Professor | Peng Shang | Asia Growth Partners

Name	Peng Shang
Contact Information	shangpeng@nwpu.edu.cn
Language ability	Chinese, English
Province	Shaanxi

Name

Peng Shang

Contact Information

shangpeng@nwpu.edu.cn

Language ability

Chinese, English

Province

Shaanxi

University/Lab Affiliation and Title	Northwestern Polytechnical University
Faculty	Life Science
Academic Background & Achievements	Ph.D. in Engineering Main leader in establishing the School of Life Sciences at Northwestern Polytechnical University Responsible for the development of biomedical engineering and life sciences disciplines Published over 210 papers and books
Awards	2018 February, Shenzhen High-level Professional Talent--National Leading Talent 2015 December, Second Prize of Shaanxi Province Science and Technology, 'Study on the Preparation Process and Mechanism of Crystal Materials under Special Physical Environments', No. 14-044 (Ranked 2nd) 2011, Outstanding Talent Award in Cell Biology Scientific Research by the Journal of Chinese Cell Biology 2007 December, First Prize of Shaanxi Province Science and Technology, 'Basic Research on the Application of Angelica Polysaccharides and Rheum Polysaccharides', No. 07-1-21-R5 (Ranked 5th) 2005 November, Second Prize of National Science and Technology Progress, 'Study and Application of Liver Cancer Radioimmunotherapy Drugs and Their Target Molecule HAb18G/CD147', No. 2005-J-235-2-C4-R06 (Ranked 6th) 1994 December, Second Prize of Military Science and Technology Progress, 'Experimental Study on the Application of Monoclonal Antibodies Against Human Melanoma', No. 94-2-41-5 (Ranked 5th)

University/Lab Affiliation and Title

Northwestern Polytechnical University

Faculty

Life Science

Academic Background & Achievements

Ph.D. in Engineering
Main leader in establishing the School of Life Sciences at Northwestern Polytechnical University
Responsible for the development of biomedical engineering and life sciences disciplines
Published over 210 papers and books

Awards

2018 February, Shenzhen High-level Professional Talent--National Leading Talent
2015 December, Second Prize of Shaanxi Province Science and Technology, 'Study on the Preparation Process and Mechanism of Crystal Materials under Special Physical Environments', No. 14-044 (Ranked 2nd)
2011, Outstanding Talent Award in Cell Biology Scientific Research by the Journal of Chinese Cell Biology
2007 December, First Prize of Shaanxi Province Science and Technology, 'Basic Research on the Application of Angelica Polysaccharides and Rheum Polysaccharides', No. 07-1-21-R5 (Ranked 5th)
2005 November, Second Prize of National Science and Technology Progress, 'Study and Application of Liver Cancer Radioimmunotherapy Drugs and Their Target Molecule HAb18G/CD147', No. 2005-J-235-2-C4-R06 (Ranked 6th)
1994 December, Second Prize of Military Science and Technology Progress, 'Experimental Study on the Application of Monoclonal Antibodies Against Human Melanoma', No. 94-2-41-5 (Ranked 5th)

Areas of Focus	Space Biology Magnetobiology Magnetic Field Biotechnology and Health Engineering Aerospace Medical Engineering Protein, Peptide, and Polysaccharide Drug Research and Development
Publications	The Influence of Electrode Design on Detecting the Effects of Ferric Ammonium Citrate (FAC) on Pre-Osteoblast through Electrical Cell-Substrate Impedance Sensing (ECIS), Zhang ZY, Shang P, 2023 Hypoxia Pathway in Osteoporosis: Laboratory Data for Clinical Prospects, Wang JP, Shang P, 2023 PTH 1-34 promoted bone formation by regulating iron metabolism in unloading-induced bone loss, Che JM, Shang P, 2023 Static magnetic field: A potential tool of controlling stem cells fates for stem cell therapy in osteoporosis, Wang JP, Shang P, 2022 Sleep posture recognition based on machine learning: A systematic review, Li XL, Shang P, 2023 The potential benefits of melatonin in the prevention and treatment of bone loss in response to microgravity, Chen X, Shang P, 2022 Biophysical mechanisms underlying the effects of static magnetic fields on biological systems, Zhang B, Shang P, 2022 1–2 T static magnetic field combined with Ferumoxytol prevent unloading-induced bone loss by regulating iron metabolism in osteoclastogenesis, Zhang GJ, Shang P, 2022 Evaluating the biological safety on mice at 16 T static magnetic field with 700 MHz radio-frequency electromagnetic field, Wang SH, Shang P, 2022 12 T high static magnetic field suppresses osteosarcoma cells proliferation by regulating intracellular ROS and iron status, Wang SH, Shang P, Zhang H, 2022 Biological effects of hypomagnetic field: ground-based data for space exploration, Zhang ZY, Shang P, 2021 Iron chelator induces apoptosis in osteosarcoma cells by disrupting intracellular iron homeostasis and activating the MAPK pathway, Xue YR, Shang P, 2021 Ergonomic Consideration in Pillow Height Determinants and Evaluation, Lei JX, Shang P, 2021 Static magnetic field (0.2-0.4 T) stimulates the self-renewal ability of osteosarcoma stem cells through autophagic degradation of ferritin, Zhao B, Shang P, 2021 HO-1: A new potential therapeutic target to combat osteoporosis, Che JM, Shang P, 2021 Iron overload induces apoptosis of osteoblast cells via eliciting ER stress-mediated mitochondrial dysfunction and p-eIF2α/ATF4/CHOP pathway in vitro, Che JM, Shang P, 2021 Recent advances in paper-based preconcentrators by utilizing ion concentration polarization, Meng ZY, Shang P, 2021 Magnetic fields as a potential therapy for diabetic wounds based on animal experiments and clinical trials, Lv HH, Shang P, 2021 Static magnetic field (2-4 T) improves bone microstructure and mechanical properties by coordinating osteoblast/osteoclast differentiation in mice, Yang JC, Shang P, 2021 Static magnetic field of 0.2 ～ 0.4 T promotes the recovery of hindlimb unloading-induced bone loss in mice, Yang JC, Shang P, 2021 Moderate static magnetic fields prevent bone architectural deterioration and strength reduction in ovariectomized mice, Yang JC, Shang P, 2021 Effect of high static magnetic field (2 T-12 T) exposure on the mineral element content in mice, Wang SH, Shang P, 2021 Effect of high static magnetic fields on biological activities and iron metabolism in MLO-Y4 osteocyte-like cells, Yang JC, Shang P, 2021 Disorder of iron metabolism inhibits the recovery of unloading-induced bone loss in hypomagnetic field, Xue YR, Shang P, 2020 Iron overload-Induced osteocyte apoptosis stimulates osteoclast differentiation through increasing osteocytic RANKL production in vitro, Yang JC, Shang P, 2020

