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“Background: To describe the technique for the removal of bulky fibrin in persistent traumatic full hyphema by using anterior chamber maintainer (ACM).\n\nMethods: The ACM was used to reform and maintain the anterior chamber, and to flush out the clotted blood. The ACM cannula was inserted at the 6 o’clock position, and then a 2-mm-width contra lateral
limbal incision was made. Slight pressure applied at the posterior lip of the incision facilitated the evacuation of the clot from the anterior chamber. Visible adherence of the clot was separated Lonafarnib mw using the Sinskey hook, and firm fibrosis between fibrin and intraocular structure was cut by Vannas scissor.\n\nResults: All liquified blood was removed through corneal incision. Any clot caught at the incision was removed by cutting the clot into smaller fragments with a Vannas scissor.\n\nConclusion: ACM is a safer and affordable alternative compared to Simcoe’s cannula or vitrectomy in the removal of persistent traumatic hyphema.”
“Reaumuria soongorica (Pall.) Maxim., a resurrection semi-shrub, FK228 order is a typical constructive and dominant species in desert ecosystems in northwestern China. However, the gene expression characteristics of R. soongorica under drought stress
have not been elucidated. Digital gene expression analysis was performed using Illumina technique to investigate differentially expressed genes (DEGs) GSK1838705A between control and PEG-treated samples of R. soongorica. A total of 212,338 and 211,052 distinct tags were detected in the control and PEG-treated libraries, respectively. A total of 1,325 genes were identified as DEGs, 379 (28.6%) of which were
up-regulated and 946 (71.4%) were down-regulated in response to drought stress. Functional annotation analysis identified numerous drought-inducible genes with various functions in response to drought stress. A number of regulatory proteins, functional proteins, and proteins induced by other stress factors in R. soongorica were identified. Alteration in the regulatory proteins (transcription factors and protein kinase) may be involved in signal transduction. Functional proteins, including flavonoid biosynthetic proteins, late embryogenesis abundant (LEA) proteins, small heat shock proteins (sHSP), and aquaporin and proline transporter may play protective roles in response to drought stress. Flavonoids, LEA proteins and sHSP function as reactive oxygen species scavenger or molecular chaperone. Aquaporin and proline transporters regulate the distribution of water and proline throughout the whole plant. The tolerance ability of R. soongorica may be gained through effective signal transduction and enhanced protection of functional proteins to reestablish cellular homeostasis. DEGs obtained in this study may provide useful insights to help further understand the drought-tolerant mechanism of R. soongorica.