about
The effect of pore geometry on the in vitro biological behavior of human periosteum-derived cells seeded on selective laser-melted Ti6Al4V bone scaffolds.Contrast-Enhanced Nanofocus X-Ray Computed Tomography Allows Virtual Three-Dimensional Histopathology and Morphometric Analysis of Osteoarthritis in Small Animal Models.Multifactorial Optimization of Contrast-Enhanced Nanofocus Computed Tomography for Quantitative Analysis of Neo-Tissue Formation in Tissue Engineering Constructs.Combining microCT-based characterization with empirical modelling as a robust screening approach for the design of optimized CaP-containing scaffolds for progenitor cell-mediated bone formation.Changes in bone macro- and microstructure in diabetic obese mice revealed by high resolution microfocus X-ray computed tomography.Surface Roughness and Morphology Customization of Additive Manufactured Open Porous Ti6Al4V StructuresA novel multimodular methodology to investigate external cervical tooth resorption.Computational modelling of local calcium ions release from calcium phosphate-based scaffolds.Validation of x-ray microfocus computed tomography as an imaging tool for porous structures.Three-dimensional characterization of tissue-engineered constructs by contrast-enhanced nanofocus computed tomography.Reporter cell activity within hydrogel constructs quantified from oxygen-independent bioluminescence.Suramin increases cartilage proteoglycan accumulation in vitro and protects against joint damage triggered by papain injection in mouse knees in vivo.Simultaneous three-dimensional visualization of mineralized and soft skeletal tissues by a novel microCT contrast agent with polyoxometalate structure.Three-dimensional gas exchange pathways in pome fruit characterized by synchrotron x-ray computed tomography.A Novel microCT Method for Bone and Marrow Adipose Tissue Alignment Identifies Key Differences Between Mandible and Tibia in Rats.The Impact of Type 2 Diabetes on Bone Fracture Healing.Three-dimensional pore space quantification of apple tissue using X-ray computed microtomography.Human periosteal-derived cell expansion in a perfusion bioreactor system: proliferation, differentiation and extracellular matrix formation.Spatial optimization in perfusion bioreactors improves bone tissue-engineered construct quality attributes.Ectopic bone formation by 3D porous calcium phosphate-Ti6Al4V hybrids produced by perfusion electrodeposition.Unraveling the compromised biomechanical performance of type 2 diabetes- and Roux-en-Y gastric bypass bone by linking mechanical-structural and physico-chemical properties.A simulation-based study on the influence of the x-ray spectrum on the performance of multi-material beam hardening correction algorithmsValidation of a finite element model of a unilateral external fixator in a rabbit tibia defect modelMechanisms of ectopic bone formation by human osteoprogenitor cells on CaP biomaterial carriersThe combined bone forming capacity of human periosteal derived cells and calcium phosphatesThe role of sugar and fat in sugar-snap cookies: Structural and textural propertiesContrast-Enhanced MicroCT for Virtual 3D Anatomical Pathology of Biological Tissues: A Literature ReviewOvariectomy increases RANKL protein expression in bone marrow adipocytes of C3H/HeJ miceReporting Guidelines, Review of Methodological Standards, and Challenges Toward Harmonization