PURPOSE:To establish methods for cryopreservation of human retinal pigment epithelial cells (RPEs)and cell culture from thawing of frozen cells. METHODS:Primary cultured RPEs or its first or second passages,added with 10 dimetbylsulfoxide,were kept in --20℃ for 1 to 2 hours,and then further froze to -40~C over night before being placed in liquid nitrogen. The frozen cells were thawed in 60℃ within 2 minutes. Trypan blue staining and immunocytochemical staining with anti-human keratin were performed for cell viability and differentiation. The growth curve was also determined by calculating the total number of cells/well/day. RESULTS:The viable rate from frozen RPEs was 90%. No differences were observed for growth activity between cultures from frozen cells and controls. The cells were positive with anti-human keratin staining. The logarithmic growth phase was during I to 4 days and the doubling time yeas 1.55 days. CONCLUSION: Cryopreservation of RPEs in liquid nitrogen can maintain biological activities of cells with normal growth and features after thaw- ing. This will provide cell lines for in vitro experiments and possibly for cell banks for RPE transplantation for some fundus diseases. (Chin J Ocul Fundus Dis,1997,13:157-159)
【Abstract】Objective To investigate the injury of calcium on the liver. Methods By using collagenase-containing solution to perfuse the rat livers, the rat liver suspension with different viability was prepared, preserved hypothermically, and the cytosolic calcium comcentration was detected with Fura2/AM. Results ① The concentration of cytosolic calcium after 2-hour storage: Experiment group 1(viability 5%) (1055.0±30.79) nmol/L, experiment group 2(viability 10%) (853.0±20.42) nmol/L, experiment group 3(viability 30%) (616.0±13.20) nmol/L, experiment group 4(viability 50%) (562.0 ±26.06) nmol/L, experiment group 5(viability 70%-80%) (318.0±13.01) nmol/L, experiment group 6(viability 90%) (114.6±6.11) nmol/L. ②The concentration of cytosolic calcium after 24hour storage: Experiment group A(viability 10%) (1704.0±70.11) nmol/L, experiment group B(viability 50%) (1125.0±23.22) nmol/L. The results showed that the lower was the viability, the higher was the cytosolic calcium concentration.With the same viability the cytosolic calcium concentration elevated more than two times higher than the original concentration with the time lengthened. Conclusion Calcium overload is one of the main factors which attribute to the ischemiareperfusion injury of the hepatocytes.
In order to repair cartilage defect in joint with transplantation of cryopreserved homologous embryonic periosteum, 30 rabbits were used and divided into two groups. A 4 mm x 7 mm whole thickness cartilage defect was made in the patellar groove of femur of each rabbit. The homologous embryonic rabbit skull periosteum (ERSP), preserved in two-step freezing schedule, was transplanted onto the cartilage defect of joints of one group and autogenous periosteal graft was done in the joint defect of the other group. The knees were not immobilized, following operation and 16 weeks later, the newly formed tissue in the defects were assessed by gross observation, histochemical examination and biochemical analysis. The results showed that new hyaline-like cartilage was formed in the cryopreserved ERSP grafted knee, and had no significant difference from that of the knee receiving autogenous periosteal graft, but had significant difference from that of the fresh ERSP grafted knee and the non-grafted knee. Furthermore, the new hyaline-like cartilage had the biochemical characteristics of a fibrous cartilage. The conclusion was that this method might be feasible to repair articular cartilage defects.
Objective To investigate the effects of different temperatures on the system of in vitro physiological environment fostering limbs. Methods Twenty-four limbs were harvested from 6 adult Bama mini pigs and were randomly divided into 4 groups (n=6) according to different temperatures: limbs were placed in in vitro physiological environment foster-ing limbs at 26℃ (group A), 4℃ (group B), 10℃ (group C), and 18℃(group D). After 12 hours of perfusion, the morphology observation was done for the structure and ultrastructure changes of the skeletal muscle by light microscope and transmission electron microscope. The mRNA levels of tumor necrosis factor α (TNF-α) and interleukin 1β (IL-1β) were detected by real-time fluorescent quantitative PCR (RT-qPCR). Results Histological results showed that the skeletal muscle exhibited mild edema, integrity of the sarcolemma, and occasional perivascular inflammatory cell infiltration in groups B, C, and D, meanwhile, the cells of group C had normal morphology; however, muscle fibers degenerated, muscle cells were seriously damaged, a great number of inflammatory cells infiltrated in the fractured muscle fibers in group A. Transmission electron microscope results showed as follows: the muscle fibers arranged in disorder, and many focal solubility necrosis occurred in group A; the muscle fibers arranged in order relatively and sarcolemma was still intact, with mild swelling and flocculent degenerative mitochondria in group B; a large number of muscle fibers arranged in order and regularity with clear sarcomere in group C; and the muscle fibers arranged in disorder and irregularity and partly dissolved in group D. RT-qPCR results showed that the expressions of inflammatory factor TNF-α and IL-1β mRNA in group A were significantly higher than those in groups B, C, and D (P lt; 0.05); the expressions were significantly lower in groups B and C than in group D, and in group C than in group B (P lt; 0.05). Conclusion In the system of in vitro physiological environment fostering limbs, temperature plays an important role in the preservation of amputated limbs. It is suggested that 10℃ can significantly attenuate the reperfusion-induced skeletal muscle cell injuries in this system.
