Temperature-dependent shape-responsive fluorescent nanospheres for image-guided drug delivery

He, Shawn; Tourkakis, George; Berezin, Oleg; Gerasimchuk, Nikolay; Zhang, Hairong; Zhou, Haiying; Izraely, Asaf; Akers, Walter J.; Berezin, Mikhail Y.

doi:10.1039/c6tc00122j

Cited by 10 publications

(4 citation statements)

References 36 publications

(31 reference statements)

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“…The transition occurs at either the lower critical solution temperature (LCST) or the upper critical solution temperature (UCST), depending on the type of polymer used. There are three common types of temperaturesensitive gels, namely positive temperature-sensitive gels [77], negative temperaturesensitive gels, and thermally reversible gels [78]. Positive temperature-sensitive gels undergo a transition below UCST.…”

Section: Temperature-sensitive In Situ Gel Eye Drop Delivery Systemsmentioning

confidence: 99%

Novel Eye Drop Delivery Systems: Advance on Formulation Design Strategies Targeting Anterior and Posterior Segments of the Eye

Wang

2022

Pharmaceutics

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Eye drops are the most common and convenient route of topical administration and the first choice of treatment for many ocular diseases. However, the ocular bioavailability of traditional eye drops (i.e., solutions, suspensions, and ointments) is very low because of ophthalmic physiology and barriers, which greatly limits their therapeutic effect. Over the past few decades, many novel eye drop delivery systems, such as prodrugs, cyclodextrins, in situ gels, and nanoparticles, have been developed to improve ophthalmic bioavailability. These novel eye drop delivery systems have good biocompatibility, adhesion, and propermeation properties and have shown superior performance and efficacy over traditional eye drops. Therefore, the purpose of this review was to systematically present the research progress on novel eye drop delivery systems and provide a reference for the development of dosage form, clinical application, and commercial transformation of eye drops.

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Section: Temperature-sensitive In Situ Gel Eye Drop Delivery Systemsmentioning

confidence: 99%

Novel Eye Drop Delivery Systems: Advance on Formulation Design Strategies Targeting Anterior and Posterior Segments of the Eye

Wang

2022

Pharmaceutics

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“…To overcome the aforementioned drawback, a NIR light reexcitation strategy was performed when the NIR afterglow intensity of the ZGGO:Cr 3+ RANTH was undetectable after a long-term detection. Here, an 808 nm laser was used as a reexcitation source because of its high level of penetration as reported by He et al 51 The photostimulatable luminescence spectrum of the ZGGO:Cr 3+ RANTH covered by a 3 mm thick pork tissue under 808 nm excitation (200 mW/cm 2 ) with a 30 min delay time after stopping UV irradiation is shown in Figure 10a. It can be found that the intense NIR emission intensity (λ em = 696 nm) can be acquired when the 808 nm laser is on (duration time, 30 s).…”

Section: Chemistry Of Materialsmentioning

confidence: 99%

Ratiometric Afterglow Nanothermometer for Simultaneous in Situ Bioimaging and Local Tissue Temperature Sensing

et al. 2017

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Simultaneous in situ bioimage tracing and temperature sensing have been two of the foci of modern biomedicine that have given birth to designing novel luminescent nanothermometers with dual functions. To minimize the disadvantages of existing approaches, like the surface effect of nanoparticles, autofluorescence, and/or the thermal effect described herein, a bifunctional (simultaneous in vivo bioimaging and local tissue temperature sensing) ratiometric afterglow nanothermometer has been realized in the physiological temperature range (298−325 K) based on persistent luminescent Cr 3+ (with d electron configuration)doped zinc gallogermanate nanoparticles. The contributions of the radiative 2 E → 4 A 2 and 4 T 2 → 4 A 2 transitions of surface and interior Cr 3+ to the near-infrared afterglow dual emissions are modeled, and the measured thermal sensitivities (0.043−0.047 K −1 ) for detecting the temperature of a human serum albumin solution are 1 order of magnitude higher than those using an upconverting luminescent nanoparticle strategy. For a local tissue with various thicknesses (0−15 mm), a similar detection sensitivity can be obtained because of the use of the near-infrared wavelength. Meanwhile, in situ temperature sensing can recur after near-infrared light (808 nm) re-excitation.

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“…In the last five years, significant progress has been made in the development of biocompatible, efficient and accurate nanoprobes for applications in nanomedicine and nanotechnology, [1][2][3][4] such as intracellular temperature sensing, 5 in vivo/in vitro imaging, 6 clinical diagnosis, 7 drug delivery, 8 and cancer therapy. 9 The widely employed probing materials include quantum dots, 10 carbon nanomaterials, 11 plasmonic nanostructures, 12 nanodiamonds, 13 polymeric nanoparticles, 14 and luminescent nanocrystals.…”

Section: Introductionmentioning

confidence: 99%

Colloidal (Gd0.98Nd0.02)2O3 nanothermometers operating in a cell culture medium within the first and second biological windows

Debasu

Oliveira

Rocha

et al. 2020

Journal of Rare Earths

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Temperature-dependent shape-responsive fluorescent nanospheres for image-guided drug delivery

Cited by 10 publications

References 36 publications

Novel Eye Drop Delivery Systems: Advance on Formulation Design Strategies Targeting Anterior and Posterior Segments of the Eye

Novel Eye Drop Delivery Systems: Advance on Formulation Design Strategies Targeting Anterior and Posterior Segments of the Eye

Ratiometric Afterglow Nanothermometer for Simultaneous in Situ Bioimaging and Local Tissue Temperature Sensing

Colloidal (Gd0.98Nd0.02)2O3 nanothermometers operating in a cell culture medium within the first and second biological windows

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