Objective To explore the in vitrodifferentiation of the rat mesenchymal stem cells (MSCs ) into the skeletal muscle cells induced by the myoblast differentiation factor (MyoD) and 5-azacytidine. Methods The MSCs were taken from the rat bone marrow and the suspension of MSCs was made and cultured in the homeothermia incubator which contained 5% CO2at 37℃. The cells were observed under the inverted phase contrast microscope daily. The cells spreading all the bottom of the culture bottle were defined as onepassage. The differentiation of the 3rd passage of MSCs was induced by the combination of 5-azacytidine, MyoD, transforming growth factor β1, and the insulin like growth factor 1. Nine days after the induction, the induced MSCs were collected, which were analyzed with the MTT chromatometry, theflow cytometry, and the immunohistochemistry. Results The primarily cultured MSCs grew as a colony on the walls of the culture bottle; after the culture for 5-7 days, the cells were shaped like the fibroblasts, the big flat polygonal cells, the medium sized polygonal cells, and the small triangle cells; after the culture for 12 days, the cells were found to be fused, spreadingall over the bottle bottom, but MSCs were unchanged too much in shape. After the induction by 5-azacytidine, some of the cells died, and the cells grew slowly. However, after the culture for 7 days, the cells grew remarkably, the cell volume increased gradually in a form of ellipse, fusiform or irregularity. After theculture for 14 days, the proliferated fusiform cells began to increase in a great amount. After the culture for 18-22 days, the myotubes increased in number and volume, with the nucleus increased in number, and the newly formed myotubes and the fusiform myoblst grew parallelly and separately. The immunohistochemistry for MSCs revealed that CD44 was positive in reaction, with the cytoplasm ina form of brown granules. And the nucleus had an obvious border,and CD34 was negative. The induced MSCs were found to be positive for desmin and specific myoglobulin of the skeletal muscle. The flow cytometry showed that most of the MSCs and the induced MSCs were in the stages of G0/G1,accounting for 79.4% and 62.9%,respectively; however, the cells in the stages of G2/S accounted for 20.6% and 36.1%. The growth curve was drawn based on MTT,which showed that MSCs weregreater in the growth speed than the induced MSCs. The two kinds of cells did not reach the platform stage,having a tendency to continuously proliferate.ConclusionIn vitro,the rat MSCs can be differentiated into the skeletal muscle cells with an induction by MyoD and 5-azacytidine, with a positive reaction for the desmin and the myoglobulin of the skeletal muscle. After the induction, the proliferation stage of MSCs can be increased, with a higher degree of the differentiation into the skeletal muscle.
ObjectiveTo evaluate the superiority of nasopharyngeal airway on obesity patients during general anesthesia induction period. MethodForty-two trachea cannula and general anesthesia obesity patients treated from June to November in 2013 were chosen and divided equally into two groups:nasopharyngeal airway group (group A) and control group (group B). Mean arterial pressure (MAP), heart rate (HR), pulse oxygen saturation (SpO2), arterial blood partial pressure of carbon dioxide (PaCO2) were recorded when the patients entered the operation room, three minutes after man-made positive pressure ventilating and five minutes after intubation. Peak voltage (Ppeak) of man-made positive pressure ventilation for three minutes was also observed, and intubation frequency and time, mouth mucosa bleeding, and sore throat examples were compared between the two groups. ResultsCompared with group B, MAP, HR, PaCO2 and Ppeak three minutes after man-made positive pressure ventilating were lower (P<0.05), but SpO2 was higher in group A (P<0.05). Intubation frequency and time, mouth mucosa bleeding, and sore throat examples of group A were less than those in group B (P<0.05). ConclusionsNasopharyngeal airway is better for obesity patients during general anesthesia induction period, which also improves anesthesia safety level.
Objectives To evaluate the clinical effectiveness and safety of combined induction therapy of interferon (IFN) with chemotherapy for survival of the patients with advanced non-small cell lung cancer (NSCLC) by meta-analysis. Methods All clinical trials of addition of IFN plus chemotherapy versus chemotherapy alone for induction therapy to advanced NSCLC patients in MEDLINE (1966-2006), EMBASE (1984-2006.1) and The Cochrane Library (Issue 1,2006) were identified. The references of related studies and Education Books of ASCO and ESMO meeting were handsearched. The quality of included trials was evaluated. Data were extracted by two reviewers independently with a designed extraction form. RevMan 4.2.7 software was used for data analysis. Results Five randomized controlled trials involving 360 patients were included. The pooled result of 3 studies showed that IFN plus chemotherapy induction treatment did not improve 1-year survival rate with RR 0.76, 95%CI 0.46 to 1.26. The pooled result of 5 studies showed that IFN plus chemotherapy induction treatment did not improve response rate with RR 1.40, (0.83 2.34). The pooled result showed that IFN plus chemotherapy induction treatment might significantly increase leukopenia and thrombocytopenia with RR 2.61,95%CI1.70 to 3.99) and RR 4.78,95%CI 1.87 to 12.19 respectively . Conclusion Insufficient data exists to state whether IFN plus chemotherapy induction treatment can improve 1-year survival rate and response rate. IFN plus chemotherapy may increase occurrence of leucopenia and thrombocytopenia. Further studies are warranted.
