Steven T. Wang scite author profile

Memory T lymphocytes are commonly viewed as a major barrier for long-term survival of organ allografts and are thought to accelerate rejection responses due to their rapid infiltration into allografts, low threshold for activation, and ability to produce inflammatory mediators. Because memory T cells are usually associated with rejection, preclinical protocols have been developed to target this population in transplant recipients. Here, using a murine model, we found that costimulatory blockade-mediated lung allograft acceptance depended on the rapid infiltration of the graft by central memory CD8 + T cells (CD44 hi CD62L hi CCR7 + ). Chemokine receptor signaling and alloantigen recognition were required for trafficking of these memory T cells to lung allografts.

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Multispectral imaging in the extended near-infrared window based on endogenous chromophores

Cao

Zhegalova

Wang

et al. 2013

J. Biomed. Opt

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Abstract. To minimize the problem with scattering in deep tissues while increasing the penetration depth, we explored the feasibility of imaging in the relatively unexplored extended near infrared (exNIR) spectral region at 900 to 1400 nm with endogenous chromophores. This region, also known as the second NIR window, is weakly dominated by absorption from water and lipids and is free from other endogenous chromophores with virtually no autofluorescence. To demonstrate the applicability of the exNIR for bioimaging, we analyzed the optical properties of individual components and biological tissues using an InGaAs spectrophotometer and a multispectral InGaAs scanning imager featuring transmission geometry. Based on the differences in spectral properties of tissues, we utilized ratiometric approaches to extract spectral characteristics from the acquired three-dimensional "datacube". The obtained images of an exNIR transmission through a mouse head revealed sufficient details consistent with anatomical structures.

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Design of irreversible optical nanothermometers for thermal ablations

et al. 2013

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ZnO1−x/carbon dots composite hollow spheres: Facile aerosol synthesis and superior CO2 photoreduction under UV, visible and near-infrared irradiation

Lin

Kavadiya

Karakoçak

et al. 2018

Applied Catalysis B: Environmental

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Design of Fluorescent Nanocapsules as Ratiometric Nanothermometers

Zhegalova

Dergunov

Wang

et al. 2014

Chemistry A European J

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We have developed a novel design of optical nanothermometers that can measure the surrounding temperature in the range of 20–85°C. The nanothermometers comprise of two organic fluorophores encapsulated in a crosslinked polymethacrylate nanoshell. The role of the nanocapsule shell around the fluorophores is to form a well-defined and stable microenvironment to prevent other factors besides temperature from affecting the dyes’ fluorescence. The two fluorophores feature different temperature-dependent emission profiles where a fluorophore with relatively insensitive fluorescence (rhodamine 640) serves as a reference while a sensitive fluorophore (indocyanine green) serves as a sensor. The sensitivity of the nanothermometers depends on the type of nanocapsules-forming lipid and is affected by the phase transition temperature. Both the fluorescence intensity and the fluorescence lifetime can be utilized to measure the temperature.

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Steven T. Wang

Central memory CD8+ T lymphocytes mediate lung allograft acceptance

Multispectral imaging in the extended near-infrared window based on endogenous chromophores

Design of irreversible optical nanothermometers for thermal ablations

ZnO1−x/carbon dots composite hollow spheres: Facile aerosol synthesis and superior CO2 photoreduction under UV, visible and near-infrared irradiation

Design of Fluorescent Nanocapsules as Ratiometric Nanothermometers

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