Brandon H. McNaughton
University of Michigan
H-index: 19
North America-United States
Top articles of Brandon H. McNaughton
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
Method and system for buoyant separation | 2024/2/6 | ||
Method and system for buoyant-particle-assisted cell therapy | 2023/10/5 | ||
System and method for buoyant particle processing | 2023/6/1 | ||
Novel Workflow for Activation and Expansion of T Cells Using Microbubble Technology | The Journal of Immunology | Jason S Ellis Crisha B Barrett Tiffany Snow Jon Roussey Maureen Carey | 2023/5/1 |
Buoyant-Antigen-Magnetic (BAM) ImmunoSeparation, isolation, and detection of Specific Pathogenic Bacterial Cells | bioRxiv | Brandon H McNaughton Jeffrey N Anker Päivö K Kinnunen | 2022/11/27 |
Microbubbles for improved nucleic acid extraction in wastewater samples for viral RNA detection | medRxiv | Casey Wegner Jon Roussey Maureen Carey Brittany Macintyre Tiffany Snow | 2022/7/12 |
Enhanced isolation of circulating tumor cells from leukapheresis material enabled by Akadeum microbubbles | Cancer Research | Edward Grimley Jon Roussey Chia Ku Carolina Livi Nadia Petlakh-Co | 2022/6/15 |
Novel workflow enables enhanced tissue dissociation and gentle clean-up for single cell applications | Cancer Research | Chananat Klomsiri Edward Grimley Jon Roussey Carolina Livi Casey Wegner | 2022/6/15 |
Buoyancy Activated Cell Separation (BACS™) Microbubbles for Lysis and Ficoll Free Processing of Leukopaks | The Journal of Immunology | Edward C Grimley Jon Roussey Chia Ku Tiffany Snow Casey Wegner | 2022/5/1 |
Flotation-Based T Cell Isolation, Activation, and Expansion from Human Peripheral Blood Mononuclear Cell Samples Using Microbubbles | JoVE (Journal of Visualized Experiments) | Tiffany Snow Jon Roussey Casey Wegner Brandon McNaughton | 2022/12/23 |
A superior dead cell removal platform using Akadeum’s BACS microbubbles | The Journal of Immunology | Edward C Grimley Jon Roussey Nadia Petlakh-Co Casey Wegner Brandon McNaughton | 2021/5/1 |
Multi-Mode Separation for Target Detection and Cell Growth Monitoring | 2021/5/27 |