Add to ORKGArrays of microneedles (MNAs) are integrated in an out-of-plane fashion with a base plate and can serve as patches for the release of drugs and vaccines. We used soft-lithography and micromolding to manufacture ceramic nanoporous (np)MNAs. Failure modes of ceramic npMNAs are as yet poorly understood and the question remained: is our npMNA platform technology ready for microneedle (MN) assembly into patches? We investigated npMNAs by microindentation, yielding average crack fracture forces above the required insertion force for a single MN to penetrate human skin. We further developed a thumb pressure-actuated applicator-assisted npMNA insertion method, which enables anchoring of MNs in the skin by an adhesive in one handling step. Using a s...
Abstract As a hybrid between a hypodermic needle and transdermal patch, we have used microfabricatio...
AbstractA fabrication technique was reported earlier [1] to produce high aspect ratio hollow circula...
\u3cp\u3eDrug delivery through microneedles is a new form of a pharmaceutical dosage system. While s...
Arrays of microneedles (MNAs) are integrated in an out-of-plane fashion with a base plate and can se...
Arrays of microneedles (MNAs) are integrated in an out-of-plane fashion with a base plate and can se...
Nanoporous microneedle arrays from Al 2O 3 were fabricated via a micromolding process using a PDMS m...
The fabrication process of ceramic microneedle arrays (MNAs) is presented. This includes the manufac...
Conventional microneedles (MNs) are designed as an array of micrometer-sized projections that can pa...
Microneedle arrays have been proposed for drug delivery and point-of-care diagnostics to improve the...
The skin is immunologically very potent because of the high number of antigen-presenting cells in th...
\u3cp\u3eAbstract Current vaccination technology can advance from the use of novel ceramic nanoporou...
Microneedles (MNs) have been used to deliver drugs for over two decades. These platforms have been p...
Abstract As a hybrid between a hypodermic needle and transdermal patch, we have used microfabricatio...
AbstractA fabrication technique was reported earlier [1] to produce high aspect ratio hollow circula...
\u3cp\u3eDrug delivery through microneedles is a new form of a pharmaceutical dosage system. While s...
Arrays of microneedles (MNAs) are integrated in an out-of-plane fashion with a base plate and can se...
Arrays of microneedles (MNAs) are integrated in an out-of-plane fashion with a base plate and can se...
Nanoporous microneedle arrays from Al 2O 3 were fabricated via a micromolding process using a PDMS m...
The fabrication process of ceramic microneedle arrays (MNAs) is presented. This includes the manufac...
Conventional microneedles (MNs) are designed as an array of micrometer-sized projections that can pa...
Microneedle arrays have been proposed for drug delivery and point-of-care diagnostics to improve the...
The skin is immunologically very potent because of the high number of antigen-presenting cells in th...
\u3cp\u3eAbstract Current vaccination technology can advance from the use of novel ceramic nanoporou...
Microneedles (MNs) have been used to deliver drugs for over two decades. These platforms have been p...
Abstract As a hybrid between a hypodermic needle and transdermal patch, we have used microfabricatio...
AbstractA fabrication technique was reported earlier [1] to produce high aspect ratio hollow circula...
\u3cp\u3eDrug delivery through microneedles is a new form of a pharmaceutical dosage system. While s...