about
Evaluation of silicon nitride as a wear resistant and resorbable alternative for total hip joint replacementBiomechanical, histological, and ultrastructural analyses of laser micro- and nano-structured titanium alloy implants: a study in rabbit.High-resolution three-dimensional probes of biomaterials and their interfaces.Three-dimensional structure of laser-modified Ti6Al4V and bone interface revealed with STEM tomography.Pyrophosphate Stimulates Differentiation, Matrix Gene Expression and Alkaline Phosphatase Activity in Osteoblasts.Synthesis of Ag doped calcium phosphate particles and their antibacterial effect as additives in dental glass ionomer cements.Brushite foams--the effect of Tween® 80 and Pluronic® F-127 on foam porosity and mechanical propertiesResolving the CaP-bone interface: a review of discoveries with light and electron microscopy.Guided growth of auditory neurons: Bioactive particles towards gapless neural - electrode interface.Fabrication of macroporous cement scaffolds using PEG particles: In vitro evaluation with induced pluripotent stem cell-derived mesenchymal progenitors.The effect of oligo(trimethylene carbonate) addition on the stiffness of acrylic bone cement.The influence of Sr content in calcium phosphate coatings.Classification and Effects of Implant Surface Modification on the Bone: Human Cell-Based In Vitro Studies.Compressive mechanical properties and cytocompatibility of bone-compliant, linoleic acid-modified bone cement in a bovine model.Calcium phosphate cements with strontium halides as radiopacifiers.Reactive combinatorial synthesis and characterization of a gradient Ag-Ti oxide thin film with antibacterial properties.Sustained release of simvastatin from premixed injectable calcium phosphate cement.An evaluation of methods to determine the porosity of calcium phosphate cements.Influence of polymer addition on the mechanical properties of a premixed calcium phosphate cement.Mesoporous titanium dioxide coating for metallic implants.Low-modulus PMMA bone cement modified with castor oil.Porosity prediction of calcium phosphate cements based on chemical composition.In vitro antibacterial properties and UV induced response from Staphylococcus epidermidis on Ag/Ti oxide thin films.Enhanced drug delivery of antibiotic-loaded acrylic bone cements using calcium phosphate spheres.Enhanced bioactivity of glass ionomer cement by incorporating calcium silicates.Hydroxyapatite formation on a novel dental cement in human saliva.Synergetic inactivation of Staphylococcus epidermidis and Streptococcus mutansin a TiO2/H2O2/UV systemPremixed calcium silicate cement for endodontic applications: injectability, setting time and radiopacity.Bone tissue reactions to biomimetic ion-substituted apatite surfaces on titanium implants.Influence of Substrate Heating and Nitrogen Flow on the Composition, Morphological and Mechanical Properties of SiNx Coatings Aimed for Joint Replacements.Antibacterial properties of dental luting agents: potential to hinder the development of secondary caries.Synthesis and characterization of injectable composites of poly[D,L-lactide-co-(ε-caprolactone)] reinforced with β-TCP and CaCO3 for intervertebral disk augmentation.Morphological studies on machined implants of commercially pure titanium and titanium alloy (Ti6Al4V) in the rabbit.Biomineralized strontium-substituted apatite/titanium dioxide coating on titanium surfaces.In vivo and in vitro evaluation of hydroxyapatite nanoparticle morphology on the acute inflammatory response.Simvastatin and zinc synergistically enhance osteoblasts activity and decrease the acute response of inflammatory cells.Influence of water content on hardening and handling of a premixed calcium phosphate cement.Influence of particle size on hardening and handling of a premixed calcium phosphate cement.Influence of cement compressive strength and porosity on augmentation performance in a model of orthopedic screw pull-out.Hydroxylapatite growth on single-crystal rutile substrates.
P50
Q28287449-57A842CE-516D-4088-A6CF-34456DA14B87Q33441498-BE09B8C1-8443-473D-8FC8-F655226C01A0Q34164325-E5595E64-C954-475C-B742-D673DD74B541Q34393390-8FEE56CD-16ED-4870-A605-4E643CF9803AQ36152650-895EE37A-7324-4D93-AC7F-E07A218E64F8Q36153291-9DDD0EA5-2EB4-4BB4-A79C-269D52AE3F89Q37257309-5D74E850-816C-4C7D-92D1-F2467CA67934Q38090901-2641633E-743E-4FEB-8E1A-95B28E4B9B4DQ38720334-457384E4-4597-4698-8018-B8BB9BE34CA0Q38747289-151FAFB6-39C3-46CD-97C4-1C55984104D5Q38806792-E762FA1D-E49E-4291-A6BA-95FF6A52E9CBQ38867630-882CF1A8-2B21-446D-A84C-5A63338F2C78Q39023398-4000C124-540E-4A05-8191-249EBAFCD8C9Q39025920-35EDCC2B-D399-40EC-9269-E00BA72DC6DEQ39101337-762337AB-DCBF-4A65-A4E6-9AE75843098BQ39118918-1A112E14-12D9-44A1-8BC6-8B2A0499CA01Q39175064-632A2923-FC31-43EB-84F7-101277AE7A44Q39203720-23907DC3-21FB-4F6A-8FF0-8BCEC004675CQ39308867-2921DDF0-193B-4C3F-A340-97AA16764212Q39466906-47FEEB6C-398E-4BE9-A5F7-5ABAA3F45E9EQ39614334-75CC152C-D749-4B7F-9F43-B0A8BF6A44EFQ40743505-23C8A833-391D-4777-BCF4-3C4FE3B93C18Q40835777-0AB68211-1970-491D-9E14-999517D009DCQ41141677-83AD96F2-D4EF-472F-9CC7-7C4D92DB0872Q41368519-82332D0B-2D07-4DA6-9AEC-4F08925CA2DFQ41778542-0D1EA0FF-BBBF-47DF-8A31-85C2BFD6B8EBQ42022818-69468A97-0A46-4B5C-980B-4891B0C4C455Q42110065-4DB861A9-6D52-4ACF-90BE-AFFC578BF1E4Q42184309-1A580551-8141-4A64-85CA-18350187DAD3Q42221487-1A089409-6223-4BA1-B481-AF2562FFE767Q42567101-435DA1F4-0964-4687-BA9C-E47A5E771FDDQ42931474-10BB4999-BDB2-476E-AFBA-709EBDF82122Q45977270-F4713595-100A-47D4-BF48-3F7253453D83Q46274110-A3A7EE41-243D-4CFB-B6B6-8E4E7B389221Q46580154-58C21B2A-7F58-4BAB-98B0-593E09093AC9Q46618850-48FA783B-1155-433B-9641-365A2FF7F0CCQ46881998-E3E2634D-541B-4208-BEC0-709D1144E531Q47255701-197EDDBD-7834-4B2F-A304-DA560725B4E3Q47383492-B2560768-5EC6-4FF6-B98D-9B3695A2C8ADQ47712323-555BA105-BD60-4352-9B5F-64B234E3CCF2
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Håkan Engqvist
@en
Håkan Engqvist
@nl
type
label
Håkan Engqvist
@en
Håkan Engqvist
@nl
prefLabel
Håkan Engqvist
@en
Håkan Engqvist
@nl
P108
P31
P496
0000-0001-9529-650X