about
Green Tea Extract (GTE) improves differentiation in human osteoblasts during oxidative stress.Low-frequency pulsed electromagnetic fields significantly improve time of closure and proliferation of human tendon fibroblasts.Signaling pathway STAT1 is strongly activated by IFN-β in the pathogenesis of osteoporosis.5-azacytidine improves the osteogenic differentiation potential of aged human adipose-derived mesenchymal stem cells by DNA demethylationCalcium alginate gels as stem cell matrix-making paracrine stem cell activity available for enhanced healing after surgery.Pantoprazole decreases cell viability and function of human osteoclasts in vitromiRNAs Related to Skeletal Diseases.Decrease of global methylation improves significantly hepatic differentiation of Ad-MSCs: possible future application for urea detoxification.Hepatotropic growth factors protect hepatocytes during inflammation by upregulation of antioxidative systems.E/Z-Thesinine-O-4'-alpha-rhamnoside, pyrrolizidine conjugates produced by grasses (Poaceae).miRNAs in bone tissue correlate to bone mineral density and circulating miRNAs are gender independent in osteoporotic patients.Five freely circulating miRNAs and bone tissue miRNAs are associated with osteoporotic fractures.Co-Culture with Human Osteoblasts and Exposure to Extremely Low Frequency Pulsed Electromagnetic Fields Improve Osteogenic Differentiation of Human Adipose-Derived Mesenchymal Stem Cells.Donor Site Location Is Critical for Proliferation, Stem Cell Capacity, and Osteogenic Differentiation of Adipose Mesenchymal Stem/Stromal Cells: Implications for Bone Tissue Engineering.Osteogenic Effect and Cell Signaling Activation of Extremely Low-Frequency Pulsed Electromagnetic Fields in Adipose-Derived Mesenchymal Stromal Cells
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Q33712795-C2858511-BD40-402E-ACD6-DC770744D0D9Q33895758-265F75B5-2B35-4F60-BC73-D9FDD3CFA0A2Q34991362-44330290-A483-4CBE-B700-8F18193CB726Q35113277-E94FB23A-3D17-4931-837D-F5B71A5CFC97Q35203209-CA77F793-2A1D-4596-B653-B3AE5AB5430AQ35271665-02BD8E1D-7CA8-4257-9392-7D44B6119AE7Q38897441-C5B30A96-A793-43C0-89EA-B9936D0AC0A5Q39628659-46B5AA1D-8CF0-4700-82AF-70351576E779Q41840338-107C808D-83CA-4E67-8492-E15B0FB70620Q45889560-A6A2AFA3-1909-4F38-B876-B5A4FFE07E60Q46930678-B107E83C-6936-4538-BDA5-3E420ACE02F4Q53874562-0FBC5EC6-C4B8-41E5-8ED2-C800F0BA97D6Q55001754-18987E65-4A33-4B04-8D63-41640B148238Q64902190-423C2E5F-F309-4883-A998-51757A6DA719Q91029311-AB2C93E8-C45C-42FC-90F6-A86FF8C0CCEA
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
C Seeliger
@ast
C Seeliger
@en
C Seeliger
@es
C Seeliger
@nl
type
label
C Seeliger
@ast
C Seeliger
@en
C Seeliger
@es
C Seeliger
@nl
prefLabel
C Seeliger
@ast
C Seeliger
@en
C Seeliger
@es
C Seeliger
@nl
P106
P31
P496
0000-0002-7631-444X