Hydrophobic pinning with copper nanowhiskers leads to bactericidal properties

Singh, Ajay Vikram; Baylan, Semanur; Park, Byung-Wook; Richter, Gunther; Sitti, Metin

doi:10.1371/journal.pone.0175428

Cited by 37 publications

(39 citation statements)

References 31 publications

(37 reference statements)

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“…The "microstreamings" can be originated from the unidirectional flow of fluid due to the movement of bubbles under the ef- fect of ultrasonic waves and inertial cavitation can be produced due to sudden growth and collapse of microbubbles (Fig. 2b) [22,26,27].…”

Section: Physical Routesmentioning

confidence: 99%

Recent Advances in Skin Penetration Enhancers for Transdermal Gene and Drug Delivery

Amjadi

Mostaghaci

Sitti

2017

CGT

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There is a growing interest in transdermal delivery systems because of their noninvasive, targeted, and on-demand delivery of gene and drugs. However, efficient penetration of therapeutic compounds into the skin is still challenging largely due to the impermeability of the outermost layer of the skin, known as stratum corneum. Recently, there have been major research activities to enhance the skin penetration depth of pharmacological agents. This article reviews recent advances in the development of various strategies for skin penetration enhancement. We show that approaches such as ultrasound waves, laser, and microneedle patches have successfully been employed to physically disrupt the stratum corneum structure for enhanced transdermal delivery. Rather than physical approaches, several non-physical route have also been utilized for efficient transdermal delivery across the skin barrier. Finally, we discuss some clinical applications of transdermal delivery systems for gene and drug delivery. This paper shows that transdermal delivery devices can potentially function for diverse healthcare and medical applications while further investigations are still necessary for more efficient skin penetration of gene and drugs.

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Section: Physical Routesmentioning

confidence: 99%

Recent Advances in Skin Penetration Enhancers for Transdermal Gene and Drug Delivery

Amjadi

Mostaghaci

Sitti

2017

CGT

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“…This was observed when cells were allowed to grow on substrates with different surface roughness (12–80 nm) . Table represents a comprehensive list of major 3D patterning technique used for patterning in neuropharmacological applications …”

Section: Applications In Neuropharmacologymentioning

confidence: 99%

“…35 Table II represents a comprehensive list of major 3D patterning technique used for patterning in neuropharmacological applications. 10,[36][37][38][39][40][41][42][43][44] The cell cytoskeleton, focal adhesion, and cell signaling components (i.e., Rho-mediated pathways) are believed to participate mechanistically in the process of topographic sensing; however, this work still is at infancy and requires further investigation. The future projection for this area of work is thus far very promising, and it is envisaged that with time, we shall have an in-depth understanding of how topographical cues affect neural cell culture.…”

Section: Applications In Neuropharmacologymentioning

confidence: 99%

“…Recently, we have shown that such shape anisotropy-based wettability could be useful for promoting interaction with mammalian cells and inhibiting bacterial colonization. 10 There are a number of technological platforms available for generating nanoparticle with different shapes and sizes. These include the molding technique referred to as particle replication in nonwetting templates (PRINT), 3D printing and the use of UV-curable microfluidic particles, and DNA Origami.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Three‐dimensional patterning in biomedicine: Importance and applications in neuropharmacology

Singh

Tanmay²,

Batuwangala

et al. 2017

J Biomed Mater Res

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Nature manufactures biological systems in three dimensions with precisely controlled spatiotemporal profiles on hierarchical length and time scales. In this article, we review 3D patterning of biological systems on synthetic platforms for neuropharmacological applications. We briefly describe 3D versus 2D chemical and topographical patterning methods and their limitations. Subsequently, an overview of introducing a third dimension in neuropharmacological research with delineation of chemical and topographical roles is presented. Finally, toward the end of this article, an explanation of how 3D patterning has played a pivotal role in relevant fields of neuropharmacology to understand neurophysiology during development, normal health, and disease conditions is described. The future prospects of organs-on-a--like devices to mimic patterned blood-brain barrier in the context of neurotherapeutic discovery and development for the prioritization of lead candidates, membrane potential, and toxicity testing are also described. © 2017 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 106B: 1369-1382, 2018.

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“…In a series of recent papers AV Singh, et al, summarize current issues in nanomedicine and cancer therapy [21][22][23][24][25]. They also discuss the gaps in the use of nano particles for cancer therapeutics [25][26][27].…”

Section: Introductionmentioning

confidence: 99%

Untitled

2017

NTMB

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Abstract"Theranostics" refers to therapy and diagnosis. This paper presents a new method for therapy or diagnosis (or both) for malignant tumors. The underlying premise is that cancer cells with their supernumerary centrioles have a significantly higher electromagnetic field than that of normal cells. This enhanced field can then serves as a "biomarker" or target for the attraction of nanoparticles -specifically: Super Paramagnetic Nanoparticles (SPIONS) which can provide the desired theranostics. Divided into nine sections, the paper provides the bases for these assertions.

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Hydrophobic pinning with copper nanowhiskers leads to bactericidal properties

Cited by 37 publications

References 31 publications

Recent Advances in Skin Penetration Enhancers for Transdermal Gene and Drug Delivery

Recent Advances in Skin Penetration Enhancers for Transdermal Gene and Drug Delivery

Three‐dimensional patterning in biomedicine: Importance and applications in neuropharmacology

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