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  1. NCL Method ITA-40

    NCL Method ITA-40

    2022-10-17 21:01:00 | Contributor(s): Edward Cedrone, Marina Dobrovolskaia | doi:10.17917/NG6J-WH37

    Understanding the Role of Scavenger Receptor A1 in Nanoparticle Uptake by Murine Macrophages

  2. NCL Method ITA-37.2

    NCL Method ITA-37.2

    2022-10-17 21:03:57 | Contributor(s): Hannah Newton, Jenny Zhang, Marina Dobrovolskaia | doi:10.17917/8BPC-VN29

    Immunophenotyping: Analysis of Nanoparticle Effects on the Composition and Activation Status of Human Peripheral Blood Mononuclear Cells

  3. NCL Method ITA-37.1

    NCL Method ITA-37.1

    2022-10-17 21:04:13 | Contributor(s): Hannah Newton, Jenny Zhang, Marina Dobrovolskaia | doi:10.17917/GJ0C-JY85

    Immunophenotyping: Instrument Calibration and Reagent Qualification for Immunophenotyping Analysis of Human Peripheral Blood Mononuclear Cell Cultures

  4. NCL Method PCC-22

    NCL Method PCC-22

    2022-09-12 17:15:24 | Contributor(s): Krishna Kattel, Jeffrey Clogston | doi:10.17917/QFEP-HD46

    Residual Organic Solvent Analysis in Nanoformulations Using Headspace Gas Chromatography

  5. Guide to NCL In Vivo Studies: Efficacy, Pharmacokinetics & Toxicology

    Guide to NCL In Vivo Studies: Efficacy, Pharmacokinetics & Toxicology

    2022-10-18 15:57:42 | Contributor(s): Stephan Stern | doi:10.17917/W63A-GR02

    Novel nanoformulated chemotherapeutics and diagnostics require demonstration of efficacy and safety in appropriate animal models prior to clinical translation of the concept. Pharmacokinetic studies are also important to optimize dosing regimen.

  6. Title

    Title

    2022-04-27 17:47:20 | Contributor(s): Claire Stirm | doi:10.17917/KQTF-V254

    Abstract

  7. MS Dataverse

    MS Dataverse

    2021-12-28 15:55:19 | Contributor(s): Sundar Sreenivasan, Nolan Shawn Faherty | doi:10.17917/F11A-0K02

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  8. SEER-CAHPS User Guide

    SEER-CAHPS User Guide

    2021-12-28 15:49:37 | Contributor(s): Lisa M. Lines, Daniel H. Barch, Kim Danforth, Lisa DiMartino, Michael T. Halpern, Rebecca Lewis, Joshua Michael Medel, Diana Zabala, Michelle A. Mollica | doi:10.17917/SNGP-FQ26

    This user guide provides researchers with a compilation of guidance and information on the SEER-CAHPS data resource.

  9. NCL Method ITA-29

    NCL Method ITA-29

    2021-12-28 15:49:57 | Contributor(s): Edward Cedrone, Marina Dobrovolskaia | doi:10.17917/E65B-GP64

    Detection of nanoparticles' ability to stimulate toll-like receptors using HEK-Blue reporter cell lines

  10. Supplementals-for-ISBI2018Challenge _Paper_in_IEEE-TMI

    Supplementals-for-ISBI2018Challenge _Paper_in_IEEE-TMI

    2021-08-30 13:38:01 | Contributor(s): Keyvan Farahani, Yoga Balagurunathan | doi:10.17917/KPBC-AX38

    The ISBI 2018 Lung Nodule Malignancy Prediction Challenge, developed by a team from the Quantitative Imaging Network of the NCI, was focused on the prediction of lung nodule malignancy from two sequential LDCT screening exams. See main paper for...

  11. Endotoxin and Depyrogenation Tips

    Endotoxin and Depyrogenation Tips

    2021-12-28 15:50:26 | Contributor(s): Marina Dobrovolskaia | doi:10.17917/916B-JQ80

    Endotoxin and Depyrogenation Tips

  12. PCC of Colloidal Metal NP

    PCC of Colloidal Metal NP

    2021-06-14 13:06:47 | Contributor(s): Jeffrey Clogston | doi:10.17917/2MYC-DE76

    Parameters, Methods and Considerations for the Physicochemical Characterization of Colloidal Metal Nanoparticles

  13. PCC of Liposomal Products

    PCC of Liposomal Products

    2021-06-14 13:14:03 | Contributor(s): Jeffrey Clogston | doi:10.17917/B5N6-F154

    Parameters, Methods and Considerations for the Physicochemical Characterization of Liposomal Products

  14. PCC of Polymeric NP

    PCC of Polymeric NP

    2021-06-14 13:14:08 | Contributor(s): Jeffrey Clogston | doi:10.17917/G13J-XR95

    Parameters, Methods and Considerations for the Physicochemical Characterization of Polymeric Nanoparticles

  15. NCL Method STE-2.1

    NCL Method STE-2.1

    2021-06-11 17:26:03 | Contributor(s): Barry Neun, Timothy Potter, Marina Dobrovolskaia | doi:10.17917/DVJF-SS25

    Detection of Microbial Contamination Using Millipore Sampler Devices

  16. NCL Method STE-3

    NCL Method STE-3

    2021-06-11 20:02:46 | Contributor(s): Timothy Potter, Barry Neun, Marina Dobrovolskaia | doi:10.17917/PHFP-8573

    Detection of Mycoplasma Contamination in Nanoparticle Formulations

  17. NCL Method ITA-7

    NCL Method ITA-7

    2021-06-14 13:11:36 | Contributor(s): Timothy Potter, Edward Cedrone, Barry Neun, Marina Dobrovolskaia | doi:10.17917/T6JC-ZG30

    Detection of Nitric Oxide Production by the Macrophage Cell Line RAW264.7

  18. NCL Method ITA-14

    NCL Method ITA-14

    2021-06-14 13:11:32 | Contributor(s): Timothy Potter, Edward Cedrone, Barry Neun, Susan Strobl, Liubov Zaritskaya, Marina Dobrovolskaia | doi:10.17917/AJ1Z-2E64

    Analysis of Nanoparticle Effects on Maturation of Monocyte Derived Dendritic Cells In Vitro

  19. NCL Method PCC-21

    NCL Method PCC-21

    2021-06-14 13:11:27 | Contributor(s): Matthew Hansen, Jeffrey Clogston | doi:10.17917/SCP8-6P58

    Measuring Size and Number Concentration of Metallic Nanoparticles using SP-ICP-MS

  20. NCL Method STE-2.3

    NCL Method STE-2.3

    2021-06-14 13:11:23 | Contributor(s): Barry Neun, Timothy Potter, Marina Dobrovolskaia | doi:10.17917/WFT5-1J52

    Detection of Bacterial Contamination Using Tryptic Soy Broth Agar Plates