in Bone Marrow Adiposity Research. Report of the Methodologies Working Group of the International Bone Marrow Adiposity SocietyInfluence of induced infection in medication-related osteonecrosis of the jaw development after tooth extraction: A study in ratsT1-weighted MRI images accurately represent the volume and surface of architectural mineral damage of osteonecrosis of the femoral head: Comparison with high-resolution computed tomographyBrief Report From the 4th International Meeting on Bone Marrow Adiposity (BMA2018)Mandibular bone is protected against microarchitectural alterations and bone marrow adipose conversion in ovariectomized ratsDeciphering the combined effect of bone morphogenetic protein 6 and calcium phosphate on bone formation capacity of periosteum derived cells-based tissue engineering constructsEngineering 3D parallelized microfluidic droplet generators with equal flow profiles by computational fluid dynamics and stereolithographic printingExploring polyoxometalates as non-destructive staining agents for contrast-enhanced microfocus computed tomography of biological tissuesHigh-resolution contrast-enhanced microCT reveals the true three-dimensional morphology of the murine placentaThe effect of PPARγ inhibition on bone marrow adipose tissue and bone in C3H/HeJ mice
P50
Q34226141-0BDB6EF9-16F7-4283-9492-F21045CA75FBQ34977987-175F9971-9702-4138-B521-B8930CF69B50Q35663993-8E79C04D-0B54-4811-AEDD-6C97B2538489Q35939431-517A791F-B2FC-4296-B42E-3EB8B5AE5F4DQ37348783-DE5DF4AC-8B6D-4610-88F8-A18375A08213Q38634126-2BE8D90F-9CCE-412C-94FF-CF189AD06F91Q39024054-A6A3A34C-E6AA-480E-B222-E5CB1A85EE64Q39379633-923B31C9-B9FA-48A6-910F-33B841126C8FQ40127288-BBBD67FF-0A48-46F7-8154-31B047AFAD09Q41981860-9FAE82EB-D96C-46A2-B592-0EFA087C2A53Q42210579-54F7D68B-6AC0-4929-A69E-C704F3EA8C62Q47148493-460E426F-1BF2-4243-B36A-092A333595B2Q47197156-A7D8E46F-728E-40F2-858D-89DC04A350FAQ47768318-38EEA1EB-3187-4FF0-86C3-D4230CAC12E1Q48137724-E7DD6B4D-EA1E-4154-AF9E-629816578756Q49294423-FE9C4A3C-9396-4CB6-AB72-E7DEB4DE511DQ51047368-59305551-17FC-4C08-A50D-CC92A0C5F788Q53023080-0B3C3A26-5BD1-4900-B038-55D49285210CQ53044467-F0A575EE-84F0-458B-8CCA-AEACA3EF0D6BQ53172908-8F5BF104-4FCF-4D5B-A98D-EECF2FAAB730Q55004158-18A95FD1-7A3F-49C1-9201-5B39120AD1F9Q57679274-D6F082DD-5565-4D23-AF7A-69F806A67391Q57679326-BF72C926-E350-46D3-A04D-AF4C910259EFQ57679356-5AACB220-5900-4972-938C-A59FF22E6B38Q57679365-83737873-1EF2-4319-9B78-540C279F638DQ57679374-4643FA5C-BB86-44A0-87A6-7A1F3CBDBF99Q64086890-EBDD6F9B-4A82-46C1-BF31-BBC0B9024705Q90128359-88129F61-2218-4419-A76D-F371B87FF52CQ90379794-472748DA-3F0D-40F0-8E51-2EEC10460406Q90813939-C4E998D9-50F4-4D3B-9E17-3A033811CD58Q90954279-C9CC6071-DF58-40DB-8B3F-C963D4149D24Q91082346-7621D038-5736-4C89-9504-1679C219B1E2Q91653314-863AFC2D-6CE4-4F0A-A693-836D4EBB00E6Q91868411-AA6DB7F0-366E-4215-8DBB-19353492D584Q92003620-5E3A0562-D847-484D-B3D0-A01BA5DA9911Q93036762-BCC9CA24-E262-4B2D-902F-D914A7D27BFCQ93087687-CB125101-26B9-4E0B-9E4B-93F891DB773BQ93239673-579B6C5D-58D0-4D95-A04D-941AC8B6D33D
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Greet Kerckhofs
@ast
Greet Kerckhofs
@en
Greet Kerckhofs
@es
Greet Kerckhofs
@nl
type
label
Greet Kerckhofs
@ast
Greet Kerckhofs
@en
Greet Kerckhofs
@es
Greet Kerckhofs
@nl
prefLabel
Greet Kerckhofs
@ast
Greet Kerckhofs
@en
Greet Kerckhofs
@es
Greet Kerckhofs
@nl
P106
P31
P496
0000-0002-1750-8324