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  1. Draft of a Draft

    Draft of a Draft

    2021-05-14 17:11:40 | Contributor(s): Jacob Walter DeGoes | doi:10.17917/ZC0T-XR81

    Its a draft

  2. HINTS 5 Cycle 2

    HINTS 5 Cycle 2

    2019-10-10 17:20:28 | Contributor(s): Kelly Blake, Rick P Moser | doi:10.17917/9ZHH-4B57

    This is the data from the HINTS 5 Cycle 2

  3. HINTS 5 Cycle 2 11.27

    HINTS 5 Cycle 2 11.27

    2019-11-27 15:07:38 | Contributor(s): Kelly Blake, Rick P Moser | doi:10.17917/TRW8-MJ04

    this is for the hints 5 cycle 2 11/27

  4. Hints 5 Cycle 2.1

    Hints 5 Cycle 2.1

    2019-11-27 14:46:55 | Contributor(s): Kelly Blake | doi:10.17917/GT41-AB48

    This is the Hints 5 Cycle 2

  5. HINTS 5, Cycle 2 Dataset

    HINTS 5, Cycle 2 Dataset

    2019-09-18 14:11:05 | Contributor(s): Kelly Blake | doi:10.17917/JNFG-T497

    HINTS 5, Cycle 2 (2018) data were collected from Jan through May, 2018. Sample design consisted of a single-mode mail survey, using the Next Birthday Method for respondent selection. Complete data were collected from 3,504 respondents.

  6. ITCR Active Portfolio 2016

    ITCR Active Portfolio 2016

    2016-10-19 17:25:44 | Contributor(s): Mervi Heiskanen

    ITCR Active Grants October 2016

  7. NCL Method GTA-1

    NCL Method GTA-1

    2020-07-09 19:12:35 | Contributor(s): Stephan Stern, Pavan Adiseshaiah, Timothy Potter | doi:10.17917/Q6EC-XC97

    This protocol describes the cytotoxicity testing of nanoparticle formulations porcine proximal tubule cells (LLC-PK1), as part of the in vitro NCL preclinical characterization cascade.

  8. NCL Method GTA-11

    NCL Method GTA-11

    2020-07-09 19:16:40 | Contributor(s): Stephan Stern, Chris McLeland, Jamie Rodriguez | doi:10.17917/WY7Z-MD10

    Autophagic Dysfunction Assay: Qualitative Analysis of MAP LC3-I to LC3-II Conversion By Western Blot

  9. NCL Method GTA-12

    NCL Method GTA-12

    2020-07-09 19:20:17 | Contributor(s): Stephan Stern, Barry Neun | doi:10.17917/YPTH-N396

    Autophagic Dysfunction in LLC-PK1 Cells

  10. NCL Method GTA-13

    NCL Method GTA-13

    2020-05-04 20:29:05 | Contributor(s): Stephan Stern | doi:10.17917/ZMDT-FP49

    In Vitro Blood Partitioning Assay

  11. NCL Method GTA-14

    NCL Method GTA-14

    2020-07-09 19:47:27 | Contributor(s): Stephan Stern, Barry Neun | doi:10.17917/95VC-ZP26

    Hep G2 Hepatocarcinoma Homogeneous Apoptosis Assay

  12. NCL Method GTA-2

    NCL Method GTA-2

    2020-07-09 19:13:23 | Contributor(s): Stephan Stern, Pavan Adiseshaiah, Timothy Potter | doi:10.17917/96Z2-NZ61

    Hep G2 Hepatocarcinoma Cytotoxicity Assay

  13. NCL Method GTA-3

    NCL Method GTA-3

    2020-07-09 19:15:53 | Contributor(s): Stephan Stern, Timothy Potter, Barry Neun | doi:10.17917/EHR9-HB86

    Hep G2 Hepatocyte Glutathione Assay

  14. NCL Method GTA-4

    NCL Method GTA-4

    2020-07-09 19:16:06 | Contributor(s): Stephan Stern, Timothy Potter, Barry Neun | doi:10.17917/H65D-SJ70

    Hep G2 Hepatocyte Lipid Peroxidation Assay

  15. NCL Method GTA-5

    NCL Method GTA-5

    2020-07-09 19:16:17 | Contributor(s): Stephan Stern, Timothy Potter | doi:10.17917/E9YS-N327

    LLC-PK1 Kidney Cell Apoptosis Assay

  16. NCL Method GTA-6

    NCL Method GTA-6

    2020-07-09 19:16:27 | Contributor(s): Stephan Stern, Timothy Potter | doi:10.17917/3F7T-M688

    HepG2 Hepatocarcinoma Apoptosis Assay

  17. NCL Method GTA-7

    NCL Method GTA-7

    2020-07-09 19:16:33 | Contributor(s): Stephan Stern, Banu Zolnik | doi:10.17917/0WF6-GX40

    Hepatocyte Primary ROS Assay

  18. NCL Method IEA-1

    NCL Method IEA-1

    2020-07-09 19:57:21 | Contributor(s): Julia Bui, Edward Cedrone, Naichen Yu, Marina Dobrovolskaia | doi:10.17917/GS4C-N171

    Analysis of nanoparticle effects on invasion of cancer cells

  19. NCL Method ITA-1

    NCL Method ITA-1

    2020-07-24 20:49:34 | Contributor(s): Barry Neun, Anna Ilinskaya, Marina Dobrovolskaia | doi:10.17917/V9AP-D094

    Analysis of Hemolytic Properties of Nanoparticles

  20. NCL Method ITA-10

    NCL Method ITA-10

    2020-07-09 19:55:29 | Contributor(s): Timothy Potter, Edward Cedrone, Barry Neun, Marina Dobrovolskaia | doi:10.17917/GBQR-BN14

    Preparation of Human Whole Blood and Peripheral Blood Mononuclear Cell Cultures to analyze nanoparticles potential to induce cytokines in vitro