
Thomas Pho
Appearances
- DateAugust 22, 2021Intranasal delivery of vaccines is a needle-free route that can induce production of mucosal antibodies and cellular responses to neutralize viruses and pathogens before entering systemic circulation…
Presenter
Speaker
Associate Professor, Georgia Institute of Technology - DateMarch 20, 2022Intranasal delivery of vaccines is a needle-free route that can induce production of mucosal antibodies and cellular responses to neutralize viruses and pathogens before entering systemic circulation…
Presenter
Speaker
Associate Professor, Georgia Institute of Technology - Intranasal delivery of vaccines is a needle-free route that can induce production of mucosal antibodies and cellular responses to neutralize viruses and pathogens before entering systemic circulation…
Presenter
Speaker
Associate Professor, Georgia Institute of Technology - Intranasal delivery of vaccines is a needle-free route that can induce production of mucosal antibodies and cellular responses to neutralize viruses and pathogens before entering systemic circulation…
Speakers
Associate Professor, Georgia Institute of Technology - : [COLL] Division of Colloid & Surface Chemistry
Speakers
Clarkson UniversityOak Ridge National LaboratoryUniversity of Illinois at Urbana-ChampaignSRNL & UGAUniversity of Illinois at ChicagoAssociate Professor, Georgia Institute of TechnologyUniversitat Politècnica de CatalunyaPostdoc Fellow, Polytechnic University of Catalonia (UPC)Graduate Student, Mississippi State UniversityNicholas C. Fitzkee, Ph.D.Professor of Chemistry, Mississippi State University - Intranasal delivery of vaccines is a needle-free route that can induce production of mucosal antibodies and cellular responses to neutralize viruses and pathogens before entering systemic circulation…
Speakers
Associate Professor, Georgia Institute of Technology - : [COLL] Division of Colloid & Surface Chemistry
Speakers
Clarkson UniversityOak Ridge National LaboratoryUniversity of Illinois at Urbana-ChampaignSRNL & UGAUniversity of Illinois at ChicagoAssociate Professor, Georgia Institute of TechnologyUniversitat Politècnica de CatalunyaPostdoc Fellow, Polytechnic University of Catalonia (UPC)Graduate Student, Mississippi State UniversityNicholas C. Fitzkee, Ph.D.Professor of Chemistry, Mississippi State University - Intranasal delivery of vaccines is a needle-free route that can induce production of mucosal antibodies and cellular responses to neutralize viruses and pathogens before entering systemic circulation…
Speakers
Associate Professor, Georgia Institute of Technology - : [COLL] Division of Colloid & Surface Chemistry
Speakers
Clarkson UniversityOak Ridge National LaboratoryUniversity of Illinois at Urbana-ChampaignSRNL & UGAUniversity of Illinois at ChicagoAssociate Professor, Georgia Institute of TechnologyUniversitat Politècnica de CatalunyaPostdoc Fellow, Polytechnic University of Catalonia (UPC)Graduate Student, Mississippi State UniversityNicholas C. Fitzkee, Ph.D.Professor of Chemistry, Mississippi State University - DateMarch 27, 2023Intranasal delivery of vaccines is a needle-free route that can induce production of mucosal antibodies and cellular responses to neutralize viruses and pathogens before entering systemic circulation…
Presenter
Speaker
Associate Professor, Georgia Institute of Technology - DateAugust 13, 2023Medical implants have focused on metallic material due to the unique physical properties such as mechanical strength and stiffness for load-bearing dental and orthopedic implants…
Presenter
Speakers
Associate Professor, Georgia Institute of Technology - DateAugust 14, 2023Intranasal delivery of vaccines is a needle-free route that can induce production of mucosal antibodies and cellular responses to neutralize viruses and pathogens before entering systemic circulation…
Presenter
Speaker
Associate Professor, Georgia Institute of Technology - DateAugust 13, 2023The efficacy of nanoparticle therapeutics is greatly limited by biological barriers that hinder access to intended sites. One biological barrier that has yet to be overcome is the mucus layer, which covers epithelial surfaces throughout the body…
Presenter
Speakers
Associate Professor, Georgia Institute of Technology - DateMarch 25, 2025Bacteria and viruses often infect the body via mucosal surfaces. Vaccination at mucosal sites, such as the nose, can induce secretion of protective mucosal antibodies and activate T cells mucosa. However, the mucus lining provides a challenging barrier to delivery of vaccines to mucosal tissue…
Presenter
Co-Authors
Graduate Student, University of California, BerkeleyC.Z. and Irmgard Chu Distinguished Professor, Yale UnivAssociate Professor, Georgia Institute of Technology