To understand the present application of gene chip in ischemic brain damage,investigate the application value and the future trends of gene chip technology,the literatures on the application of gene chip in the research of all kinds of ischemic brain damage in the database including MEDLINE,EMBASE,CNKI and VIP were reviewed and comprehensively analyzed.Literatures showed that many differential expressed genes including the significant regulating genes in the pathomechanism and some new neuroprotective genes were found during the application in the research of brain damage including global ischemia,focal cerebral ischemia,and hypoxic ischemic brain damage.Therefore,gene chip has manifested its great application value in the research of ischemic brain damage and deserves a further investigation.

[ ABSTRACT] AIM:In order to observe the myocardial differentiation capacity of the dedifferentiated fat ( DFAT) cells treated with vitamin C in vitro.METHODS: DFAT cells were dedifferentiated from the mature rat adipocytes with ceiling adherent culture.The DFAT cells of passage 3 were used in the study.Vitamin C and/or neonatal rat heart tissue lysate were added into the culture medium to induce myocardial differentiation for 3 weeks.The cell morphology was ob-served under microscope.The myocardial-specific markers, such as cTnT, GATA-4 and NKx2.5, were examined by the methods of immunofluorescence, PCR and Western blot.RESULTS:Mature rat adipocytes dedifferentiated into fibroblast-like DFAT cells after ceiling adherent culture.The DFAT cells spontaneously differentiated into cardiomyocyte-like cells under normal culture condition with a low incidence.After treated with neonatal rat heart cell lysate, the DFAT cells be-came cardiomyocyte-like cells that had bigger size, longer shape and myotubule-structure.The expression of cTnT, GATA-4 and NKx2.5 was remarkably increased at both mRNA and protein levels as compared with the normal cultured DFAT cells.The expression of cTnT, GATA-4 and NKx2.5 was further increased in DFAT cells after treating with vitamin C.No spontaneous beating cell was observed.CONCLUSION:Vitamin C enhances the differentiation of DFAT cells into cardio-myocyte-like cells.

AIM: To analyze the results of phacovitrectomy with internal limiting membrane(ILM) peeling to treat foveoschisis in ultra-high myopia.METHODS: Totally 32 eyes of 32 ultra-high myopia patients with foveoschisis were selected retrospectively.The preoperative refractive errors ranged from-12.00D to-20.00D with the mean of-15.78±2.16D.The best corrected visiual acuity(BCVA) were converted to LogMAR acuity, and the average BCVA was 4.1±0.4.Conventional phacovitrectomy with ILM peeling by ICG dying were performed.Gas tamponade were performed to end the operation.The BCVA and the foveoschisis cavity were observed by 1-9mo after the surgery, with the mean of 4.5mo.RESULTS: The foveoschisis cavity of 30 eyes were healed with BCVA increased and visual distortion alleviated distinctly (94%)(t=-7.91, P<0.05).CONCLUSION: Phacovitrectomy with ILM peeling is useful in treating foveoschisis in ultra-high myopia with visual function preserving.

Air Pollutants, Occupational ; analysis ; Environmental Monitoring ; methods ; Sulfur Oxides ; analysis ; Workplace

In order to cultivate advanced person with ability,we should teach students some theoretics and more practical skill during microbiology teaching. after we using the measures “examining on theoretics and practical skill that must be mastering in the lesson”. Students had been more interested in microbiology,and advanced of knowledge. So “examining on theoretics and practical skill that must be mastering in the lesson” is better method in teaching of Microbiology in Occupation technique college.

Phosphatase and tensin homology deleted on chromosome 10 (PTEN) plays an important role in the proliferation,migration,differentiation,apoptosis and synapse establishment of nervous system.Elucidation of PTEN function is helpful to understand the mechanisms of neural development,and thus may find new therapies for diseases in central nervous system using PTEN as a target.

Phosphatase and tensin homology deleted on chromosome 10 (PTEN) is a tumor suppressor with dual protein and lipid phosphatase activity.PTEN is involved multisystem diseases and cancer,though the mechanisms of PTEN regulation are far from clear.Recent advances concerning regulation of PTEN including protein-protein interaction,phosphorylation,ubiquitination,oxidation and acetylation will be discussed.

Phosphatase and tensin homologue deleted on chromosome 10(PTEN) is a tumor suppressor which can inhibit proliferation and migration and control apoptosis in a number of cell types,mainly through inhibiting the phosphoinositide 3-kinase(PI3K) signaling pathway.A number of in vitro and in vivo studies has been instrumental in uncovering a direct correlation between deregulated PTEN/PI3K signaling and changes in neuronal morphogenesis,which is likely to have profound bearings upon the pathogenesis of neurological symptoms.This review outlines recent work on the function of PTEN during the formation and maintenance of neuronal circuits in the brain.