Regulation of the Ocular Cell/Tissue Response by Implantable Biomaterials and Drug Delivery Systems

Baino, Francesco; Kargozar, Saeid

doi:10.3390/bioengineering7030065

Cited by 19 publications

(15 citation statements)

References 202 publications

(230 reference statements)

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“…Further studies show encouraging potential to treat ocular melanomas in humans and animals. Regarding these, the use of implantable biomaterials and drug delivery systems present as therapeutic advancements for various ocular diseases [ 133 ].…”

Section: Future Bioengineering Approachesmentioning

confidence: 99%

Current Therapeutics and Future Perspectives to Ocular Melanocytic Neoplasms in Dogs and Cats

Guimarães

Cardoso

Tralhão³

et al. 2021

Bioengineering

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Neoplasms of melanocytic origin are diseases relevant to dogs and cats’ ophthalmic oncology due to their incidence, potential visual loss, and consequent decrease in life quality and expectancy. Despite its non-specific clinical presentation, melanocytic neoplasms can be histologically distinguished in melanocytomas, which present benign characteristics, and malignant melanomas. The diagnosis often occurs in advanced cases, limiting the therapeutic options. Surgery, cryotherapy, radiotherapy, photodynamic therapy (PDT), and laser are currently available therapeutic strategies. As no clinical guidelines are available, the treatment choice is primarily based on the clinician’s preference, proficiency, and the owner’s financial constraints. While surgery is curative in benign lesions, ocular melanomas present a variable response to treatments, besides the potential of tumour recurrences or metastatic disease. This review presents the currently available therapies for ocular melanocytic neoplasms in dogs and cats, describing the therapeutic, indications, and limitations. Additionally, new therapeutics being developed are presented and discussed, as they can improve the current treatment options.

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Section: Future Bioengineering Approachesmentioning

confidence: 99%

Current Therapeutics and Future Perspectives to Ocular Melanocytic Neoplasms in Dogs and Cats

Guimarães

Cardoso

Tralhão³

et al. 2021

Bioengineering

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“…Implementation of PLGA for ocular drug delivery vehicles is aimed at controlling the release of therapeutic through tunable polymer properties and improving biocompatibility and bioavailability. Altering the ratios of PGA and PLA also allows for optimization of degradation time, degrees of crystallinity, and hydrophobicity (44). Incorporation of a hydrophobic polymer can allow for selective permeation across mucus membranes if applied topically, or, if administered intravitreally, can work to minimize diffusion of therapeutic away from the target region and slow release.…”

Section: Polyestersmentioning

confidence: 99%

“…These degradation characteristics make PLGA one of the most common biomaterials found in approved polymeric ocular drug delivery vehicles. However, there have been challenges with some PLGA-based systems due to acidic degradation byproducts (44,45). Ozurdex R is an FDA approved PLGA-based intravitreal implant used for extended release of dexamethasone in treatment of retinal vein occlusion, noninfectious posterior uveitis, and DME.…”

Section: Polyestersmentioning

confidence: 99%

“…Within the field of micro-and nanotechnology, there are a variety of drug delivery vehicles such as microparticles, nanoparticles, micelles, and liposomes. These drug delivery vehicles show significant promise in the eye due to their less invasive application approaches topically as well as ease of injection through small gauge needles (44,142). These have also been explored for incorporation into drug-eluting contact lenses to facilitate topical delivery (143).…”

Section: Micro-and Nano-scale Technologiesmentioning

confidence: 99%

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Considerations for Polymers Used in Ocular Drug Delivery

et al. 2022

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PurposeAge-related eye diseases are becoming more prevalent. A notable increase has been seen in the most common causes including glaucoma, age-related macular degeneration (AMD), and cataract. Current clinical treatments vary from tissue replacement with polymers to topical eye drops and intravitreal injections. Research and development efforts have increased using polymers for sustained release to the eye to overcome treatment challenges, showing promise in improving drug release and delivery, patient experience, and treatment compliance. Polymers provide unique properties that allow for specific engineered devices to provide improved treatment options. Recent work has shown the utilization of synthetic and biopolymer derived biomaterials in various forms, with this review containing a focus on polymers Food and Drug Administration (FDA) approved for ocular use.MethodsThis provides an overview of some prevalent synthetic polymers and biopolymers used in ocular delivery and their benefits, brief discussion of the various types and synthesis methods used, and administration techniques. Polymers approved by the FDA for different applications in the eye are listed and compared to new polymers being explored in the literature. This article summarizes research findings using polymers for ocular drug delivery from various stages: laboratory, preclinical studies, clinical trials, and currently approved. This review also focuses on some of the challenges to bringing these new innovations to the clinic, including limited selection of approved polymers.ResultsPolymers help improve drug delivery by increasing solubility, controlling pharmacokinetics, and extending release. Several polymer classes including synthetic, biopolymer, and combinations were discussed along with the benefits and challenges of each class. The ways both polymer synthesis and processing techniques can influence drug release in the eye were discussed.ConclusionThe use of biomaterials, specifically polymers, is a well-studied field for drug delivery, and polymers have been used as implants in the eye for over 75 years. Promising new ocular drug delivery systems are emerging using polymers an innovative option for treating ocular diseases because of their tunable properties. This review touches on important considerations and challenges of using polymers for sustained ocular drug delivery with the goal translating research to the clinic.

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“…[95] In recent years, MBGs have been widely studied because of their good carrier loading and release ability. Through the sol-gel method, metal ions with antibacterial properties such as silver (Ag + ), Zn 2+ , Cu + and Cu 2+ , [74] cerium (Ce 3+ and Ce 4+ ), and Ga 3+ have been introduced into the MBGs structure, and can effectively control the release and inhibit the growth and reproduction of bacteria. Ag + has been used as an antimicrobial since ancient times and is more effective against gramnegative bacteria than gram-positive bacteria.…”

Section: Antibacterial Bgsmentioning

confidence: 99%

Research Progress of Bioactive Glass and Its Application in Orthopedics

Huang

Yu²,

et al. 2021

Adv Materials Inter

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effectively promote the expression of vascular endothelial growth factor (VEGF) in fibroblasts, and promote angiogenesis in vivo and in vitro [4] ; iii) ions and degradation products released from BGs can activate and up-regulate gene expression in bone progenitor cells, resulting in rapid bone regeneration and a higher rate of bone formation compared with other inorganic ceramics such as hydroxyapatite (HA), ttitanium dioxide, aluminium oxide. [5] In this paper, we review a series of breakthroughs and progresses in the application of BG, and discuss the future prospects of BG in bone regeneration, with the hope to provide a reference for further research on BGs.

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Regulation of the Ocular Cell/Tissue Response by Implantable Biomaterials and Drug Delivery Systems

Cited by 19 publications

References 202 publications

Current Therapeutics and Future Perspectives to Ocular Melanocytic Neoplasms in Dogs and Cats

Current Therapeutics and Future Perspectives to Ocular Melanocytic Neoplasms in Dogs and Cats

Considerations for Polymers Used in Ocular Drug Delivery

Research Progress of Bioactive Glass and Its Application in Orthopedics

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