Design and Analysis of a New Cerebrospinal Fluid Drainage Separation Device / 医用生物力学

Objective Based on the existing clinical drainage device, two novel mechanisms were designed for the connection between the drainage tube of the patient and the drainage tube of the drainage bag, so as to compare such two mechanisms and validate whether the mechanisms can meet the design requirements for clinical use. Methods Mechanism 1 used the method of electromagnetic drive to pull in and Mechanism 2 used the magnetization method of permanent magnet to pull in. The finite element model of static electromagnetic field was established. The force of the two mechanisms under different currents was compared, and the distribution of magnetic field lines and magnetic induction intensity was analyzed. Simulation experiments were designed for preliminary experimental research. Results Under the pull-in state, the maximum magnetic induction of Mechanism 1 and Mechanism 2 at the closed end surface was found in contact area of the two iron cores. The suction force of Mechanism 1 could be adjusted by the current. When the current was 1 A, the maximum magnetic induction intensity at the closed end was 0.76 T, the electromagnetic force measured by the experiment was 6.08 N, the magnetic force of Mechanism 2 was 6.68 N, which was smaller than the 8 N suture tension. Mechanism 2 was separated by supplying the driving coil with a reverse magnetic field. Conclusions When the current was 1 A, Mechanism 1 could meet the magnetic attraction requirements, and Mechanism 2 could be separated when the current reached 1.8 A. Both mechanisms met the requirements of clinical design, but Mechanism 2 was more secure in the process of application. The feasibility of the mechanism structure was verified by finite element analysis and experimental test.

Characteristics of a novel human testis-specific gene, HSD-9, and its encoding protein / 中国医学科学院学报

<p><b>OBJECTIVE</b>To study the characteristics of a novel human testis-specific gene, HSD-9, and its encoding protein.</p><p><b>METHODS</b>HSD-9 was a novel gene from a human germ cells-specific ESTs library established in our laboratory. We used an electronic cloning method to obtain HSD-9 gene, and analyzed the characteristics of this novel gene and encoding product by bioinformatics methods, detected its expressing profile using a Northern blot assay, prepared specific rabbit polyclonal antibodies against HSD-9 protein, observed the localization of this protein in the germ cells and some somatic cells with confocal microscopy.</p><p><b>RESULTS</b>HSD-9 was expressed in human testes, and its rat homolog was found in the varying germ cells. HSD-9 protein could partly be colocalized with clathrin.</p><p><b>CONCLUSIONS</b>HSD-9 is specific in human testes, and the expression pattern of its encoding product is similar to those of some endocytosis proteins. It is speculated that HSD-9 protein may function in the endocytosis.</p>

CELL CHEMICAL CHARACTERISTICS AND 16S rDNA SEQUENCE ANALYSIS OF A BLUE-PIGMENT-PRODUCING STRAIN / 微生物学通报

An actinomycetes which produced soluble blue pigment was isolated from the soil sample in Nanjing,China.Based on its cell chemical characteristics and 16S rDNA sequence we found that its cell wall contained L-diaminopimelic acid and glycine,the whole cell hydrolysates contained glucose and ribose,whole cell contained fatty acid from C14 to C17 with 12-methyltetradecanoic(anteiso-15) and 14-methylpentadentadecanoic acid(iso-16) as the major components.The results shown that,it belongs to the genus Streptomyces.Phylogenetic tree of 16S rDNA sequences indicated that all strains were clustered into 9 branches.All strains that could produce blue pigment were clustered into 2 branches,they were S.coelicolor、S.cyaneus.The isolate closely related to Streptomyces indigocolor with a similarity of 99.4% fell into S.cyaneus branch.