Add to ORKGWe present a simple and customizable microneedle mold fabrication technique using a low-cost desktop SLA 3D printer. As opposed to conventional microneedle fabrication methods, this technique neither requires complex and expensive manufacturing facilities nor expertise in microfabrication. While most low-cost 3D-printed microneedles to date display low aspect ratios and poor tip sharpness, we show that by introducing a two-step “Print & Fill” mold fabrication method, it is possible to obtain high-aspect ratio sharp needles that are capable of penetrating tissue. Studying first the effect of varying design input parameters and print settings, it is shown that printed needles are always shorter than specified. With decreasing input height, ne...
[[abstract]]This research utilizes two kinds of materials to fabricate the ideal shape of microneedl...
Silicon microneedle arrays (MNAs) have been widely studied due to their potential in various transde...
This paper presents a new fabrication method consisting of lithographically defining multiple layers...
We present a simple and customizable microneedle mold fabrication technique using a low-cost desktop...
Abstract Purpose Microneedle patches are arrays of tiny needles that painlessly pierce the skin to d...
Microneedle arrays have been proposed for drug delivery and point-of-care diagnostics to improve the...
Microneedles, arrays of micron-sized needles that painlessly puncture the skin, enable transdermal d...
Additive manufacturing is a technology that can be successfully used in pharmacy and medicine. One o...
AbstractA novel manufacturing process for fabricating microneedle arrays (MN) has been designed and ...
In order to produce disposable microneedles for blood-collection devices in smart homecare monitorin...
In this study, we have employed Digital Light Processing (DLP) printing technology for the fabricati...
In recent years, interest in microneedle devices for drug and vaccine delivery and point-of-care dia...
Microneedles (MNs) represent the concept of attractive, minimally invasive puncture devices of micro...
Abstract A microneedle (MN) array is a novel biomedical device adopted in medical applications to pi...
Silicon microneedle arrays (MNAs) have been widely studied due to their potential in various transde...
[[abstract]]This research utilizes two kinds of materials to fabricate the ideal shape of microneedl...
Silicon microneedle arrays (MNAs) have been widely studied due to their potential in various transde...
This paper presents a new fabrication method consisting of lithographically defining multiple layers...
We present a simple and customizable microneedle mold fabrication technique using a low-cost desktop...
Abstract Purpose Microneedle patches are arrays of tiny needles that painlessly pierce the skin to d...
Microneedle arrays have been proposed for drug delivery and point-of-care diagnostics to improve the...
Microneedles, arrays of micron-sized needles that painlessly puncture the skin, enable transdermal d...
Additive manufacturing is a technology that can be successfully used in pharmacy and medicine. One o...
AbstractA novel manufacturing process for fabricating microneedle arrays (MN) has been designed and ...
In order to produce disposable microneedles for blood-collection devices in smart homecare monitorin...
In this study, we have employed Digital Light Processing (DLP) printing technology for the fabricati...
In recent years, interest in microneedle devices for drug and vaccine delivery and point-of-care dia...
Microneedles (MNs) represent the concept of attractive, minimally invasive puncture devices of micro...
Abstract A microneedle (MN) array is a novel biomedical device adopted in medical applications to pi...
Silicon microneedle arrays (MNAs) have been widely studied due to their potential in various transde...
[[abstract]]This research utilizes two kinds of materials to fabricate the ideal shape of microneedl...
Silicon microneedle arrays (MNAs) have been widely studied due to their potential in various transde...
This paper presents a new fabrication method consisting of lithographically defining multiple layers...