From the results of this experiment, it showed that the implanted tendon was gradually extruded from the tibia hole and attached to the periosteum. The dominant breeding of tissue cells, cytodynamics, the perimeter ratio of tendon/bone and the effect of revascularization were discussed in detail.
A mechanical study on the bones of 29 rabbits following implantation of carbontendon was carried out. The rabbits were divided into seven groups according to the observation time (2,4,6,8,12,20 and 30 weeks after operation). A bundle of artificial tendon composed of 7,000 carbon fibers was passedthrough a tunnel in the tibia, and both ends of the artificial tendon were ligated to the muscle fibers. The mechanical strength and histological structure of the carbonbone junction and their relationship were studied in each group. Carbon fiberwas split and degradated in six to eight weeks after operation. The tensile strength of carbontendon in the soft tissue was decreased from 82±4.6N in the second week to 27±5.31N and6.3±1.81N in the sixth and eighth week respectively. The tensile strength of carbontendon increased from 3.01±1.2N to 6.1±2.01N at the carbon -tendon-bone junction in the bone. The tensile strength of carbon-tendon was unsatisfactory for implantation into bone. The carbon-tendon was split and degradated and the tensile strength was not b enough to cope with the early functional exercises.
Objective To investigate the possibility of repairing defected tendon with a tissue engineering tendon, combined culture of allogenous tenocyte and derived tendon. Methods Macaca tenocytes labelled by BrdU were seeded on the derived tendon. The flexor digitorum profundus of five fingers of left hand in 15 Macaca mulatta were resected and made 2.5cm defects as experimental model. They were divided into three groups according to repair methods (Group A: Combined culture of derived tendon materials and alloggenous tendon cells; Group B; Derived tendon materials; Group C; Autograft). In different stages, the labeled BrdU of tendon cells were observed. Results In Groupo A, after iin vivo implantation, the tenocytes could proliferate and synthesize collagen; the new tissue was white and glossy and the collagen fibers fused to form dense tendon structure as several weeks passed. Twelve weeks after implantation, the tenocytes still survived and synthesized collagen, the results of labelled cells were positive by immunothistochemical methods. By scanning electron microscopic observation, the tenocytes arraged regularly and evely among the derived tendon; the collagen fibers formed a network and its main direction was accord with that of the derived tendon. Normal nucleus, nucleolus, and cell organelles were seen under transmission electron microscope. Conclusion Combined culture of tenocytes with derived tendon is able to make tendon like tissue. The structure of tissue engineering tendon in similar to that of normal tendon.
Objective To investigate whether the implanted myoblasts with the soluble carriers can improve the repairing efficiency for theseverelycryodamaged tibialis anterior muscles. Methods The skeletal myoblasts were isolated from the newborn SD rats by the use of the enzyme digestion. They were purified and serially subcultivated; the subcultivated myoblasts of the 3rd generation were marked with BrdU. The severelycryodamaged tibialis anterior muscle models were established from 84 SD rats aged 5 months. They were randomly divided into 4 groups, including Group A1 (the implanted myoblasts with the carriersF12 containing 0.1% sodium hyaluronate), Group A2 (the implanted myoblasts, with the carriersF12 that did not contain 0.1% sodiumhyaluronate), Group B1 (the implanted carrier solution containing 0.1% sodium hyaluronate, but with no myoblasts), and Group B2 (with no carrier solution or myoblasts). Six rats were killed at the following time points: at 2, 5 and 9 days,and 2, 4, 8 and 12 weeks after operation; the immunohistochemical and the Mallory staining studies were performed for an evaluation on the repairing efficiencyfor the severelycryodamaged tibialis anterior muscles. By the imaging analysis, the number of the survived cells in each group was compared at 2 days, and the area ratio of the collagen fiber in each group was also compared at 8 weeks. Results The BrdU immunohistochemical staining showed that the number of the remaining implanted cells was significantly greater in Groups A1 than in Group A2, the migrating area of the myoblasts was greater, the distribution of the cells was more uniform, the cell differentiating potential was undestroyed, the repairing efficiency for the severelycryodamaged tibialis anterior muscles was significantly improved. There was no bluestained nucleus at each time point in Group B. The Mallory staining showed that the fibrous degeneration inthe tissue repairing process was significantly inhibited in Groups A1, A2 and B1; the inhibition was most obvious in Group A1, and next in Group A2. The imaging analysis indicated that at 2 days after operation, the number of the survived cells was significantly-greater in Group A1 than in Group A2 (Plt;0.05). At 8 weeks after operation, the collagen fiber was the least in Group A1, less in Group A2, more in Group B1,and the most in Group B2 (Plt;0.05). Conclusion The implanted myoblasts can significantly improve the repairing efficiency for the severelycryodamaged muscle tissues, and the implanted carrier solution containing 0.1% sodium hyaluronate can improve the implanting efficiency for the myoblasts.
