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Showing 421 - 440 results of 21,342 for search '(( significant decrease decrease ) OR ( significantly ((mean decrease) OR (point decrease)) ))', query time: 0.51s Refine Results
  1. 421
    Large state-wide variation (8.6-fold) in number of clozapine prescriptions per thousand Medicare Part D enrollees in 2018 <sup>a</sup> indicates ≥1.50 SD (17.9) from the mean (32.9), which is denoted by the dotted line. <sup>b</sup> indicates ≥1.96 SD from the mean.

    Large state-wide variation (8.6-fold) in number of clozapine prescriptions per thousand Medicare Part D enrollees in 2018 <sup>a</sup> indicates ≥1.50 SD (17.9) from the mean (32.9... by Luke R. Cavanah (19022435)

    Published 2025
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  2. 422
    Large state-wide variation (11.1-fold) in number of clozapine prescriptions per thousand Medicare Part D enrollees in 2015 <sup>a</sup> indicates ≥1.50 SD (20.2) from the mean (36.4), which is denoted by the dotted line. <sup>b</sup> indicates ≥1.96 SD from the mean.

    Large state-wide variation (11.1-fold) in number of clozapine prescriptions per thousand Medicare Part D enrollees in 2015 <sup>a</sup> indicates ≥1.50 SD (20.2) from the mean (36.... by Luke R. Cavanah (19022435)

    Published 2025
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  3. 423
    Large state-wide variation (8.6-fold) in number of clozapine prescriptions per thousand Medicare Part D enrollees in 2017 <sup>a</sup> indicates ≥1.50 SD (18.0) from the mean (33.1), which is denoted by the dotted line. <sup>b</sup> indicates ≥1.96 SD from the mean.

    Large state-wide variation (8.6-fold) in number of clozapine prescriptions per thousand Medicare Part D enrollees in 2017 <sup>a</sup> indicates ≥1.50 SD (18.0) from the mean (33.1... by Luke R. Cavanah (19022435)

    Published 2025
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  4. 424
    Large state-wide variation (8.5-fold) in number of clozapine prescriptions per thousand Medicare Part D enrollees in 2019 <sup>a</sup> indicates ≥1.50 SD (16.8) from the mean (31.0), which is denoted by the dotted line. <sup>b</sup> indicates ≥1.96 SD from the mean.

    Large state-wide variation (8.5-fold) in number of clozapine prescriptions per thousand Medicare Part D enrollees in 2019 <sup>a</sup> indicates ≥1.50 SD (16.8) from the mean (31.0... by Luke R. Cavanah (19022435)

    Published 2025
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  5. 425
    Large state-wide variation (8.6-fold) in number of clozapine prescriptions per thousand Medicare Part D enrollees in 2020 <sup>a</sup> indicates ≥1.50 SD (16.0) from the mean (29.9), which is denoted by the dotted line. <sup>b</sup> indicates ≥1.96 SD from the mean.

    Large state-wide variation (8.6-fold) in number of clozapine prescriptions per thousand Medicare Part D enrollees in 2020 <sup>a</sup> indicates ≥1.50 SD (16.0) from the mean (29.9... by Luke R. Cavanah (19022435)

    Published 2025
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  6. 426
    Large state-wide variation (10.2-fold) in number of clozapine prescriptions per thousand Medicare Part D enrollees in 2016 <sup>a</sup> indicates ≥1.50 SD (19.2) from the mean (34.8), which is denoted by the dotted line. <sup>b</sup> indicates ≥1.96 SD from the mean.

    Large state-wide variation (10.2-fold) in number of clozapine prescriptions per thousand Medicare Part D enrollees in 2016 <sup>a</sup> indicates ≥1.50 SD (19.2) from the mean (34.... by Luke R. Cavanah (19022435)

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  7. 427
    SBP3 KD decreases the surface localization of VESA-1.

    SBP3 KD decreases the surface localization of VESA-1. by Atefeh Fathi (7370876)

    Published 2024
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  8. 428
    Overexpression of EhRacM decreased dextran macropinocytosis efficiency.

    Overexpression of EhRacM decreased dextran macropinocytosis efficiency. by Misato Shimoyama (20189888)

    Published 2024
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  9. 429
    MWM training data.

    MWM training data. by Robert Botelho (20308297)

    Published 2024
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  10. 430
    Spatial exploration patterns of tumor bearing mice under different treatment conditions in the Morris Water Maze (MWM).

    Spatial exploration patterns of tumor bearing mice under different treatment conditions in the Morris Water Maze (MWM). by Robert Botelho (20308297)

    Published 2024
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  11. 431
    Spatial exploration patterns of non-tumor bearing mice under different treatment conditions in the Morris Water Maze (MWM).

    Spatial exploration patterns of non-tumor bearing mice under different treatment conditions in the Morris Water Maze (MWM). by Robert Botelho (20308297)

    Published 2024
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  12. 432
    Amplitude for A/L = 0.29.

    Amplitude for A/L = 0.29. by Muhammad Hammad Bucha (21736111)

    Published 2025
    “…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”
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  13. 433
    Top view of the experimental setup.

    Top view of the experimental setup. by Muhammad Hammad Bucha (21736111)

    Published 2025
    “…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”
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  14. 434
    Amplitude for A/L = 0.338.

    Amplitude for A/L = 0.338. by Muhammad Hammad Bucha (21736111)

    Published 2025
    “…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”
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  15. 435
    Parameters of energy harvesting.

    Parameters of energy harvesting. by Muhammad Hammad Bucha (21736111)

    Published 2025
    “…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”
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  16. 436
    Graph for Max Amplitude/Length at G<sub>y</sub> = 0.

    Graph for Max Amplitude/Length at G<sub>y</sub> = 0. by Muhammad Hammad Bucha (21736111)

    Published 2025
    “…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”
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  17. 437
    Amplitude for A/L = 0.02.

    Amplitude for A/L = 0.02. by Muhammad Hammad Bucha (21736111)

    Published 2025
    “…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”
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  18. 438
    Graph for maximum Frequency at G<sub>y</sub> = 0.

    Graph for maximum Frequency at G<sub>y</sub> = 0. by Muhammad Hammad Bucha (21736111)

    Published 2025
    “…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”
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  19. 439
    Graph for maximum Power at G<sub>y</sub> = 0.

    Graph for maximum Power at G<sub>y</sub> = 0. by Muhammad Hammad Bucha (21736111)

    Published 2025
    “…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”
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  20. 440
    Amplitude for A/L = 0.03.

    Amplitude for A/L = 0.03. by Muhammad Hammad Bucha (21736111)

    Published 2025
    “…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”
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