In order to explore further the regulatory factors to the potentiality in inducing osteogenesis by fibroblasts, the fibroblasts were isolated, and purified from human skin, and were grown in incubation in the media of EGF, IL-6, TNF-alpha and BMP2 at different concentrations for two weeks, then, the markers for osteogenic features were investigated by biochemistry, histochemistry and electron microscopic observations. It was found that the combined use of TNF-alpha and BMP2 could stimulate fibroblasts to secrete alkaline phosphatase, osteocalcin and collagen, and the morphological changes of the fibroblasts were also very striking. In the extracellular matrix, the collagen fibrils, with or without periodicity, were arranged regularly or randomly oriented, and numerous minute calcium granules were interspersed among them. The fibroblasts were interwoven one on top of another in the form of multilayer structure and on the surface, there were secreting granules and piling up of calcium crystals which coalessed steadily and increased in size in forming bony nodules. It was considered that TNF-alpha and BMP2 were capable of inducing the fibroblasts to form bone.
ObjectiveTo explore the nursing method to avoid rupture of intracranial aneurysm during induction of anesthesia. MethodWe retrospectively analyzed the nursing method for 428 patients with aneurysm during the induction of anesthesia between October 2012 and October 2013. According to the causes of rupture of intracranial aneurysm (anxiety, tension, excitement, sudden elevation of blood pressure, physical labor), we adopted nursing methods to avoid those causes, and implemented targeted nursing methods during induction of anesthesia. ResultsNo intracranial aneurysm rupture occurred in these 428 aneurysm patients during induction of anesthesia. Two patients' absolute value of systolic blood pressure was below 80 mm Hg (1 mm Hg=0.133 kPa) during induction of anesthesia, and the vital signs of other patients kept normal. The number of intraoperative rupture cases was 3. When discharged from hospital, there were 385 patients with good prognosis, 39 patients with bad prognosis, and 4 death cases. ConclusionsTargeted nursing method based on patients' particular situation during induction of anesthesia can effectively control patients' emotion, stabilize fluctuations in hemodynamic indexes, decrease the incidence of aneurysm rupture, improve surgery treatment effect of intracranial aneurysm clipping, decrease complications, and improve patients' prognosis.
Objective To analyze the changes of gene expression profiles during the process that human bonemarrow mesenchymal stem cells (hBMSCs) are induced to differentiate into cardiomyogenic cells with 5-azacytidine (5-aza). Methods hBMSCs were isolated from marrow of obsolete ribs and induced with 5-aza. Then immunocytochemicalstaining was used to detect the expressions of α-actin, cardiac troponin T (cTnT), and connexin 43, and the percentage ofcTnT positive cells was tested with flow cytometry. In the process of differentiation, variation of gene expression was screenedwith Genechi ps Operating System of human gene expression profiles. And the differentially expressed genes were functionallyanalyzed and hierarchical clustered. Results When BMSCs were induced in vitro with 5-aza, part of the cells turnedinto myogenic cells morphologically. Before induction, immunocytochemical staining for α-actin and cTnT showed sl ightpositive and for connexin 43 showed negative. While after 3 weeks of induction, immunocytochemical staining for α-actin,cTnT, and connexin 43 showed all positive. With flow cytometry, the percentage of cTnT positive cells was 7.43% ± 0.02%before induction, but it was 49.64% ± 0.05% after induction. During differentiation, 1 814 differentially expressed geneswere reported by gene chi ps. Of them, 647 genes were divided into 5 groups with hierarchical clustering. They had variousbiological functions, involving signal transduction, cell metabol ism, prol iferation, differentiation, development, andtopogenesis. Conclusion hBMSCs can differentiate into cardiomyogenic cells with the induction of 5-aza in vitro. Multi plegenes related with signal transduction, transcri ption, and growth factors are involved during this process.