In order to observe the role of genetically modified Schwann cell (SC) with pSVP0Mcat in the regeneration of injured spinal cord, the cells were implanted into the spinal cord. Ninety SD rats were used to establish a model of hemi-transection of spinal cord at the level of T8, and were divided into three groups, randomly, that is, pSVP0Mcat modified SC implantation (Group A), SC implantation (Group B) and without cell implantation as control (Group C). After three months the presence of axonal regeneration of the injured spinal cord was examined by means of horseradish peroxidase (HRP) retrograde labelling technique and stereography. The results indicated that HRP labelled cells in Group A and B could be found in the superior region of injured spinal cord and the brain stem such as the red nuclei and oculomotor nuclei. The density of ventral hom neurons of the spinal cord and the number of myelinated axons in 100 microns of the white matter was A gt; B gt; C group. In brief, the pSVP0Mcat modified SC intraspinal implantation could promote regeneration of the injured spinal cord.
Objective To investigate the biocompatibility of acellular urinary bladder submucosa (AUBS). Methods The acellular collagen matrix of human urinary bladder submucosa was developed using freeze-thawed enzymatic treatment and freeze-drying technique. Human oral keratinocytes were cultured and seeded on AUBS at a density of 2×106/ml in vitro.The proliferation of the cells were observed. Pockets were created in the abdominal muscle wall of 18 SD rats. AUBS in size 1 cm×1 cm was implanted into the pocket. The grafts were observed by light microscope 3, 6, 10, 14, 21 and 28 days after operation. Results AUBSmainly consisted of collagen fibers with a three-dimensional network structure. After the oral keratinocytes were seeded, continous oral epithelium layer was formed on the surface of AUBS after 10 days in vitro. Histological observation of the grafted AUBS showed progressive cell infiltration at 6 days. New capillaries formed at 14 days. The collagen fibers arranged regularly at 28 days after implantation. Conclusion Freeze-dried AUBS may be used as a suitable scaffold for tissue regeneration, which can induce cell proliferation both in vivo and in vitro and has good biocompatibilty.
ObjectiveTo systematically evaluate the efficacy and safety of 125I seed interstitial implantation for lung cancer. MethodsWe searched PubMed, The Wiley Online Library, Elsevier, CNKI, VIP and WanFang Data from inception to February 2014 to collect randomized controlled trials (RCTs) of 125I seed interstitial implantation in the treatment of lung cancer. Two reviewers independently screened literature, extracted data and assessed the risk bias of included studies, and then meta-analysis was performed by using RevMan 5.1 software. ResultsA total of 23 RCTs involving 1 492 patients were included. The results of meta-analysis showed that:the effective rate (OR=3.43,95%CI 2.71,4.33,P<0.000 01), 1 year survival rate (OR=2.83, 95%CI 2.03 to 3.95, P<0.000 01) and 2 year survival rate (OR=2.49, 95%CI 1.60 to 3.88, P<0.000 01) in the 125I seed interstitial implantation group were higher than those in the control group, but the rate of postoperative complications was higher than that of control group (OR=19.72, 95%CI 11.63 to 33.45, P<0.000 01). In addition, there were no significant differences between both groups in the 3 year survival rate (OR=2.45, 95%CI 0.21 to 28.89, P=0.48) and the adverse reaction rate (OR=0.74, 95%CI 0.52 to 1.05, P=0.09). Conclusion125I seed interstitial implantation is effective in the treatment of lung cancer. It can improve treatment efficiency and short-time survival rate, but may increase the rate of complications such as pneumothorax, seed malposition, bleeding and so on. Due to the limited quality and quantity of included studies, more high quality and larger sample studies are needed to verify the above conclusion.
