K.-H W. Lau

Affiliations: 
Loma Linda University, Loma Linda, United States 
Area:
Biochemistry, Cell Biology
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"K.-H Lau"
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Jeannie H. Yang grad student 2008 Loma Linda University

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Sheng MH, Rundle CH, Lau KW. (2025) Microvesicles Released by Osteoclastic Cells Exhibited Chondrogenic, Osteogenic, and Anti-Inflammatory Activities: An Evaluation of the Feasibility of Their Use for Treatment of Osteoarthritis in a Mouse Model. Cells. 14
Sheng MH, Rundle CH, Baylink DJ, et al. (2025) Conditional Deletion of Gremlin-1 in Cathepsin K-expressing Mature Osteoclasts Altered the Skeletal Response to Calcium Depletion in Sex-Dependent Manner. Calcified Tissue International. 116: 28
Sheng MH, Stiffel VM, Taipia J, et al. (2025) Overexpression of miR17 ~ 92 in Myeloid Cells in Mice Increased Bone Mass Through Reduced Bone Resorption and Increased Bone Formation in Sex-Dependent Manner. Calcified Tissue International. 116: 9
Sheng MH, Lau KW, Rundle CH, et al. (2022) Defective bone repletion in aged Balb/cBy mice was caused by impaired osteoblastic differentiation. Journal of Bone and Mineral Metabolism
Ahmed ASI, Sheng MHC, Lau KW, et al. (2022) Calcium released by osteoclastic resorption stimulates autocrine/paracrine activities in local osteogenic cells to promote coupled bone formation. American Journal of Physiology. Cell Physiology
Chen W, Wasnik S, Fu Y, et al. (2020) Unique anabolic action of stem cell gene therapy overexpressing PDGFB-DSS6 fusion protein in OVX osteoporosis mouse model. Bone Reports. 12: 100236
Sheng MH, Lau KW, Lakhan R, et al. (2017) Unique Regenerative Mechanism to Replace Bone Lost During Dietary Bone Depletion in Weanling Mice. Endocrinology
Rundle CH, Xing W, Lau KW, et al. (2016) Bidirectional ephrin signaling in bone. Osteoporosis and Sarcopenia. 2: 65-76
Lau KW, Rundle CH, Zhou XD, et al. (2016) Conditional deletion of IGF-I in osteocytes unexpectedly accelerates bony Union of the Fracture Gap in mice. Bone
Chen W, Baylink DJ, Brier-Jones J, et al. (2015) PDGFB-based stem cell gene therapy increases bone strength in the mouse. Proceedings of the National Academy of Sciences of the United States of America
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