Areas of Focus

Space Biology
Magnetobiology
Magnetic Field Biotechnology and Health Engineering
Aerospace Medical Engineering
Protein, Peptide, and Polysaccharide Drug Research and Development

Publications

The Influence of Electrode Design on Detecting the Effects of Ferric Ammonium Citrate (FAC) on Pre-Osteoblast through Electrical Cell-Substrate Impedance Sensing (ECIS), Zhang ZY, Shang P*, 2023
Hypoxia Pathway in Osteoporosis: Laboratory Data for Clinical Prospects, Wang JP, Shang P*, 2023
PTH 1-34 promoted bone formation by regulating iron metabolism in unloading-induced bone loss, Che JM, Shang P*, 2023
Static magnetic field: A potential tool of controlling stem cells fates for stem cell therapy in osteoporosis, Wang JP, Shang P*, 2022
Sleep posture recognition based on machine learning: A systematic review, Li XL, Shang P*, 2023
The potential benefits of melatonin in the prevention and treatment of bone loss in response to microgravity, Chen X, Shang P*, 2022
Biophysical mechanisms underlying the effects of static magnetic fields on biological systems, Zhang B, Shang P*, 2022
1–2 T static magnetic field combined with Ferumoxytol prevent unloading-induced bone loss by regulating iron metabolism in osteoclastogenesis, Zhang GJ, Shang P*, 2022
Evaluating the biological safety on mice at 16 T static magnetic field with 700 MHz radio-frequency electromagnetic field, Wang SH, Shang P*, 2022
12 T high static magnetic field suppresses osteosarcoma cells proliferation by regulating intracellular ROS and iron status, Wang SH, Shang P*, Zhang H*, 2022
Biological effects of hypomagnetic field: ground-based data for space exploration, Zhang ZY, Shang P*, 2021
Iron chelator induces apoptosis in osteosarcoma cells by disrupting intracellular iron homeostasis and activating the MAPK pathway, Xue YR, Shang P*, 2021
Ergonomic Consideration in Pillow Height Determinants and Evaluation, Lei JX, Shang P*, 2021
Static magnetic field (0.2-0.4 T) stimulates the self-renewal ability of osteosarcoma stem cells through autophagic degradation of ferritin, Zhao B, Shang P*, 2021
HO-1: A new potential therapeutic target to combat osteoporosis, Che JM, Shang P*, 2021
Iron overload induces apoptosis of osteoblast cells via eliciting ER stress-mediated mitochondrial dysfunction and p-eIF2α/ATF4/CHOP pathway in vitro, Che JM, Shang P*, 2021
Recent advances in paper-based preconcentrators by utilizing ion concentration polarization, Meng ZY, Shang P*, 2021
Magnetic fields as a potential therapy for diabetic wounds based on animal experiments and clinical trials, Lv HH, Shang P*, 2021
Static magnetic field (2-4 T) improves bone microstructure and mechanical properties by coordinating osteoblast/osteoclast differentiation in mice, Yang JC, Shang P*, 2021
Static magnetic field of 0.2 ～ 0.4 T promotes the recovery of hindlimb unloading-induced bone loss in mice, Yang JC, Shang P*, 2021
Moderate static magnetic fields prevent bone architectural deterioration and strength reduction in ovariectomized mice, Yang JC, Shang P*, 2021
Effect of high static magnetic field (2 T-12 T) exposure on the mineral element content in mice, Wang SH, Shang P*, 2021
Effect of high static magnetic fields on biological activities and iron metabolism in MLO-Y4 osteocyte-like cells, Yang JC, Shang P*, 2021
Disorder of iron metabolism inhibits the recovery of unloading-induced bone loss in hypomagnetic field, Xue YR, Shang P*, 2020
Iron overload-Induced osteocyte apoptosis stimulates osteoclast differentiation through increasing osteocytic RANKL production in vitro, Yang JC, Shang P*, 2020

Space Bone Loss Osteoblasts Osteoclasts Microgravity Radiation Magnetic Fields Cell Signaling Drug Development Tissue Engineering Biological Effects Bone Health Tumor Systems Nanomedicine Drug Delivery Medical Devices Health Maintenance Magnetic Therapy Biomedical Engineering Health Engineering Biomedical Devices Cancer Therapy Biomaterials Medical Technology Innovation Aerospace Space Missions Physiological Effects Health Risks Countermeasures Space Medicine Proteins Peptides Polysaccharides Tumor Metastasis Pharmacology Biotechnology Molecular Biology

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