OBJECTIVE: To evaluate the clinical effect of drilling procedure following the hydroxyapatite orbital implantation. METHODS: From February 1996 to April 2000, 146 consecutive patients who received hydroxyapatite orbital implant were drilled and inserted a motility peg 6 to 16 months after hydroxyapatite implantation. Among them, there were 97 males and 49 females, aged from 18 to 60 years old, of the 146 motility pegs, 36 were sleeved pegs and 110 were nonsleeved. Goldman visual field analyzer was applied to measure the degree of artificial eye’s movement before and after drilling. RESULTS: Followed up for 1 to 40 months, no secondary infection occurred. The mobility of the prosthesis increased from (18.7 +/- 3.8) degrees preoperatively to (42.3 +/- 3.7) degrees postoperatively. CONCLUSION: The delayed drilling procedure and motility peg insertion improve the range of movement and the sensitivity of the artificial eye with a low rate of complications.
Objective To investigate the influence of infarcted myocardial construction by umbilical cord blood mesenehymal stem cells(MSC) with induced to myo-derived stem cells and implanted into infarcted myocardium. Methods Thirty-six adult mongrel canines were randomly divided into MSC transplant group and control group (18 each group). Transplant group: the umbilical cord blood MSC differented to myo-derived stem cells induced by 5-azacytidine(5-aza) were implanted into the acute myocardial infarct site via the ligated left anterior descending (LAD) artery. Control group: administer the same volume of IMDM culture medium containing 0. 02% 4,6- diamidino-2-phenylindone (DAPI). At 2, 4, 8 weeks after implantation, the change of basic myocardial construction and the distribution of desmin were observed by using Nagar-Olsen staining and immunohistology respectively. Results With less fusing, the arrangement of gelatine fibers and elastic fibers were in order in transplant group,and they were partly fused in control group by Nagar-Olsen staining. The expression of desmin of infarcted myocardial cell in transplant group was much higher than those in control group (P〈0. 01). No significant difference was detected in the expression of desmin in normal site of both groups (P〉0. 05). Conclusion There is an protective effect on the basic myocardial construction in infarcted myocardium after the umbilical cord blood MSC was differented to myo-derived stem cell by induced with 5-aza in vitro and implanted into the acute myocardial infarction.
Objective To investigate the effect of iodine-125 on inhibiting breast cancer growth and to explore its possible mechanism. Methods The animal model of the MCF-7 tumor was established firstly through injection of the cells into nude mice. The animals were divided into two groups before the implantation of the iodine-125 granule into the tumor mass: control group (n=40, to implant no-load seeds, non-iodine-125 radioelement) and experimental group 〔n=40, to implant iodine-125 seeds (1.48×107 Bq) when the length of tumor was 8-10 mm〕. The width and length of tumor, in order to calculate the volume, were measured every three days to observe tumor growth curve and to calculate the rate of the tumor inhibition. When the length of tumor was 15-20 mm in the control group, 30 nude mice were killed in every group to detect the weight of tumor and histopathological changes. Other ten nude mice of each group were remained to be observed the national life span and survival rate for 90 days. Results Within 90 days, the average survival time in control group and experimental group were significantly different (56.2 d vs. 74.8 d, P<0.05). In control group the growth curve was continuously elevated, while experimental group showed a low flat curve. With iodine-125 treatment, the tumor growth decreased in experimental group with tumor inhibition rate 55.21%. The average tumor weight in control group and experimental group was (3.26±0.39) g and (1.46±0.17) g (t′=22.8962, P<0.05). As compared with control group, under light microscope, the number of cancer cells was less, nuclear debris increased, and cancer structure was not obvious in experimental group. Conclusion This study suggests that iodine-125 seed may inhibit the growth of breast cancer, which may be involved in direct radiation breakdown of tumor cells or induction of apoptosis and inhabitation of tumor angiogenesis.