Objective To analyze and summarize the applicative experience and operative effective of the diaguostictreatment-repair strategy in the transpossion of great arteries(TGA) infants with ventricular septal defect and severe pulmonary hypertension more than 6 months.Methods From January 2010 to October 2011,17 TGA cases with ventricular septal defect and severe pulmonary hypertension.There were 13 male and 4 female.≥0.5-＜ 1.0 years old 6 cases,≥ 1.0-＜ 3.0 years old 3,≥3.0 years old 8 cases.Combine anomalies: patent ductus arteriosus in 6 cases,atrial septal defect in 5 cases,valve insufficency in 2 cases.All preoperative cases were performed echocardiography,right-sided heart catheterization 3 cases,coronary CT examinationll cases.After diagnostic-treatment 2-4 weeks,all cases performed arterial switch operation under compound intravenous and inhaled anesthesia.Results No operative death.After diagnotic-treatment,SPO2 improved 10％-21％,and mPAP decreased 10-20 mm Hg.Follow-up 11.2 (6,20) months,one dead.Postoperative residual pulmonary arterial hypertension in 35.29％,6/17cases,all of them were ≥3 years old.Continue to pulmonary arterial hypertension targeted drugs treatment for 6-20 months later,pulmonary artery pressure decreased obviously.Conclusion The TGA infants with ventricular septal defect pulmonary arterial hypertension more than 6 months,can be selectively performed arterial switch operation under went diagnostic-treatment-repair strategy,continue to pulmonary arterial hypertension targeted drug therapy postoperation,the effect is good.

Flashing light effect on microalgae could significantly improve the light efficiency and biomass productivity of microalgae. In this paper, the baffles were introduced into the traditional flat plate photobioreactor so as to enhance the flashing light effect of microalgae. Making Chlorella sp. as the model microalgae, the effect of light intensity and inlet velocity on the biomass concentration of Chlorella sp. and light efficiency were evaluated. The results showed that, when the inlet velocity was 0.16 m/s, with the increase of light intensity, the cell dry weight of Chlorella sp. increased and light efficiency decreased. With increasing the inlet velocity, the cell dry weight of Chlorella sp. and light efficiency both increased under the condition of 500 μmol/(m2 x s) light intensity. The cell dry weight of Chlorella sp. cultivated in the novel flat plate photobioreactor was 39.23% higher than that of the traditional one, which showed that the flashing light effect of microalgae could be improved in the flat plate photobioreactor with inclined baffles built-in.
Biomass ; Chlorella ; growth & development ; Culture Techniques ; instrumentation ; Light ; Microalgae ; growth & development ; Photobioreactors

Objective To investigate whether vitamin C can promote the proliferation ability of bone marrow mesenchymal stem cells (BMMSCs) derived from aging mice. Methods The senescence-accelerated mouse prone 6 (SAMP6) mice and senescence-accelerated mouse resistant 1 (SAMR1) mice were used as the test group and the control group, respectively, and the SAMP6 mice were examined by micro-CT to verify the senescent phenotype. BMMSCs were harvested from the two mouse lines and cultured in vitro, and the cells from SAMP6 mice were subjected to treatment with different concentrations of vitamin C. The proliferation ability of the cells from the two mouse lines was tested using MTT assay and growth curves, and TeloTAGGG Telomerase PCR ELISA was used to measure the telomerase activity;PCR and Western blotting were performed to detect the expression level of telomerase reverse transcriptase (TERT) in the cells. Results The SAMP6 mice displayed a bone senescent phenotype. The proliferation ability of BMMSCs derived from SAMP6 mice and their telomerase activity were significantly lower than those derived from SAMR1 mice (P<0.05). Vitamin C treatment significantly enhanced the proliferation ability of BMMSCs derived from SAMP6 mice in a dose-dependent manner (P<0.05) and increased telomerase activity and TERT expression in the cells (P<0.05). At the concentration of 100μg/mL, vitamin C produced the strongest effect in promoting the proliferation of BMMSCs from SAMP6 mice, while at the concentration of 1000μg/ml, growth suppression occurred in the cells. Conclusion Vitamin C can promote the proliferation of BMMSCs from aging mice possibly by increasing the cellular telomerase activity.

This thesis focuses on the optimum design of excitation module, filtering module, detector’s interference suppression and serial synchronization matching communication of terminal in multi-channel impedance detector of visualization system. And the optimized system has been tested, which confirms that the optimized system has improved the measurement accuracy performance. The thesis also briefly introduces whole meridian visualization system.

