Ting Zhang
Shanghai Jiao Tong University
16 Papers
8 Citations
Ting Zhang is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Medicine & Mass cytometry. The author has an hindex of 4, co-authored 12 publications.
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Papers
Interferometric plasmonic imaging and detection of single exosomes.
Yuting Yang,G. Shen,Hui Wang,Hongxia Li,Ting Zhang,Nongjian Tao,Nongjian Tao,Xianting Ding,Hui Yu +8 more
TL;DR: An optical approach capable of imaging single exosomes in a label-free manner, using interferometric plasmonic microscopy is presented, anticipating that the proposed method will contribute to clinical exosome analysis and to the exploration of fundamental issues such as theExosome–antibody binding kinetics.
162
Pharmacological Review on Asiatic Acid and Its Derivatives: A Potential Compound.
Junwei Lv,Alok Sharma,Ting Zhang,Yuchen Wu,Xianting Ding +4 more
- 23 Jan 2018
TL;DR: The pharmacological properties of AA and its derivatives that inhibit multiple pathways of intracellular signaling molecules and transcription factors that are involved in the various stages of chronic diseases are described.
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Progress and applications of mass cytometry in sketching immune landscapes.
TL;DR: An overview of CyTOF is presented, including the introduction ofCyTOF principle and advantages that make it a standalone tool in deciphering immune mysteries, and the bioinformatics to interpret the data yield via cytometry by time‐of‐flight.
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Integrated microfluidic single-cell immunoblotting chip enables high-throughput isolation, enrichment and direct protein analysis of circulating tumor cells
Aynur Abdulla,Ting Zhang,Shanhe Li,Wenke Guo,Antony R. Warden,Yufang Xin,Nokuzola Maboyi,Jiatao Lou,Haiyang Xie,Xianting Ding +9 more
TL;DR: In this article , an integrated multifunctional microfluidic system for highly efficient and label-free CTC isolation, CTC enrichment, and single-cell immunoblotting (ieSCI) is presented.
Label-free Separation of Circulating Tumor Cells Using a Self-Amplified Inertial Focusing (SAIF) Microfluidic Chip.
TL;DR: A novel self-amplified inertial focused (SAIF) microfluidic chip that enables size-based, high-throughput, label-free separation of CTCs from a patient's blood is demonstrated and theoretical force balance analysis in physics, computational simulations, and experimental observations indicate that the SAIF chip is simple but effective, and high-Throughput separation C TCs can be readily achieved without complex structures.
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