about
A therapeutic potential for marine skeletal proteins in bone regenerationControlled release of simvastatin from biomimetic β-TCP drug delivery systemOsteogenic Potential of Mouse Adipose-Derived Stem Cells Sorted for CD90 and CD105 In VitroBone regeneration of rat tibial defect by zinc-tricalcium phosphate (Zn-TCP) synthesized from porous Foraminifera carbonate macrospheres.Coral exoskeletons as a precursor material for the development of a calcium phosphate drug delivery system for bone tissue engineering.Antibiotic delivery potential of nano- and micro-porous marine structure-derived β-tricalcium phosphate spheres for medical applications.Adipose Stem Cell Coating of Biomimetic β-TCP Macrospheres by Use of Laboratory Centrifuge.Vertical bone augmentation induced by ultrathin hydroxyapatite sputtered coated mini titanium implants in a rabbit calvaria model.Strontium- and magnesium-enriched biomimetic β-TCP macrospheres with potential for bone tissue morphogenesis.The effectiveness of the controlled release of simvastatin from β-TCP macrosphere in the treatment of OVX mice.Injectable simvastatin gel for minimally invasive periosteal distraction: In vitro and in vivo studies in rat.Effect of biomimetic zinc-containing tricalcium phosphate (Zn-TCP) on the growth and osteogenic differentiation of mesenchymal stem cells.Mechanochemical synthesis of zinc-apatitic calcium phosphate and the controlled zinc release for bone tissue engineering.Ligature induced peri-implantitis: tissue destruction and inflammatory progression in a murine model.Novel bioresorbable strontium hydroxyapatite membrane for guided bone regeneration.A supramolecular self-assembly strategy for upconversion nanoparticle bioconjugationBisphosphonate determination using 1H-NMR spectroscopy for biomedical applicationsSimvastatin-loaded β-TCP drug delivery system induces bone formation and prevents rhabdomyolysis in OVX miceBioresorbable zinc hydroxyapatite guided bone regeneration membrane for bone regenerationStrontium hydroxyapatite in situ gel-forming system - a new approach for minimally invasive bone augmentation
P50
Q26864036-1DF8D46E-2952-4D11-B336-6B7B437D713BQ28485186-C16633F9-1951-43E6-91B2-EC19BB9B872FQ34274738-68BC64E1-B4B2-498A-8F05-99A31111FD4CQ37425004-B048DDEC-9FCC-40B3-A71F-0D07973200F6Q38159881-FB3B4491-890D-4A85-B10B-1EE5C5AA1463Q39029705-934A5A8E-C481-40D8-A1CF-CC4655E09E53Q39447831-861D4C7C-8FA3-4D52-A874-00E16270F930Q46235467-6DDB09FC-CD56-4E9E-86BC-189F0FCC7500Q46402934-82B2B767-C27E-43FF-A175-87587496F120Q46574293-2C2E1639-F91A-4E25-997C-C09B041B12A5Q48102744-080FEE5A-B39C-41F6-8B65-D2C6B48E517BQ50473682-E5D715F7-CA78-4ACD-8B4E-FFAEFA090B75Q53185285-D9D8A511-A26D-475C-9D76-84890C27DB20Q53202447-C5717538-5153-4F0E-8C91-D3DC9B401453Q54660147-2B82CD64-99D4-4F4E-803F-ABF82C6EB22AQ58039181-F25E474D-C362-4907-8BF2-E09203BC7030Q83082551-2C8D9C54-7734-4F65-AB72-6938361D739FQ85544361-DBFB1EDE-F11B-4E00-BAE8-DD397D0DF004Q85896534-3DDAF4E5-7DA0-45A6-8066-EBF0BD669768Q87415193-29319B96-9751-4A23-A46C-BBE6C75D0EA3
P50
description
onderzoeker
@nl
researcher, ORCID id # 0000-0002-7472-8016
@en
name
J Chou
@ast
J Chou
@en
J Chou
@nl
type
label
J Chou
@ast
J Chou
@en
J Chou
@nl
prefLabel
J Chou
@ast
J Chou
@en
J Chou
@nl
P106
P31
P496
0000-0002-7472-8016