Tacrolimus concentration samples (176 samples) from 37 Chinese liver transplantation recipients were collected. ANN established after network parameters were optimized by using momentum method combined with genetic algorithm. Furthermore, the performance of ANN was compared with that of multiple linear regression (MLR). When using accumulated dose of 4 days before therapeutic drug monitoring (TDM) of tacrolimus concentration as input factor, mean prediction error and mean absolute prediction error of ANN were 0.02 +/- 2.40 ng x mL(-1) and 1.93 +/- 1.37 ng x mL(-1), respectively. The absolute prediction error of 84.6% of testing data sets was less than 3.0 ng x mL(-1). Accuracy and precision of ANN are superior to those of MLR. The correlation, accuracy and precision of ANN are good enough to predict blood tacrolimus concentration.
Adult ; Aged ; Drug Monitoring ; methods ; Female ; Humans ; Immunosuppressive Agents ; blood ; Linear Models ; Liver Transplantation ; Male ; Middle Aged ; Neural Networks (Computer) ; Tacrolimus ; blood

Objective: To establish the isolation and culture methods of skeletal muscle stem cells, derived from human orbicularis oculi muscle (OOMSCs), and to identify their multi-directional differentiation potential in vitro. Methods: The cellswere isolated from pretarsal orbicularis oculi muscle (OOM), obtained in routine blepharoplasty surgery.The tissue was digested using collagenase type I combined with re-plating methods. Specific cell surface antigen markers were detected using flow cytometry analysis. OOMSCs were cultured under different inductive conditions, to identify their pluripotent differentiation ability. Results: OOMSCs exhibited similar fibroblast-like morphology as mesenchymal stem cells with high expression of skeletal muscle-derived stem cell surface markers. OOMSCs were able to differentiate into adipocytes, osteoblasts and chondrocytes in vitro, in the presence of lineage-specific inductive media. Moreover, after myogenic induction, the differentiated cells were fused into multinucleated myotube-like structure, and positive for myogenic-related marks, Pax3, Pax7, Myf5 and MyoD. Conclusions Muscle-derived stem cells can be isolated from human OOM with myogenic differentiation properties, showing further applications potential intissue regeneration and medical therapies of muscle diseases.