ProfessorsProfessors of University of MichiganBrandon H. McNaughton

Brandon H. McNaughton

University of Michigan

H-index: 19

North America-United States

About Brandon H. McNaughton

Brandon H. McNaughton, With an exceptional h-index of 19 and a recent h-index of 11 (since 2020), a distinguished researcher at University of Michigan, specializes in the field of Magnetic beads, biomedical engineering, medical devices, nanotechnology, scientific expeditions.

His recent articles reflect a diverse array of research interests and contributions to the field:

Method and system for buoyant separation

Method and system for buoyant-particle-assisted cell therapy

System and method for buoyant particle processing

Novel Workflow for Activation and Expansion of T Cells Using Microbubble Technology

Buoyant-Antigen-Magnetic (BAM) ImmunoSeparation, isolation, and detection of Specific Pathogenic Bacterial Cells

Microbubbles for improved nucleic acid extraction in wastewater samples for viral RNA detection

Enhanced isolation of circulating tumor cells from leukapheresis material enabled by Akadeum microbubbles

Novel workflow enables enhanced tissue dissociation and gentle clean-up for single cell applications

Brandon H. McNaughton Information

University	University of Michigan
Position	___
Citations(all)	1218
Citations(since 2020)	313
Cited By	1103
hIndex(all)	19
hIndex(since 2020)	11
i10Index(all)	25
i10Index(since 2020)	12
Email	Access Email
University Profile Page	University of Michigan
Google Scholar	View Google Scholar Profile

Brandon H. McNaughton Skills & Research Interests

Magnetic beads

biomedical engineering

medical devices

nanotechnology

scientific expeditions

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