Low-cost and cleanroom-free fabrication of microneedles

Nejad, Hojatollah Rezaei; Sadeqi, Aydin; Kiaee, Gita; Sonkusale, Sameer

doi:10.1038/micronano.2017.73

Cited by 109 publications

(82 citation statements)

References 25 publications

(24 reference statements)

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“…Then, after mold fabrication, microneedles can be replicated on it. MN masters are usually produced by techniques such as photolithography using deep X-ray lithography of Lithographie Galvanoformung Abformung [13,16] and ultraviolet (UV) lithography [17], laser ablation [18], micromilling and microgrinding [19,20], additive manufacturing [21,22], laser percussion drilling [13,16], and deep reactive ion etching (DRIE) [23]. The produced master can be re-used to make multiple molds, and each mold can be used several times for MN fabrication after appropriate cleaning.…”

Section: Mold-based Methodsmentioning

confidence: 99%

“…The involvement of high temperatures makes this process unsuitable for the direct encapsulation of protein, limiting the application to post-encapsulation. In solvent casting, a polymer solution is added into the mold, and after that, the vacuum and/or centrifugation steps are performed to fill the mold microcavities [18,19,21,[29][30][31][32]. Long evaporation times may compromise the activity of the protein, in addition to being economically expensive [33].…”

Section: Mold-based Methodsmentioning

confidence: 99%

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Progress in Microneedle-Mediated Protein Delivery

Jamaledin

Natale

Onesto

et al. 2020

JCM

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The growing demand for patient-compliance therapies in recent years has led to the development of transdermal drug delivery, which possesses several advantages compared with conventional methods. Delivering protein through the skin by transdermal patches is extremely difficult due to the presence of the stratum corneum which restricts the application to lipophilic drugs with relatively low molecular weight. To overcome these limitations, microneedle (MN) patches, consisting of micro/miniature-sized needles, are a promising tool to perforate the stratum corneum and to release drugs and proteins into the dermis following a non-invasive route. This review investigates the fabrication methods, protein delivery, and translational considerations for the industrial scaling-up of polymeric MNs for dermal protein delivery.

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Section: Mold-based Methodsmentioning

confidence: 99%

Section: Mold-based Methodsmentioning

confidence: 99%

Progress in Microneedle-Mediated Protein Delivery

Jamaledin

Natale

Onesto

et al. 2020

JCM

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“…In vitro drug release. Gelatin hydrogel (10 wt%; Sigma Aldrich, gel strength ~300 g Bloom, Type A) derived from porcine skin was used as the model tissue for the drug release studies 11,43 . The polymer membrane (Parafilm M, American National Can, Chicago, IL) was pierced with microneedles and placed on the hydrogel surface.…”

Section: Methodsmentioning

confidence: 99%

Ultrasonically and Iontophoretically Enhanced Drug-Delivery System Based on Dissolving Microneedle Patches

Bok

Zhao

Jeon

et al. 2020

Sci Rep

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A multifunctional system comprised of hyaluronic acid microneedles was developed as an effective transdermal delivery platform for rapid local delivery. The microneedles can regulate the filling amount on the tip, by controlling the concentration of hyaluronic acid solution. Ultrasonication induces dissolution of the HA microneedles via vibration of acoustic pressure, and AC iontophoresis improves the electrostatic force-driven diffusion of HA ions and rhodamine B. The effect of ultrasound on rhodamine release was analyzed in vitro using a gelatin hydrogel. the frequency and voltage dependence of the Ac on the ion induction transfer was also evaluated experimentally. the results showed that the permeability of the material acts as a key material property. The delivery system based on ultrasonication and iontophoresis in microneedles increases permeation, thus resulting in shorter initial delivery time than that required by delivery systems based on passive or ultrasonication alone. This study highlights the significance of the combination between ultrasonic waves and iontophoresis for improving the efficiency of the microneedles, by shortening the reaction duration. We anticipate that this system can be extended to macromolecular and dependence delivery, based on drug response time.

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“…[16] The fabrication procedure is reported as illustrated in Figure 1. The answer is not trivial since the prototypes made for an experimental project are fabricated with care and attention that can be only dedicated to handmade items.…”

Section: Industrial or Handmade Manufacture?mentioning

confidence: 99%

Polymeric Microneedle Arrays: Versatile Tools for an Innovative Approach to Drug Administration

Dardano

Battisti²,

Rea

et al. 2019

Advanced Therapeutics

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Mainly designed and realized as a painless alternative to the hypodermic syringe, microneedle-based devices are currently approaching commercial market placement. The considerable academic and industrial investment in this technology is reflected by a multitude of papers published and patents registered every year, which is also a sign of a field in full fermentation. New materials and innovative methodologies are continuously exploited in search of the best performance at the lowest cost. For these reasons, an updated review, focused predominantly on the last year of scientific production, is a useful guideline in this rapidly changing panorama. This report provides a critical review of microneedle technologies presented in the very recent literature with a particular focus on those closest to the needs of the healthcare field. Although a few devices are already commercial, further effort is still needed to achieve complete clinical translation and therapeutic efficacy competitive with or superior to those of the devices used as standards and adopted by national health systems.

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Low-cost and cleanroom-free fabrication of microneedles

Cited by 109 publications

References 25 publications

Progress in Microneedle-Mediated Protein Delivery

Progress in Microneedle-Mediated Protein Delivery

Ultrasonically and Iontophoretically Enhanced Drug-Delivery System Based on Dissolving Microneedle Patches

Polymeric Microneedle Arrays: Versatile Tools for an Innovative Approach to Drug Administration

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