Nano-in-Micro Dual Delivery Platform for Chronic Wound Healing Applications

Zárubová, Jana; Hasani-Sadrabadi, Mohammad Mahdi; Bačáková, Lucie; Li, Song

doi:10.3390/mi11020158

Cited by 11 publications

(10 citation statements)

References 40 publications

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“…Gentamicin as a model antibiotic drug was mixed with PLL (1:1 mass ratio) and used during the LbL coating process. Detailed information on gentamicin loading and release procedure are in Appendix (Zarubova et al 2020). The release was evaluated for 3 initial loading levels of 5-, 10-, and 75-µg gentamicin per implant.…”

Section: Methodsmentioning

confidence: 99%

Antibacterial and Osteoinductive Implant Surface Using Layer-by-Layer Assembly

et al. 2021

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Osseointegration of dental, craniofacial, and orthopedic implants is critical for their long-term success. Multifunctional surface treatment of implants was found to significantly improve cell adhesion and induce osteogenic differentiation of dental-derived stem cells in vitro. Moreover, local and sustained release of antibiotics via nanolayers from the surface of implants can present unparalleled therapeutic benefits in implant dentistry. Here, we present a layer-by-layer surface treatment of titanium implants capable of incorporating BMP-2–mimicking short peptides and gentamicin to improve their osseointegration and antibacterial features. Additionally, instead of conventional surface treatments, we employed polydopamine coating before layer-by-layer assembly to initiate the formation of the nanolayers on rough titanium surfaces. Cytocompatibility analysis demonstrated that modifying the titanium implant surface with layer-by-layer assembly did not have adverse effects on cellular viability. The implemented nanoscale coating provided sustained release of osteoinductive peptides with an antibacterial drug. The surface-functionalized implants showed successful osteogenic differentiation of periodontal ligament stem cells and antimicrobial activity in vitro and increased osseointegration in a rodent animal model 4 wk postsurgery as compared with untreated implants. Altogether, our in vitro and in vivo studies suggest that this approach can be extended to other dental and orthopedic implants since this surface functionalization showed improved osseointegration and an enhanced success rate.

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Section: Methodsmentioning

confidence: 99%

Antibacterial and Osteoinductive Implant Surface Using Layer-by-Layer Assembly

et al. 2021

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“…89 Prolonged inflammation caused by low concentrations of GFs can hinder proper angiogenesis and delay the wound healing process, rendering wounds more vulnerable to bacterial infections. Zarubova et al 90 employed microencapsulation techniques to create VEGF-loaded microparticles (MP-VEGF), using a combination of alginate and heparin. The inclusion of heparin enhanced the affinity of the microparticles for the GF.…”

Section: Microparticlesmentioning

confidence: 99%

Revolutionizing Wound Healing: Exploring Scarless Solutions through Drug Delivery Innovations

Alavi,

Nisa

et al. 2024

Mol. Pharmaceutics

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Human skin is the largest organ and outermost surface of the human body, and due to the continuous exposure to various challenges, it is prone to develop injuries, customarily known as wounds. Although various tissue engineering strategies and bioactive wound matrices have been employed to speed up wound healing, scarring remains a significant challenge. The wound environment is harsh due to the presence of degradative enzymes and elevated pH levels, and the physiological processes involved in tissue regeneration operate on distinct time scales. Therefore, there is a need for effective drug delivery systems (DDSs) to address these issues. The objective of this review is to provide a comprehensive exposition of the mechanisms underlying the skin healing process, the factors and materials used in engineering DDSs, and the different DDSs used in wound care. Furthermore, this investigation will delve into the examination of emergent technologies and potential avenues for enhancing the efficacy of wound care devices.

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“…The low concentration of growth factors is one of the causes of inflammatory process prolongation, which causes insufficient angiogenesis and delays healing of wounds that become more susceptible to bacterial infections. Thinking about it, Zarubova et al [ 86 ] microencapsulated the vascular endothelial growth factor A (VEGF) in a conjugation of alginate-heparin (MP-VEGF), as heparin increases the bioaffinity for the growth factor, and co-encapsulated gentamycin-loaded nanoparticles in the resulting microparticles. In a 3D microenvironment used to test the impact of MP-VEGF on angiogenesis, more endothelial sprouts with larger size were observed in MP-VEGF samples than in the free VEFG ones.…”

Section: Polymeric Microparticles In Biological Testsmentioning

confidence: 99%

Microparticles in the Development and Improvement of Pharmaceutical Formulations: An Analysis of In Vitro and In Vivo Studies

Silva

Menezes

Oliveira

et al. 2023

IJMS

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Microparticulate systems such as microparticles, microspheres, microcapsules or any particle in a micrometer scale (usually of 1–1000 µm) are widely used as drug delivery systems, because they offer higher therapeutic and diagnostic performance compared to conventional drug delivery forms. These systems can be manufactured with many raw materials, especially polymers, most of which have been effective in improving the physicochemical properties and biological activities of active compounds. This review will focus on the in vivo and in vitro application in the last decade (2012 to 2022) of different active pharmaceutical ingredients microencapsulated in polymeric or lipid matrices, the main formulation factors (excipients and techniques) and mostly their biological activities, with the aim of introducing and discussing the potential applicability of microparticulate systems in the pharmaceutical field.

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Nano-in-Micro Dual Delivery Platform for Chronic Wound Healing Applications

Cited by 11 publications

References 40 publications

Antibacterial and Osteoinductive Implant Surface Using Layer-by-Layer Assembly

Antibacterial and Osteoinductive Implant Surface Using Layer-by-Layer Assembly

Revolutionizing Wound Healing: Exploring Scarless Solutions through Drug Delivery Innovations

Microparticles in the Development and Improvement of Pharmaceutical Formulations: An Analysis of In Vitro and In Vivo Studies

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