Calcium phosphate cement: review of mechanical and biological properties.
about
Calcium phosphate scaffolds combined with bone morphogenetic proteins or mesenchymal stem cells in bone tissue engineeringNanostructured platforms for the sustained and local delivery of antibiotics in the treatment of osteomyelitisSelf-setting calcium orthophosphate formulationsCalcium orthophosphates as bioceramics: state of the artLvBMP-2 gene-modified BMSCs combined with calcium phosphate cement scaffolds for the repair of calvarial defects in rats.Novel intramedullary-fixation technique for long bone fragility fractures using bioresorbable materialsNanotubular surface modification of metallic implants via electrochemical anodization techniqueProperties of Injectable Apatite-Forming Premixed Cements.Biomechanical, histological and histomorphometric analyses of calcium phosphate cement compared to PMMA for vertebral augmentation in a validated animal modelPoly(propylene fumarate) reinforced dicalcium phosphate dihydrate cement composites for bone tissue engineeringDimensional evaluation of patient-specific 3D printing using calcium phosphate cement for craniofacial bone reconstruction.Clinical Significance of β-Tricalcium Phosphate and Polyphosphate for Mastoid Cavity Obliteration during Middle Ear Surgery: Human and Animal StudyModification of Mechanical Properties, Polymerization Temperature, and Handling Time of Polymethylmethacrylate Cement for Enhancing Applicability in Vertebroplasty.Next generation calcium phosphate-based biomaterials.Biocompatibility of calcium phosphate bone cement with optimised mechanical properties: an in vivo studyReview article: bone transplantation and immune response.Acceleration of bone regeneration by activating Wnt/β-catenin signalling pathway via lithium released from lithium chloride/calcium phosphate cement in osteoporosis.Plug and play: combining materials and technologies to improve bone regenerative strategies.Nanomaterials: the next step in injectable bone cements.Natural and Synthetic Materials for Self-Renewal, Long-Term Maintenance, and Differentiation of Induced Pluripotent Stem Cells.The kinetics of remodeling of a calcium sulfate/calcium phosphate bioceramic.Calcium Phosphate Bioceramics: A Review of Their History, Structure, Properties, Coating Technologies and Biomedical Applications.Treatment of bone defect with calcium phosphate cement subsequent to tumor curettage in pediatric patients.Biodegradable/biocompatible coated metal implants for orthopedic applications.Bone regeneration in critical-sized bone defect enhanced by introducing osteoinductivity to biphasic calcium phosphate granules.A Comprehensive Study of Osteogenic Calcium Phosphate Silicate Cement: Material Characterization and In Vitro/In Vivo Testing.Clinical, radiographic, and histological analyses of calcium phosphate cement as filling material in maxillary sinus lift surgery.An effective approach by a chelate reaction in optimizing the setting process of strontium-incorporated calcium phosphate bone cement.New biomaterials for bone regeneration.Curettage and calcium phosphate bone cement injection for the treatment of enchondroma of the finger.In vivo evaluation of injectable calcium phosphate cement composed of Zn- and Si-incorporated β-tricalcium phosphate and monocalcium phosphate monohydrate for a critical sized defect of the rabbit femoral condyle.In vitro evaluation of thermal frontally polymerized thiol-ene composites as bone augmentsIn vivo evaluation of an injectable premixed radiopaque calcium phosphate cement.Calcium phosphate combination biomaterials as human mesenchymal stem cell delivery vehicles for bone repair.Biocompatibility of calcium phosphate bone cement with optimized mechanical propertiesCytocompatibility of the selected calcium phosphate based bone cements: comparative study in human cell culture.Increased osteoblast adhesion on physically optimized KRSR modified calcium aluminate.Pre-clinical evaluation of the mechanical properties of a low-stiffness cement-injectable hip stem.Calcium Orthophosphate Cements and Concretes.Effect of Biomineralization Ability on Push-out Strength of Proroot Mineral Trioxide Aggregate, Mineral Trioxide Aggregate Branco, and Calcium Phosphate Cement on Dentin: An In vitro Evaluation.