Objective To observe the enzymic histochemical and ultrastructral changes of cryopreserved human retina. Methods To compare the activity of lactate dehydrogenase (LDH), succinate dehydrogenase (SDH) and ATPase in cryopreserved retina with those in fresh retina and to observe the histological and ultrastructural changes of cryopreserved retina. Results There was no statistical difference between the activity of LDH,SDH and ATPase in fresh and in cryopreserved retina. Histologically, in the cryopreserved retina, fluid in neural fiber and outer plexiform layers, as well as in cone and rod layer, was sligthly more than normal. The ultrastructure is normal except that the mitochondria was swollen in different degree. Conclusion Cryopreservation may be an effective method for keeping the retinal cells alive for a long period and might free the transplantation from dependance on aviability of fresh dornor tissue. (Chin J Ocul Fundus Dis,2000,16:139-212)
Objective To investigate the effect of tissue engineered bone with cryopreservation on healing of bone defects and to explore feasibility of cryopreservation for tissue engineered bone. Methods Tissue engineeredbones were constructed with osteoblasts being seeded onto bio-derived materials made from freshhuman bones,and they were preserved at 4℃ and -196℃ for 3 months and 6 monthsrespectively.They were applied to repair segmental bone defects of rabbit’s radius while the tissue engineered bone without cryopreservation and bio-derived materials were brought into control groups.The experiment was divided into groups A3,A6,B3,B6,C and D(group A3:tissue engineered bones were preserved at 4℃ for 3 months; group A6:tissue engineered bones were preserved at 4℃ for 6 months;group B3:tissue engineered bones were preserved at -196℃ for 3 months; group B6:tissue engineered bones were preserved at -196℃ for 6 months; group C: tissueengineered bones without cryopreservation; group D: bio-derived materials). Macroscopical and histologial examination were done at the 2nd,4th,6th,12th weeks, X-ray examination was done at the 6th,12th weeks and biomechanics were determined at 12th weeks after operation respectively. Results Macroscopical observation showed no significant differences among group A3, A6, B3, B6 and C, but less new bone formation and more obvious boundary in group D were observed. Histological observation showed more collagen and new bone around the edge of implant of group A3, A6, B3, B6 and C than group D, and histological evaluation showed significant differences between group D and other groups(P<0.05). Radiographic observation showed no absorbability of the implant cortex and less new bone formation in group D, but the unity between implant and host bone, medullary cavity reopened, disappearance of fracture line and fine bone modelling were observed in other groups at 12 weeks after operation. Biomechanics between group D and other groups showed significant differences(P<0.05). Conclusion Cryopreservation (4℃ and -196℃) were capable of preserving tissue engineered bone for long time, and tissue engineered bone withcryopreservation has significant effect on healing of bone defects. The methods f it clinical application.
【Abstract】ObjectiveTo investigate the effects and mechanism of Panax Notoginseng saponins (PNGS) on rat liver during cold preservation. Methods Using isolated perfusion of rat liver model (IPRL), Fura-2 method was used to measur the concentration of calcium ion in hepatic cells which had been preserved in DMEM solution with different concentration of PNGS added and cold preserved for 2 hours. Liver function, metabolic products of oxygen free radicals, energy substance and aucount of biliary flow as well as morphological study were measured from liver tissue which had been cold preserved in lactate riuges’s solution containing different dosages of PNGS for 24 hours and 30 minutes reperfusion.ResultsThe contents of intracellur calcium of the rat hepatocytes,MDA, AST, ALT, LDH were lower than those in the control group,but SOD, ATP, TAN, EC and bile production were higher than those in the control group(P<0.01).During 200-600 mg,the protective effects of the PNGS were correlated with the dosage and manifest dosagedependence(Plt;0.01),800-1000 mg were not significant(Pgt;0.05). ConclusionPNGS relieve the injury of the rat liver during cold preservation. The mechanism might through inhibition calcium overload, improve the energy metabolism, play a role against free radical injury realize.