Objective To investigate the possibility of creation of tissue engineered heart valve leaflets in vitro . Methods Aorta were obtained from 9 hybrid young pigs. The endothelial cell, fibroblast and smooth muscle cells were isolated and cultured to get enough cell. The expanded fibroblast, smooth muscle cell,and endothelial cells were seeded on the polymers sequentially. The cell polymer constructs were sent for scanning electron microscopy(SEM) examination after cultured for 7, 14, and 28 days. Histological examination were performed after the cell polymer constructs cultured for 28 days. Results SEM showed that the number of cells on the polymers increased as the culture time prolonged, with the formation of matrix. After 28 days, there were a great number of cells and large amount of matrix on the scaffolds. The confluent cell had covered a large area of the polymers. Hematoxylin and eosin(HE) stain showed large amount of cells attached to the polymers. Conclusion With the viability of the cultured cellular scaffolds,it is possible to create tissue engineered heart valve leaflets in vitro.
The osteogenc potential of bone marrow has been proved by experiment. To investigate more in details, bone marrow was obtained from the trochanteric region of femur of NewZealand rabbit in 4 to 8 weeks old. After being cultured in vitro for one week, the hematopoietic component of the bone marrow had disappeared, thus the stromal cells were obtained. Then the stromal cells were subcultured in cultural fluid containing dexamethasone (10-8 mol/L) and natrium glycerophosphate (10mmol/L). Under the phasecontrast microscope, it was found that being cultured for 15 days. The stromal cells were lined up in one layer and late the secretion activity was increased and gradually transformed into multilayer structure and was congregated into diffused opaque clusters in twenty days. During culture, the cells were examined by tetracycline fluorescence label, histochemistry stains, transmission electron microscopy, scanning electron microscopy and energy dispersive X-ray microanalysis. The results showed that the morphological and biological characteristics of the cultured stromal cells derived from the bone marrow were similiar to those of osteoblasts and could synthesized mineralized new bone tissue in vitro.
OBJECTIVE: To investigate the biological characteristics of human muscle satellite cell cultured in vitro. METHODS: Human muscle satellite cells were obtained from skeletal muscle biopsies of six patients during corrective orthopedic surgery, cultivated in growth medium for ten days, then in differentiation medium for additional five days. Human satellite cells were identified with monoclonal antibody against desmin. Cells were observed under phase contrast microscopy. RESULTS: Human muscle satellite cells proliferated in growth medium, and fused to form myotubes in differentiation medium. After 24 hours in differentiation medium, the confluent satellite cells began to fuse actively and achieved the top level at 72 hours. CONCLUSION: Human muscle satellite cell can proliferate and differentiate in appropriate culture condition. Immunocytochemical detection of desmin is the effective early method to determine satellite cell.
Objective To culture astrocytes of human optic nerve and establish the cell lines for further study of healing process after optic nerve trauma. Methods Astrocytes of infantile optic nerve were cultured by tissue inoculation or tissue digestion with 0.25 % trypsin and 0.06% EDTA. The second and fourth passage cells were stained with HE and anti-GFAP, S-100 protein, vimentin, and CD34 antibodies. Results The trypsinized astrocytes of infantile optic nerver eached confluence in 7 days. The cultured cells were in polygonal shape with processes and the cytoplasm was abundant. These cells were positive in GFAP, S-100 protein and vimentin staining, and negative in CD34 staining. Conclusions Astrocytes of human optic nerve can be successfully cultured by trypsinization rather than tissue inoculation. (Chin J Ocul Fundus Dis, 2001,17:144-146)
Objective To explore an effective method to culture and purify canine bladder transitional epithelial cells.Methods Bladder tissue was obtained from healthy puppy under sterile conditions. Bladder mucosa was removed from the remaining tissue with fine scissor and minced into small pieces, and then were dissociated into single cell suspensions with 0.125% trypsin. The bladder epithelial cells were cultured in defined keratinocyte serum free medium. The cells were passaged and purified by 0.05% trypsin and 0.02% EDTA. Morphological characterization were studied under inverted phase contrast microscope and transmission electron microscope. Expression of cell specific marker protein was assessed by immunohistochemistry. Results Canine bladder transitional epithelial cells could be efficiently cultivated and expanded in serum-free medium without fibroblast contamination. The cells could be passaged 4-6 times without a distinguished decrease in cell proliferation. The cells were characterized by well-developed micro filament and desmosome junction under transmission electron microscope. Immunohistochemical staining with broadly reacting anticytokeratin antibodies (AE1/AE3) confirmed the epithelial phenotype of the cells.Different generations of cells showed diploid cells. Conclusion A large number of bladder transitional epithelial cells can be obtained from small bladder tissue with our digestion method. The cultured bladder epithelial cells can be proliferated to sufficient quantities for further reconstructive purposes.