P2860
Q28080649-B172F5E3-A080-4B37-97EB-649B2B5AAB21Q28086953-4D885B17-839E-4F8B-B8A6-7374FA730DF6Q28659431-3A054838-1067-4AD6-98F3-D397090F26CEQ28659433-940DA5E5-1A8F-42A0-8ABE-128FC01507E0Q33935116-4C61D9FF-FAA4-4B3F-86E7-56924BEB34F2Q34027870-604E6721-1E7C-4A47-9FC6-FB2C1CAABE56Q34229900-4852F65F-1657-4C8E-B148-2A72EBB0142CQ34772293-DB01DF3C-7F20-4519-96F3-804E59848C93Q35220517-EEA3683B-EB8D-41A7-BE37-99F60E408C99Q35989677-268856D2-51F2-43FA-9461-43CC51E9CC65Q36212441-21732312-11BB-471A-B9E4-3C4210B3FB05Q37192732-7989B667-4D30-4E8B-80F7-CB9AA7F16642Q37366551-76F1878D-BD46-4150-97B2-FF9EA83D69E7Q37413264-51F428B2-F097-408E-997E-29495D5C4306Q37413527-042401C9-274B-4E9E-AFDF-573807FD51C2Q37590051-DFFE9995-8C79-4374-BE7D-08A885473CB7Q37719513-AA1E0429-A9F8-43FF-A975-446F76DCCA75Q38106671-B517A8EE-29FF-4F49-BF66-E411682295A9Q38260736-0E06CE8F-0950-421E-A9FD-E1020E2035DEQ38418144-F11951A1-24ED-46FA-8811-5C2D8B3DE0D3Q38635578-CF98AEC5-1D79-48C1-96E1-3E83EADB0972Q38647414-3EA31366-ABB0-4B13-B042-D5F23BA8F339Q38730801-FCA0A98E-551F-4FF4-B9F8-478CD1C15715Q38833569-5E372598-FA7F-4592-82FD-02500EBA8D4BQ38896155-F63BFB97-AC2A-44B7-BCD7-9835F59C1057Q38931084-730E5758-7E3E-4E7E-A3A7-EF250BEC69C9Q39255103-A62CD195-D05E-4177-A89C-5A381FC4B551Q39396864-A8FD5864-5A8B-4D55-AECC-0E6A36B7DB88Q39610298-3C56D42A-A7D7-438F-9E67-BE496F6BD78AQ40022560-17053D4A-13BE-4037-B6AF-F4FE86C98AE9Q40418665-ED29547F-6AD5-4266-B5E8-8628FEC70100Q41078961-13A3003F-CAB4-405F-AB90-A2C4AA042E9EQ41763828-50DABFAA-C1E9-492E-A975-40FAE778E707Q42325927-49DC9F40-ADFC-48D2-AD6F-2D1D3A3AFE8CQ42377587-776DF04D-56DC-44E4-B21D-7E9835F26189Q42594837-2C543E56-12FF-4727-B1F1-49B259500885Q42799125-39B3A469-A162-465B-9F0A-F09C71E3266CQ44876835-1859F588-BDC8-47DC-96CF-955724CEDA43Q45810325-A25C8A2E-AF31-4ADF-AF7D-E869C9C551C2Q47107868-F0E1300C-1AF5-4FFB-B417-AC5D6C1304BE
P2860
Calcium phosphate cement: review of mechanical and biological properties.
description
2006 nî lūn-bûn
@nan
2006 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Calcium phosphate cement: review of mechanical and biological properties.
@ast
Calcium phosphate cement: review of mechanical and biological properties.
@en
Calcium phosphate cement: review of mechanical and biological properties.
@nl
type
label
Calcium phosphate cement: review of mechanical and biological properties.
@ast
Calcium phosphate cement: review of mechanical and biological properties.
@en
Calcium phosphate cement: review of mechanical and biological properties.
@nl
prefLabel
Calcium phosphate cement: review of mechanical and biological properties.
@ast
Calcium phosphate cement: review of mechanical and biological properties.
@en
Calcium phosphate cement: review of mechanical and biological properties.
@nl
P2860
P1476
Calcium phosphate cement: review of mechanical and biological properties.
@en
P2093
Alberto J Ambard
Leonard Mueninghoff
P2860
P304
P356
10.1111/J.1532-849X.2006.00129.X
P407
P577
2006-09-01T00:00:00Z