This study presents a simple, versatile and controllable method to achieve uniform coating on very small and densely packed micro-nanoprojections for epidermal immunotherapeutic delivery
Here we introduce a new approach for transcutaneous drug delivery, using microneedles coated with st...
The disadvantages of needle-based immunisation motivate the development of simple, low cost, needle-...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, February,...
Transcutaneous vaccine delivery has the potential to greatly improve immunization effectiveness and ...
Targeting of vaccines to abundant immune cell populations within our outer thin skin layers using mi...
Dry-coated microprojections (MPs) deliver vaccine to abundant immunogenic cells within the skin to i...
Nano- and microtechnologies are receiving increased attention in the field of topical vaccine delive...
Most vaccinations are performed by intramuscular injection with a needle and syringe. However, this ...
The 'Nanopatch' (NP) comprises arrays of densely packed projections with a defined geometry and dist...
Current vaccine and therapeutic delivery is largely needle-based, [1] but a number of inherent risks...
Skin is a highly immunogenic site for vaccine delivery due to its richness of antigen-presenting cel...
The World Health Organization estimates that the pandemic caused by the SARS-CoV-2 virus claimed mor...
The living epidermis and dermis are rich in antigen presenting cells (APCs). Their activation can el...
Better delivery systems are needed for routinely used vaccines, to improve vaccine uptake. Many vacc...
Micro-device use for vaccination has grown in the past decade, with the promise of ease-of-use, pain...
Here we introduce a new approach for transcutaneous drug delivery, using microneedles coated with st...
The disadvantages of needle-based immunisation motivate the development of simple, low cost, needle-...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, February,...
Transcutaneous vaccine delivery has the potential to greatly improve immunization effectiveness and ...
Targeting of vaccines to abundant immune cell populations within our outer thin skin layers using mi...
Dry-coated microprojections (MPs) deliver vaccine to abundant immunogenic cells within the skin to i...
Nano- and microtechnologies are receiving increased attention in the field of topical vaccine delive...
Most vaccinations are performed by intramuscular injection with a needle and syringe. However, this ...
The 'Nanopatch' (NP) comprises arrays of densely packed projections with a defined geometry and dist...
Current vaccine and therapeutic delivery is largely needle-based, [1] but a number of inherent risks...
Skin is a highly immunogenic site for vaccine delivery due to its richness of antigen-presenting cel...
The World Health Organization estimates that the pandemic caused by the SARS-CoV-2 virus claimed mor...
The living epidermis and dermis are rich in antigen presenting cells (APCs). Their activation can el...
Better delivery systems are needed for routinely used vaccines, to improve vaccine uptake. Many vacc...
Micro-device use for vaccination has grown in the past decade, with the promise of ease-of-use, pain...
Here we introduce a new approach for transcutaneous drug delivery, using microneedles coated with st...
The disadvantages of needle-based immunisation motivate the development of simple, low cost, needle-...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, February,...
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