Objective To culture primary parathyroid cells by mean of simulated microgravity, observe their basic morphological characteristics, study survival rate and secretory function of parathyroid cells, and explore more excellent culture mean of parathyroid cells. Methods There were 37 male Wistar rats, the body weight was 150–200 g. The rat was intraperitoneally injected with 1% pentobarbital sodium (50 mg/kg). The parathyroid glands were surgically excised and identified pathologically. The parathyroid gland cells were got and digested them with collagenase Ⅱ, which were divided into three groups: conventional culture group (simple parathyroid cells were cultured), polyglycolic acid (PGA) scaffold culture group (the parathyroid cells were cultured on the PGA scaffold), and simulated microgravity culture group (the parathyroid cells and PGA scaffolds were cultured in simulated microgravity environment). The parathyroid cells were cultured for 1, 3, 5 or 7 days in different culture conditions, then the parathyroid hormone (PTH) was measured, morphological characteristics of the parathyroid cell was observed under phase contrast microscope, survival rate of the parathyroid cells was calculated by acridine orange/propidium iodide staining. Results The parathyroid cell morphologies of most cells were well and center of part of cell mass was necrosis on day 7 in the conventional culture group. The most parathyroid cells were spreading toward the poles along the PGA cell scaffold in the longitudinal direction and the adjacent stents were connected by extracellular matrix on day 7 in the PGA scaffold culture group. The parathyroid cells cultured under the simulated microgravity were got round and formed clusters on day 7 in the simulated microgravity culture group. Compared with the other two groups on day 7, the PTH and the survival rate of the parathyroid cells were significantly higher in the simulated microgravity culture group (P<0.05). Conclusions Parathyroid cells cultured in simulated microgravity environment could maintain better morphology, survival rate is higher, and secretory function is better. Therefore, parathyroid cells cultured in simulated microgravity could be used as good donor cell for treatment of hypoparathyroidism. PGA scaffold could be used as a good carrier for culture of parathyroid cell.
Objective To investigate the method of cultivation and the feature of differentiation of spinal cordderived stem cells in vitro.Methods The neural stemcells from spinal cord of 15 days fetal rats were harvested and cultivated in aserumfree limited medium. The stem cells were induced to differentiate and theresults were identified by cellular immunohistochemistry. Results Lots of stem cells were obtained from the spinal cord of fetal rats and the sphere of stemcells was formed about 10 days. Neural stem cells can give rise to mature neurons and astrocytes.Conclusion Epidermal growth factor/basic fibroblast growth factor serum-free limited medium can promote the proliferation activity ofthe stem cells. Spinal cord-derived stem cells can differentiate into glial cells and neurons.
Objective To locate sinoatrial node (SAN) in suckl ing pigs, to develop a rel iable method for isolation, purification and cultivation of SAN cells and to observe the compatibil ity of SAN cells and Col I fiber scaffold. Methods Five newborn purebred ChangBaiShan suckl ing pigs (male and female), aged less than 1-day-old and weighing 0.45-0.55 kg, wereused. Multi-channels electrophysiological recorder was appl ied to detect the original site of atrial waves. Primary SAN cells harvested from that area were cultured by the conventional culture method and the purification culture method including differential velocity adherent technique and 5-BrdU treatment, respectively. Atrial myocytes isolated from the left atrium underwent purified culture. Cell morphology, time of cell attachment, time of unicellular pulsation, and pulsation frequency were observed using inverted microscope. The purified cultured SAN cells (5 × 105 cells/mL) were co-cultured with prewetted Col I fiber scaffold for 5 days, and then the cells were observed by HE staining and scanning electron microscope (SEM). Results The atrial waves occurred firstly at the area of SAN. The purified cultured SAN cells were spindle, triangular, and irregular in morphology, and the spindle cells comprised the greatest proportion. Atrial myocytes were not spindle-shaped, but primarily triangular and irregular. The proportion of spindle cells in the conventional cultured SAN cells was decreased from 73.0% ± 2.9% in the purified cultured SAN cells, to 44.7% ± 2.3% (P lt; 0.01), and the proportion of irregular cells increased from 7.0% ± 1.7% in the purified cultrued SAN cells to 36.1% ± 2.6% (P lt; 0.01) . The proportion of the triangular cells in the purified and the conventional cultured SAN cells was 20.0% ± 2.1% and 19.2% ± 2.5%, respectively (P gt; 0.05). At 5 days after co-culture, HE staining displayed lots of SAN cells in Col I fiber scaffold, and SEM demonstrated conglobate adherence of the cells to the surface and lateral pore wall of scaffold, mutual connections of the cell processes, or attachment of cells to lateral pore wall of scaffold through pseudopodia. Conclusion With accurate SAN location, the purification culture method containing differential velocity adherent technique and 5-BrdU treatment can increase the proportion of spindle cells and is a rel iable method for the purification and cultivation of SAN cells. The SAN cells and Col I fiber scaffold have a good cellular compatibil ity.
In thiis study,we show thai carbachol stimulates the accumulation of inositol phosphates(InsPs)in human rellnal pigment epithelium (RPE)cells and atropine blocks the carbachol-induced effect ,suggesting the existence of musearinie acelyleholine receptors in human RPE cells. In contrast,noradrenaline,serotonin, cpidermal growth factor (EGF),isoproterenol,and NECA (5'-[N-ethyl]-carboxamido-adenosine)do not influence the basal levels of InsPs.Moreover,isoprmerenol and NECA do not affect the carhaehol elevated levels of InsPs.EGF,howcvcr,does potentiate the carhaehol stimulated elevation of InsPs in a dose-dependent manner ,suggesting an interaction between EGF and musearinie receptors in cultured human RPE cells. (Chin J Ocul Fundus Dis,1994,10:220-222)
Objective To observe the effects of culture medium of amniotic cells on NO and NOS in retinal tissues of rabbits in vitro in order to provide a protective method for antioxidation in retina transplantation. Methods Thirty adult healthy rabbits (30 right eyes) were divided into 3 groups. Group I: fresh retinal tissue; group II: routine culture medium; group III: culture medium of amniotic cells. The retinal tissues in group II and III were cultured in the corresponding culture medium for 1 week. The content of NO and NOS in retinal tissues in the 3 groups were determined. Results Compared with group I, the content of NO and NOS of group II increased obviously (t=3.821, 3.854; P<0.001). There was no statistical difference of content of NO and NOS between group I and III (t=1.657, 1.745; P>0.05). Conclusion Culture medium of amniotic cells may remove free radicals and enhance the ability of antioxidation. (Chin J Ocul Fundus Dis,2004,20:366-368)