Dissolving polymer microneedle patches for influenza vaccination

Dissolving polymer microneedle patches for influenza vaccination

Sullivan and his colleagues describe a novel microneedle patch-based system for vaccine delivery that targets the skin's antigen-presenting cells, providing improved immunogenicity and eliminating the hazards associated with using hypodermic needles. The group demonstrates the feasibility of th...

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Bibliographic Details
Published in:Nature medicine Vol. 16; no. 8; pp. 915 - 920
Main Authors: del Pilar Martin, Maria, Murthy, Niren, Prausnitz, Mark R, Lee, Jeong Woo, Zarnitsyn, Vladimir, Choi, Seong-O, Skountzou, Ioanna, Sullivan, Sean P, Koutsonanos, Dimitrios G, Compans, Richard W
Format: Journal Article
Language:English
Published: New York Nature Publishing Group US 01-08-2010
Nature Publishing Group
Subjects:
631/92/96
692/699/255/1578
692/700/565/251/1567
Administration, Cutaneous
Adsorption
Animals
Antibody Formation - physiology
Biomedical and Life Sciences
Biomedical materials
Biomedicine
Biotechnology
Cancer Research
Dosage and administration
Dosage Forms
Health aspects
Humans
Hypodermic needles
Immunization
Immunization, Secondary - methods
Immunogenicity
Infectious Diseases
Influenza
Influenza vaccines
Influenza Vaccines - administration & dosage
Influenza Vaccines - pharmacokinetics
Influenza virus
Influenza, Human - prevention & control
Injection
Injections, Intradermal
Metabolic Diseases
Methods
Mice
Microneedle drug delivery
Molecular Medicine
Needles - utilization
Neurosciences
Orthomyxoviridae Infections - immunology
Orthomyxoviridae Infections - mortality
Orthomyxoviridae Infections - pathology
Orthomyxoviridae Infections - prevention & control
Polymers
Polymers - administration & dosage
Polymers - pharmacokinetics
Prophylaxis
technical-report
Vaccination - instrumentation
Vaccination - methods
Vaccines
United States
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Description
Summary:Sullivan and his colleagues describe a novel microneedle patch-based system for vaccine delivery that targets the skin's antigen-presenting cells, providing improved immunogenicity and eliminating the hazards associated with using hypodermic needles. The group demonstrates the feasibility of this approach for influenza prophylaxis, whereby vaccine is encapsulated within microscopic polymeric needles that dissolve in the skin in minutes. Influenza prophylaxis would benefit from a vaccination method enabling simplified logistics and improved immunogenicity without the dangers posed by hypodermic needles. Here we introduce dissolving microneedle patches for influenza vaccination using a simple patch-based system that targets delivery to skin's antigen-presenting cells. Microneedles were fabricated using a biocompatible polymer encapsulating inactivated influenza virus vaccine for insertion and dissolution in the skin within minutes. Microneedle vaccination generated robust antibody and cellular immune responses in mice that provided complete protection against lethal challenge. Compared to conventional intramuscular injection, microneedle vaccination resulted in more efficient lung virus clearance and enhanced cellular recall responses after challenge. These results suggest that dissolving microneedle patches can provide a new technology for simpler and safer vaccination with improved immunogenicity that could facilitate increased vaccination coverage.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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These authors contributed equally to this work
ISSN:1078-8956
1546-170X
DOI:10.1038/nm.2182