Objective To investigate whether vitamin C can promote the proliferation ability of bone marrow mesenchymal stem cells (BMMSCs) derived from aging mice. Methods The senescence-accelerated mouse prone 6 (SAMP6) mice and senescence-accelerated mouse resistant 1 (SAMR1) mice were used as the test group and the control group, respectively, and the SAMP6 mice were examined by micro-CT to verify the senescent phenotype. BMMSCs were harvested from the two mouse lines and cultured in vitro, and the cells from SAMP6 mice were subjected to treatment with different concentrations of vitamin C. The proliferation ability of the cells from the two mouse lines was tested using MTT assay and growth curves, and TeloTAGGG Telomerase PCR ELISA was used to measure the telomerase activity;PCR and Western blotting were performed to detect the expression level of telomerase reverse transcriptase (TERT) in the cells. Results The SAMP6 mice displayed a bone senescent phenotype. The proliferation ability of BMMSCs derived from SAMP6 mice and their telomerase activity were significantly lower than those derived from SAMR1 mice (P<0.05). Vitamin C treatment significantly enhanced the proliferation ability of BMMSCs derived from SAMP6 mice in a dose-dependent manner (P<0.05) and increased telomerase activity and TERT expression in the cells (P<0.05). At the concentration of 100μg/mL, vitamin C produced the strongest effect in promoting the proliferation of BMMSCs from SAMP6 mice, while at the concentration of 1000μg/ml, growth suppression occurred in the cells. Conclusion Vitamin C can promote the proliferation of BMMSCs from aging mice possibly by increasing the cellular telomerase activity.

OBJECTIVETo investigate whether vitamin C can promote the proliferation ability of bone marrow mesenchymal stem cells (BMMSCs) derived from aging mice.

METHODSThe senescence-accelerated mouse prone 6 (SAMP6) mice and senescence-accelerated mouse resistant 1 (SAMR1) mice were used as the test group and the control group, respectively, and the SAMP6 mice were examined by micro-CT to verify the senescent phenotype. BMMSCs were harvested from the two mouse lines and cultured in vitro, and the cells from SAMP6 mice were subjected to treatment with different concentrations of vitamin C. The proliferation ability of the cells from the two mouse lines was tested using MTT assay and growth curves, and TeloTAGGG Telomerase PCR ELISA was used to measure the telomerase activity; PCR and Western blotting were performed to detect the expression level of telomerase reverse transcriptase (TERT) in the cells.

RESULTSThe SAMP6 mice displayed a bone senescent phenotype. The proliferation ability of BMMSCs derived from SAMP6 mice and their telomerase activity were significantly lower than those derived from SAMR1 mice (P<0.05). Vitamin C treatment significantly enhanced the proliferation ability of BMMSCs derived from SAMP6 mice in a dose-dependent manner (P<0.05) and increased telomerase activity and TERT expression in the cells (P<0.05). At the concentration of 100 µg/mL, vitamin C produced the strongest effect in promoting the proliferation of BMMSCs from SAMP6 mice, while at the concentration of 1000 µg/ml, growth suppression occurred in the cells.

CONCLUSIONVitamin C can promote the proliferation of BMMSCs from aging mice possibly by increasing the cellular telomerase activity.

Aging ; Animals ; Ascorbic Acid ; chemistry ; Bone Marrow Cells ; cytology ; Cell Proliferation ; Cells, Cultured ; Culture Media ; chemistry ; Hematopoietic Stem Cells ; Mesenchymal Stromal Cells ; cytology ; Mice ; Telomerase ; metabolism

Sympathetic cues via the adrenergic signaling critically regulate bone homeostasis and contribute to neurostress-induced bone loss, but the mechanisms and therapeutics remain incompletely elucidated. Here, we reveal an osteoclastogenesis-centered functionally important osteopenic pathogenesis under sympatho-adrenergic activation with characterized microRNA response and efficient therapeutics. We discovered that osteoclastic miR-21 was tightly regulated by sympatho-adrenergic cues downstream the β2-adrenergic receptor (β₂AR) signaling, critically modulated osteoclastogenesis in vivo by inhibiting programmed cell death 4 (Pdcd4), and mediated detrimental effects of both isoproterenol (ISO) and chronic variable stress (CVS) on bone. Intriguingly, without affecting osteoblastic bone formation, bone protection against ISO and CVS was sufficiently achieved by a (D-Asp₈)-lipid nanoparticle-mediated targeted inhibition of osteoclastic miR-21 or by clinically relevant drugs to suppress osteoclastogenesis. Collectively, these results unravel a previously underdetermined molecular and functional paradigm that osteoclastogenesis crucially contributes to sympatho-adrenergic regulation of bone and establish multiple targeted therapeutic strategies to counteract osteopenias under stresses.
Adrenergic Agents/pharmacology* ; Apoptosis Regulatory Proteins/pharmacology* ; Bone Diseases, Metabolic/metabolism* ; Humans ; Liposomes ; MicroRNAs/genetics* ; Nanoparticles ; Osteoclasts ; Osteogenesis/physiology* ; RNA-Binding Proteins/pharmacology*