Accedi

Chongqing University Cancer Hospital

6 ARTICLES PUBLISHED IN JoVE

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Developmental Biology

Isolation, Culture, and Adipogenic Induction of Neural Crest Original Adipose-Derived Stem Cells from Periaortic Adipose Tissue
Yiding Qi *1, Xiang Miao *2, Lian Xu 3, Mengxia Fu 3, Shi Peng 4, Kailei Shi 5, Jun Li 4, Maoqing Ye 5, Ruogu Li 1
1Department of Cardiology, Shanghai Chest Hospital, Shanghai Jiao Tong University, 2Shanghai Institute of Nutrition and Health, Shanghai Institute for Biological Sciences, Chinese Academy of Sciences, 3Shanghai Key Laboratory of Hypertension, Shanghai Institute of Hypertension, Ruijin Hospital Affiliated to Shanghai Jiao Tong University School of Medicine, 4Department of Cardiology, Shanghai General Hospital, Shanghai Jiao Tong University School of Medicine, 5Department of Cardiology, Shanghai Key Laboratory of Clinical Geriatric Medicine, Huadong Hospital Affiliated to Fudan University

We present a protocol for the isolation, culture, and adipogenic induction of neural crest derived adipose-derived stem cells (NCADSCs) from the periaortic adipose tissue of Wnt-1 Cre+/-;Rosa26RFP/+ mice. The NCADSCs can be an easily accessible source of ADSCs for modeling adipogenesis or lipogenesis in vitro.

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Bioengineering

Cerebral Blood Flow-Based Resting State Functional Connectivity of the Human Brain using Optical Diffuse Correlation Spectroscopy
Chien Poon 1, Ben Rinehart 1, Jun Li 1,2, Ulas Sunar 1
1Department of Biomedical, Industrial and Human Factors Engineering, Wright State University, 2South China Academy of Advanced Optoelectronics, South China Normal University

This protocol demonstrates how to measure resting state functional connectivity in the human prefrontal cortex using a custom-made diffuse correlation spectroscopy instrument. The report also discuss practical aspects of the experiment as well as detailed steps for analyzing the data.

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Medicine

A Rat Orthotopic Renal Transplantation Model for Renal Allograft Rejection
Hang You 1,2, Xin Mao 2, Chenyang Wang 2, Gang Huang 3, Marcus Groettrup 4,5, Jun Li 2
1School of Medicine, Chongqing University, 2Department of Urological Oncology Surgery, Chongqing University Cancer Hospital, 3Department of Biochemistry and Molecular Biology, College of Basic Medical Science, Army Medical University, 4Division of Immunology, Department of Biology, University of Konstanz, 5Biotechnology Institute Thurgau, University of Konstanz

The rat orthotopic renal transplantation model contributes to investigating the mechanism of renal allograft rejection. The current model increases the recipients' survival without interference with blood supply and venous reflux of the lower body using an end-to-end anastomosis of kidney implantation and an end-to-side "tunnel" method of ureter-bladder anastomosis.

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Medicine

A Modified Cuff Technique for Mouse Cervical Heterotopic Heart Transplantation Model
Xin Mao *1, Peng Xian *1, Hang You 1,2, Gang Huang 3, Jun Li 1
1Department of Urological Oncology Surgery, Chongqing University Cancer Hospital, 2School of Medicine, Chongqing University, 3Department of Biochemistry and Molecular Biology, College of Basic Medical Science, Army Medical University

In the present protocol, a mouse heart transplantation model is used for investigating the mechanism of cardiac allograft rejection. In this heterotopic heart transplantation model, operation efficiency is improved, and the survival of cardiac grafts is ensured by a cervical end-to-end anastomosis of heart implantation using a modified Cuff technique.

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Medicine

Microscopic Replantation of Penile Glans Amputation Due to Circumcision
Da-Chun Jin *1, Bo Zhou *1, Jun Li 2, Cong-Cong Bao 1, Yong Luo 1, Yong Zhang 1, Peng Wang 1, Gang Bi 1, Yan-Feng Li 1
1Department of Urology, Daping Hospital, Army Medical University, 2Department of Urology, Chongqing 13th People's Hospital

The present protocol describes the emergency management of microscopic replantation of penile glans amputation due to circumcision.

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Bioengineering

Construction of a Human Aorta Smooth Muscle Cell Organ-On-A-Chip Model for Recapitulating Biomechanical Strain in the Aortic Wall
Mieradilijiang Abudupataer *1, Xiujie Yin *1, Bitao Xiang *1, Nan Chen 1, Shiqiang Yan 2, Shichao Zhu 1, Yang Ming 1, Gang Liu 1, Xiaonan Zhou 1, Hao Lai 1, Chunsheng Wang 1, Kai Zhu 1, Jun Li 1
1Department of Cardiac Surgery and Shanghai Institute of Cardiovascular Diseases, Zhongshan Hospital, Fudan University, 2Institutes of Biomedical Sciences and the Shanghai Key Laboratory of Medical Epigenetics, Shanghai Medical College, Fudan University

Here, we developed a human aorta smooth muscle cell organ-on-a-chip model to replicate the in vivo biomechanical strain of smooth muscle cells in the human aortic wall.

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