Julia N. Dobish scite author profile

Water-soluble semiconducting nanoparticles are prepared from individually collapsed and crosslinked ABA triblock copolymers and are further modified to carry imaging units and allyl functionalities for postmodification. Ethylene oxide modified polyfluorene forms the center block (B) and is transformed into a telechelic macroinitator. In a nitroxide mediated living free radical polymerization, polyacrylate blocks (A) are grown to give the ABA triblock copolymer. Low-temperature benzocyclobutene crosslinking groups are attached to collapse and site-isolate the center block (A). The nanoparticles were further modified by pegylation to enhance the solubility and by catechol groups to provide complexing sites for magnetic resonance imaging (MRI) reagents such as gadolinium. The reported materials are water-soluble and encompassing fluorescence and MRI to become biocompatible “organic quantum dots” with the possibility to interact actively with biological entities.

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Nanosponge-Mediated Drug Delivery Lowers Intraocular Pressure

Lambert

Carlson

Ende

et al. 2015

Trans. Vis. Sci. Tech.

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Purpose: We examined the efficacy of an extended-release drug delivery system, nanosponge (NS) encapsulated compounds, administered intravitreally to lower intraocular pressure (IOP) in mice.Methods: Bilateral ocular hypertension was induced in mice by injecting microbeads into the anterior chamber. Hypertensive mice received NS loaded with ocular hypotensive drugs via intravitreal injection and IOP was monitored. Retinal deposition and retinal ganglion cell (RGC) uptake of Neuro-DiO were examined following intravitreal injection of Neuro-DiO-NS using confocal microscopy.Results: Brimonidine-loaded NS lowered IOP 12% to 30% for up to 6 days (P , 0.02), whereas travoprost-NS lowered IOP 19% to 29% for up to 4 days (P , 0.02) compared to saline injection. Three bimatoprost NS were tested: a 400-nm NS and two 700-nm NS with amorphous (A-NS) or amorphous/crystalline (AC-NS) crosslinkers. A single injection of 400 nm NS lowered IOP 24% to 33% for up to 17 days compared to saline, while A-NS and AC-NS lowered IOP 22% to 32% and 18% to 26%, respectively, for up to 32 days (P , 0.046). Over time retinal deposition of Neuro-DiO increased from 19% to 71%; Neuro-DiO released from NS was internalized by RGCs.Conclusions: A single injection of NS can effectively deliver ocular hypotensive drugs in a linear and continuous manner for up to 32 days. Also, NS may be effective at targeting RGCs, the neurons that degenerate in glaucoma.Translational Relevance: Patient compliance is a major issue in glaucoma. The use of NS to deliver a controlled, sustained release of therapeutics could drastically reduce the number of patients that progress to vision loss in this disease.

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Trans-meningeal drug delivery to optic nerve ganglion cell axons using a nanoparticle drug delivery system

Grove¹,

Dobish

Harth

et al. 2014

Experimental Eye Research

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Julia N. Dobish

High relaxivity MRI imaging reagents from bimodal star polymers

Synthesis of low-temperature benzocyclobutene cross-linker and utilization

Water-Soluble Semiconducting Nanoparticles for Imaging

Nanosponge-Mediated Drug Delivery Lowers Intraocular Pressure

Trans-meningeal drug delivery to optic nerve ganglion cell axons using a nanoparticle drug delivery system

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