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Her primary research interest is to characterize the mechanisms by which the bone/bone marrow cells change their cell fate and how these changes contribute to skeletal disorders such as osteoporosis and osteoarthritis. Another line of her research interest is to understand the mechanisms underlying the interplay between the skeleton and other organ systems such as vascular system and brain.
She serves on the editorial boards of The Journal of Bone and Mineral Research and Bone Research. She served as a standing committee member on the VA Endocrinology-B Merit Review study section and has been on the committee of multiple NIH study section panels.
Dr. Wan’s long-term research goal is to understand the mechanisms by which bone cells and bone marrow stem/progenitor cells change their cell state and how the changes contribute to the development of skeletal diseases. Specifically, her research team aims to define the role of cellular senescence in skeletal growth and age-associated skeletal disorders such as osteoporosis and osteoarthritis.
Another line of her research is to understand the cellular and molecular basis by which the bone-derived cues regulate the aging process of vascular system. Dr. Wan and her team are investigating the mechanistic link underlying “bone-vascular axis” and attempt to identify key skeleton-derived pro-aging factors for vascular aging.
She serves on the editorial boards of The Journal of Bone and Mineral Research and Bone Research. She served as a standing committee member on the VA Endocrinology-B Merit Review study section and has been on the committee of multiple NIH study section panels.
Dr. Wan’s long-term research goal is to understand the mechanisms by which bone cells and bone marrow stem/progenitor cells change their cell state and how the changes contribute to the development of skeletal diseases. Specifically, her research team aims to define the role of cellular senescence in skeletal growth and age-associated skeletal disorders such as osteoporosis and osteoarthritis.
Another line of her research is to understand the cellular and molecular basis by which the bone-derived cues regulate the aging process of vascular system. Dr. Wan and her team are investigating the mechanistic link underlying “bone-vascular axis” and attempt to identify key skeleton-derived pro-aging factors for vascular aging.
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Rongjun Wan, Prakhyath Srikaram, Shaobing Xie,Qiong Chen, Chengping Hu,Mei Wan, Yuanyuan Li,Peisong Gao
Respiratory Researchno. 1 (2024): 1-16
Osteoarthritis and Cartilage (2024): S405-S406
Guanqiao Liu,Jiekang Wang,Zhiliang Wei, Ching-Lien Fang,Ke Shen, Cheng Qian,Cheng Qi,Tong Li,Peisong Gao,Philip C. Wong,Hanzhang Lu,Xu Cao,
Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2023)
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