47 research outputs found

    District-specific dengue incidence intensity map in 2015 Tainan.

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    <p>District-specific dengue incidence intensity map in 2015 Tainan.</p

    SNPs related to traits in Aipotu, Karangar, Dancaa, and NYC by rough set theory

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    <p><b>Copyright information:</b></p><p>Taken from "Data mining of the GAW14 simulated data using rough set theory and tree-based methods"</p><p></p><p>BMC Genetics 2005;6(Suppl 1):S133-S133.</p><p>Published online 30 Dec 2005</p><p>PMCID:PMC1866803.</p><p></p

    Daily dengue incidence data for North District, Tainan city, Taiwan, from August to October, 2015.

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    <p>Daily dengue incidence data for North District, Tainan city, Taiwan, from August to October, 2015.</p

    Additional file 2 of Recognizing spatial and temporal clustering patterns of dengue outbreaks in Taiwan

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    Figure S1 Weekly Dengue Incidence Distributions and Weekly Information on Temperature, Relative Humidity, and Rainfall in 2014 and 2015 Kaohsiung. (JPG 89 kb

    Additional file 1 of Recognizing spatial and temporal clustering patterns of dengue outbreaks in Taiwan

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    Table S1 Frequency Distributions of the Number of Adjacencies Simulated on the Basis of 1 Million Random Selections in Kaohsiung. Table S2 Analysis of Scan Test for Each of 7 Risk Districts in 2014 Kaohsiung. (DOCX 17 kb

    Evidence that CO treatment promotes increased erythropoiesis by an erythropoietin-independent mechanism.

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    <p>(A) Red blood cell indices of B6 mice on garlic-supplemented or garlic-free (cellulose-supplemented) diets with or without the treatment of CO at week 38: red blood cell concentration (RBC count, 10<sup>12</sup>/L), hemoglobin concentration (HGB, g/L), hematocrit (HCT, %), mean corpuscular volume (MCV, fL), mean corpuscular hemoglobin concentration (MCHC, g/L). Statistics: +, Air-Cellulose (AC) <i>vs</i>. Air-Garlic (AG); ‡, CO-Cellulose (COC)<i>vs</i>. CO-Garlic (COG); * CO-Cellulose (COC) <i>vs</i>. Air-Cellulose (AC); #, Air-Garlic (AG) <i>vs</i>. CO-Garlic (COG). One symbol, <i>p</i><0.05; 2 symbols, <i>p</i><0.01; 3 symbols, <i>p</i><0.005; 4 symbols, <i>p</i><0.001; 6 symbols, <i>p</i><0.0001 (student’s <i>t</i> test); n = 7–10. The arrangements for each block of bars are (left to right): thick cross-hatched bars, cellulose diet and treated with CO (COC); filled bars, cellulose diet and treated with air (AC); open bars, garlic diet and treated with air (AG); thin cross-hatched bars, garlic diet and treated with CO (COG). (B) Plasma erythropoietin (EPO) levels (ng/mL), n = 4 for each set of samples at different point of the time course. Symbols are the same as those in Panel A. The pairwise comparisons between AC and COG are: week 7, <i>p</i><0.013; week 15, <i>p</i><0.003; week 23, <i>p</i> = 0.065; week 27, <i>p</i> = 0.084; week 38, <i>p</i><0.007 (student's <i>t</i> test).</p

    Mouse single nucleotide polymorphisms (SNPs) that were associated with immobility time in the FST after fluoxetine treatment (FST<sub>FLX</sub>).

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    <p>SD: standard deviation; cM: centi-morgan; LOD: logarithm (base 10) of odds; LOD<sub>(SIM)</sub>: the LOD scores derived from simple interval mapping; LOD<sub>(CIM)</sub>: LOD scores derived from composite interval mapping;</p>a<p>The proportion of contribution the genetic polymorphism on the overall variation of the immobility time in FST after fluoxetine treatment.</p>b<p>P-value for one way analysis of variance.</p>c<p>The allele that shows significantly shorter immobility time in FST after fluoxetine treatment than the other allele.</p>d<p>The list of the gene located in 1 mega-bases from the SNP.</p

    Histochemical phenotypes of spleens of C57BL/6J (n = 6) mice on cellulose-(A, C, E) and garlic-supplemented (B, D, F) diets (week 15).

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    <p>Spleen sections were shown with no staining (A, B) to reveal bilirubin, with Prussian blue stain for Fe<sup>2+</sup>(C, D), and with Gomori stain for macrophages <i>via</i> acid phosphatase and counter-stained for nuclei with methyl green (E, F). (G) Time course (n = 4) of Fe<sup>2+</sup> accumulation in the spleens due to dietary garlic (4%). (H) Dose-response (n = 6) of dietary garlic in spleen sections. Scale bars represent 200 µm (A–F). (Statistics: *, <i>p</i><0.05; ***, <i>p</i><0.005, student's <i>t</i> test). Black bars: control; gray bars: garlic diet.</p

    Morphology of RBCs from cellulose- (A, D) and garlic-supplemented (B, E) diet groups.

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    <p>RBCs were stained with Giemsa (week 6) to show darkly-stained cells (arrows in Panel B). (A) Most RBCs of control samples stained intensely around the edges rather than in the middle, reflecting their bi-concave shape. Among the uniform-sized RBCs are many small platelets and a neutrophil with a multi-lobed nucleus. (B) Darkly-stained RBCs in garlic-fed samples are non-nucleated, round or ovoid-shaped cells (arrows in Panel B) with almost the same size as the RBCs in control samples. They have more intense colors with a dark blue tint. (C) The % difference of darkly-stained cells at each time point (mean±s.e.m., n = 3–4, Brilliant Cresyl blue staining) between the two diet groups (control:black bars; garlic:gray bars) is significant (student's <i>t</i> test: *, <i>p</i><0.05; **, <i>p</i><0.01) throughout the time course. (D and E) SEM of RBCs (5000×) from control (D) and garlic-fed (E) mice (week 17). RBCs of garlic-fed samples contain more round-shaped cells (arrows in E) and those with a smaller dent at center. Scale bars: 100 µm (Panels A and B) or 5 µm (Panels D and E).</p
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