Objective To investigate the effect of hepatocyte-l ike cells induced by CD34+ cells in vitro on the repair of the injured hepatic tissues of mice in vivo. Methods Mononuclear cells were isolated from umbil ical blood by density gradient centrifugation and enriched CD34+ cells were obtained. The cells were (1 × 105 cells/mL) cultured in serumfreemedium containing stem cell factor (SCF), hepatocyte growth factor (HGF), EGF, oncostatin M (OSM), bFGF (the concentration were 50, 20, 20, 10, 10 ng/mL respectively) in vitro for 10 days. Forty-eight 6-week-old female ICR mice werechosen to prepare l iver injury model by injecting carbon tetrachloride and 2-acetylamionoflu-orene. The mice were randomly divided into two groups (n=24 per group): the experimental group, the cultured cells were injected into the mice through the tail vein; the control group, the equivalent serum-free medium was injected. Six mice from each group were killed at 7, 14, 21, and 28 days after operation to receive HE staining, PCR gel electrophoresis, immunohistochemistry staining, and hepatic function detection. Results HE staining: the morphology of injured hepatic tissues in the control group recovered to normal 28 days after operation, while in the experimental group, it recovered to normal 14 days after operation. PCR gel electrophoresis and immunohistochemistry staining: the cells expressing human serum albumin were detected in the hepatic tissue of the experimental group at each time point after operation; while in the control group, no such cells were detected within 28 days after operation. Hepatic function detection: the activity of alanine aminitransperase in the control group recovered to normal 14 days after operation; the mean activity of aspartate aminotransferase of two groups failed to recover within 28 days. Conclusion The hepatocyte-l ike cells induced by CD34+ cells in vitro can promote the morphological and functional recovery of the injured hepatic tissue in mice. Moreover, it can be transformed into human-derived hepatic cells in l iver-injured mice.
The optimal treatment of stage ⅢA-N2 non-small cell lung cancer (NSCLC) remains controversial. Resultsof primary surgery alone are not satisfied. Surgery after induction chemotherapy yields better outcomes compared to resectiononly which has been widely accepted. Randomized studies show induction chemotherapy followed by either radiotherapy or surgery have approximately equivalent survival outcomes,significant improved survival can be achieved by combined surgery in selected patients. Low-grade N2,effective response and mediastinal downstaging after induction therapy,and successful complete resection by lobectomy,are good indications of surgery. Ideal treatments are approached base on theheterogeneity of N2 . Patients with bulky or fixed N2 disease should be considered for radical chemo-radiotherapy,and surgeryshould be a part of multi-modality management for patients with non-fixed,non-bulky,single-zone N2 disease. Further randomized trials of surgery added to multi-modality management in patients with multi-zone N2 disease should be taken in order to establish possible subgroups of patients might be benefitted more from the addition of surgery.
Objective To explore the regulator factor of osteogenes is induced by the fibroblast in vitro so as to provide enough seeding cells for the bon e tissue engineering. Methods The fibroblasts were isolated and purified from granu lation of New Zealand rabbits, and they were incubated in the media offibronectin (FN) 10, 20, 40, 60 and 80 μg/ml, respectively, in the experimenta l grou ps 1- 5,but there was no FN in the control group. The markers for osteogenic features were investigated by fibroblast morphogenesis,calcium nodules formationratios,labeling of tetracycline fluorescence, labeling of 3H-TdR, determination of o steocaline, and labeling of 3H-proline within 2 weeks. Results The morphologic al changes of the fibroblasts were manifested as transference from a long spindle to a round or multiple form, shifted nucleus increased in number, confluenced and formed multilayered structure. There was a piling-up of calcium crystals that were gradually merged into foggy substances. The foggy substances increased and formed nodules. The calcium nodules formation ratios were as follows: 15.35%± 3.45%in the control group, and 53.73%± 9.49%, 75.21%± 9.80%, 98.34%± 15.2 0%, 61.83%± 10.04%, and 45.11%± 8.70% in the experimental groups 1.5 ,respectively. There was a significant difference between the control group and the 5 experimental groups at 14 days (Plt;0.05), and a significant differenc e be tween the experimental group 3 and the other experimental groups at 14 days (Plt;0.05). The histochemical study on the nodules with the specific labeling of tet racycline fluorescence indicated that the nodules were composed of new bones. Conclusion Fibronectin can stimulate the fibroblast to prolifer ate, secrete osteocaline, and synthesize collagen fibrils. Fibronectin, in an optimal dose of 40 -60 μg/ml, is capable of inducing the fibroblast to form the bone.
Objective To determine whether fibroblasts can be used to promote endochondral bone formation in vivo by transfer of human bone morphogenetic protein-2(hBMP-2) into fibroblasts. Methods pcDNA3-hBMP-2 was constructed by use of gene clone and recombined technique.NIH3T3 fibroblasts were transfected with pcDNA3hBMP-2. The positive cell clones were selected with G418. In NIH3T3 fibroblaststransferred with pcDNA3-hBMP-2, the expression of hBMP-2 was determined by in situ hybridization and immunohistochemical analysis; alkaline phosphatase activity was measured. hBMP-2producing fibroblasts were implanted into nude mouse muscle to observe endochondral bone formation in vivo. Results pcDNA3-hBMP-2 was successfully constructed. In NIH3T3 fibroblasts transfected with -pcDNA3-hBMP-2,the BMP-2 expression was stable; alkaline phophatase activity was much higher than that in nontransfectedNIH3T3 cells. Endochondral bone formation invivo was observed at the site of implantation 4 weeks later.Conclusion Fibroblasts transfected by hBMP-2 gene can be used to promote endochondral bone formation in vivo.