Jian Shu scite author profile

Jian Shu

4Publications

13Citation Statements Received

0Citation Statements Given

How they've been cited

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147

Affiliations

Chengdu Medical College, Affiliated Hospital of Southwest Medical University, Xiangtan University

Publications

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Manganese-functionalized MXene theranostic nanoplatform for MRI-guided synergetic photothermal/chemodynamic therapy of cancer

Gong

et al. 2022

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Two-dimensional transition metal carbides and nitrides (MXenes) nanosheets with high photothermal conversion efficiency as well as photothermal stability can efficiently generate remarkable hyperthermia for photothermal therapy (PTT) of cancer. However, mono-MXenes cannot exhibit precise diagnosis and treatment to complete ablation of cancer cells in the PTT process. To overcome this dilemma, an “all-in-one” nanoplatform of titanium carbide (Ti3C2) MXene-based composite nanosheets is developed for magnetic resonance imaging (MRI)-guided multi-modal hyperthermia and chemodynamic tumor ablation, which was achieved by bonding of manganese ion on the surface of Ti3C2, and then was the functionalized nanosheets was modified by biocompatible PEG (Mn-Ti3C2@PEG). Due to magnetic and Fenton-like catalytic properties of Mn components, Mn-Ti3C2@PEG not only acted as the contrast agents for T1-weighted MRI (relaxivity value of 1.05 mM−1 s−1), but also converted cellular H2O2 into highly toxic hydroxyl radicals (·OH) mediated chemodynamic therapy (CDT). Moreover, Furthermore, Mn-Ti3C2@PEG can efficiently suppressed tumor-growth by PTT, due to the high photothermal conversion capability and photothermal stability. As a proof-of-concept model, the as-designed Mn-Ti3C2@PEG nanoplatform shows simultaneous MRI and dual-modal treatment for effective suppression of tumor with minimized side effects both in vitro and in vivo, indicating the great potential for clinical cancer theranostics.

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Fabricating process-electrochemical property correlation of laser-scribed graphene and smartphone-based electrochemical platform for portable and sensitive biosensing

Luo

Xiang

et al. 2023

Biosensors and Bioelectronics

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The Application of Dual-layer Spectral Detector CT in Abdominal Vascular Imaging

Lai

Jiang

Shu

2023

CMIR

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As a convenient and non-invasive diagnostic method, computed tomography (CT) has been developing continuously, and dual-energy CT imaging is one of its current research hotspots. Dual-energy CT, using two different X-ray energies for imaging, can generate spectral image sets such as virtual monoenergetic images, virtual non-contrast images, iodine density images, uric acid images, calcium inhibition images, and effective atomic number images. These images could help to increase the contrast of vascular, improve the detection rate of lesions, reduce artifacts, reduce the dose of radiation, and characterize materials. Dual-layer spectral detector CT, a detector-based dual-energy scanning device, has an X-ray tube and a dual-layer X-ray detector that can simultaneously separate low-energy and high-energy photons from a multi-energy X-ray beam, which means excellent time registration. This paper aims to introduce the applications of dual-layer spectral detector CT in abdominal angiography, including optimizing image quality, reducing the dose of contrast agent and radiation, providing richer diagnostic information, organ perfusion, and thrombus identification.

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Dual-layer spectral detector CT for contrast agent concentration, dose and injection rate reduction: Utility in imaging of the superior mesenteric artery

Lai

Tan

Jiang

et al. 2022

European Journal of Radiology

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Jian Shu

Manganese-functionalized MXene theranostic nanoplatform for MRI-guided synergetic photothermal/chemodynamic therapy of cancer

Fabricating process-electrochemical property correlation of laser-scribed graphene and smartphone-based electrochemical platform for portable and sensitive biosensing

The Application of Dual-layer Spectral Detector CT in Abdominal Vascular Imaging

Dual-layer spectral detector CT for contrast agent concentration, dose and injection rate reduction: Utility in imaging of the superior mesenteric artery

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