Areas of Focus
- Space Biology
- Magnetobiology
- Magnetic Field Biotechnology and Health Engineering
- Aerospace Medical Engineering
- Protein, Peptide, and Polysaccharide Drug Research and Development
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
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
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)
