Intervertebral disc tissue engineering is achieved by means of establishing complete intervertebral disc tissue in vitro and then implanting it to the primary degenerative intervertebral disc,thus conducting the treatment.Nowadays the research mainly focuses on the cultivation of intervertebral disc cell,the selection of the tissue engineering scaffold,the establishment and implantation of the intervertebral disc tissue engineering and so on.Recently there are three common ways to cultivate cell.The cell cultivation under the circumstance of zero-gravity and three-dimension not only accords the human being's natural three-dimensional structure,but also could reduce the mechanical shearing force of the medium and overcome the touching re-striction caused by the gravity sedimentation.It could make cell growth better and that is a new attempt to cultivate intervertebral disc cell.There are many species of scaffold of tissue engineering,and everyone has the advantage and disadvantage.Today none of these scaffold materials are accepted as the most suitable one so that it needs more and more study in these aspects.To establish complete intervertebral disc tissue and conduct implantation have already succeed in animal experiment.It is shown that implant-ing intervertebral disc cell which is cultivated by tissue engineering to degenerative intervertebral disc could partly reverse the degeneration.

BACKGROUND: In the process of limb allograft, apoptosis of target cell is one of the main mechanisms of dysfunction of allograft, which might lead to the failure of allotransplantation. It is assumed that immunosuppressant may relate with cell apoptosis. OBJECTIVE: To investigate effects of FK506 on Bcl-2 mRNA and Bax mRNA expressions and cell apoptosis in rat limb allograft. DESIGN, TIME AND SETTING: The randomized controlled animal trial was performed at the Animal Experimental Center of First Hospital of Harbin Medical University from June 2005 to November 2006. MATERIALS: Fifty-six clean-grade healthy male SD recipient rats and 56 Wistar donor rats were selected. FK506 was product of Fujisawa, Japan (No. 100143G). METHODS: Right hind limb was separated from the upper segment of thigh of SD rat (donor), and washed using heparin saline. The recipient rates underwent limb allotransplantation from allogenetic Wistar to establish injury model. The recipients were randomly divided into two groups (n=28): immunosuppressant group was injected with FK506 1 mg/kg per day, and the control group was not given any immunosuppressant. The right hind limb including skin, subcutaneous tissues, muscles and femoral arteriolar-venular tissue mass were harvested on postoperative days 1, 3, 5, and 7. MAIN OUTCOME MEASURES: Bcl-2 Mrna and Bax mRNA expression were detected using reverse transcription polymerase chain reaction (RT-PCR), and cell apoptosis was detected using in situ terminal deoxynucleotidyl transferase mediated deoxyuridine triphosphate nick end labeling technique. RESULTS: Fifty-six model rats were included in final analysis. On the 3, 5, and 7 days after FK506 injection, Bcl-2 mRNA expression in immunosuppressant group was significantly higher than the control group (t=7.18-21.20, P

The anti-fatigue ability decline is one of the most important clinical symptoms of chronic exertional compartment syndrome (CECS). The percentage change of type-I and II skeletal-muscle fiber is an important reason for anti-fatigue ability decline after intracompartmental pressure increase. There is a close relationship between CaN-NFAT or PPAR/PGC-1 signaling pathways and muscle fiber type conversion. Studies have confirmed that Traditional Chinese medicine can protect the body tissue by activing CaN-NFAT or inhibiting PPAR/PGC-1 signaling pathways. Therefore, we wrote the review in order to better analyze the research progress in this field.

BACKGROUND: Limb allograft is a sort of composite tissues allotrans plantation(CTA), some researches showed that the apoptosis of target cell is one of the main mechanism of the dysfunction of allograft.OBJECTIVE: To investigate the characteristic of cell apoptosis in acute rejection of limb allograft in rats based on limb allograft model.DESIGN: A randomized controlled trial using the experimental animals as the objects.SETTING: Experimental animal center Laboratory of a hospital of a medical university MATERIALS: The experiment was done in the Experimental Animal Central Laboratory of the First Affiliated Hospital of Harbin Medical University from November 2003 to May 2004. Totally 56 healthy and male SD rats and 28 Wister rats were involved with body mass of 200 to 250 g. The rats were provided by the Experimental Animal Center of the First Affiliated Hospital of Harbin Medical University. They were randomly divided into two groups:transplantation group with 28 Wistar rats and 28 SD rats and control group with 28 SD rats.INTERVENTIONS: The transplantation group of SD rats underwent limb allotransplantation from allogenetic Wistar. The control group of SD rats underwent limb replantation. The expression of acute rejected in limb allografts was observed. The limb grafts were harvested atday 1, 3, 5 or 7 after transplantation. Histopathological rejection grade of each tissue rejection was performed with hematoxylin-eosin staining. Apoptotic cells were detected by TUNEL (terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick end labeling) and apoptotic index(AI) was calculated.MAIN OUTCOME MEASURES: Primary results: ① istopathological grade of acute rejection in limb allografts ② The relationship between apoptosis and acute rejection in limb allograft in rats; Secondary results:General condition of rats in each group.RESULTS: The limb grafts showed edema and erythema and the skin became red at day(3.43 ±0.79) after transplantation. The average survival time was(7.42 ± 1.72) days. The acute rejection in skin was the strongest. On the day 3, 5 and 7 after operation, the histopathological rejection grades of skins in the transplantation group were(1.14±0.38) ,(2.28 ±0.48) and(2.86 ±0.38) grades respectively. They were significantly different from that of muscle and nerve( P ＜ 0.05 ) . The apoptotic cells in allografts were mainly infiltrating lymphocytes in subcutaneous tissues and then the muscle cells. All was positively correlated with acute rejection grade in limb allograft .CONCLUSION: Apoptosis was involved in acute rejection of limb allograft in rat. The apoptotic index can be used as a quantitative index to estimate the injury of grafts.