about
Frizzled class receptor 9Leucine rich repeat containing G protein-coupled receptor 6Cellular communication network factor 3Periostin, osteoblast specific factor, isoform CRA_cFrizzled class receptor 9Leucine-rich repeat-containing G protein-coupled receptor 6Periostin, osteoblast specific factorCellular communication network factor 3Cellular communication network factor 3Frizzled class receptor 9Leucine-rich repeat-containing G protein-coupled receptor 6Periostin
P682
Plant homeodomain finger protein 2 promotes bone formation by demethylating and activating Runx2 for osteoblast differentiationMechanisms of guided bone regeneration: a reviewSostdc1 deficiency accelerates fracture healing by promoting the expansion of periosteal mesenchymal stem cells.The use of human dental pulp stem cells for in vivo bone tissue engineering: A systematic review.Dimensional Changes of the Soft Tissue after Alveolar Ridge Preservation with a Collagen Material. A Clinical Randomized Trial.Individual response variations in scaffold-guided bone regeneration are determined by independent strain- and injury-induced mechanismsFeasible Advantage of Bioactive/Bioresorbable Devices Made of Forged Composites of Hydroxyapatite Particles and Poly-L-lactide in Alveolar Bone Augmentation: A Preliminary StudyEnhanced bone regeneration of the silk fibroin electrospun scaffolds through the modification of the graphene oxide functionalized by BMP-2 peptideDental pulp stem cells and Bonelike for bone regeneration in ovine modelBiomechanical Stability and Osteogenesis in a Tibial Bone Defect Treated by Autologous Ovine Cord Blood Cells-A Pilot StudyRidge Augmentation Comparing a Block Allograft to a Demineralized Bone Matrix Allograft.Osteoclast Impairment in Chronic Periodontitis by Regenerative Materials.Comparative Results of Six Biomaterials Used in Two-stage Maxillary SinusGuided Bone Regeneration of Peri-implant Defects Comparing Submerged Versus Non-submerged HealingPre-market Study to Evaluate Safety and Performance of GreenBone Implant (Long Bone Study)Study on Immediate Loading of Immediately Placed Single Implants.Fibrin Sealant Derived from Human Plasma as a Scaffold for Bone Grafts Associated with Photobiomodulation TherapyComparison between curcumin and all-trans retinoic acid in the osteogenic differentiation of mouse bone marrow mesenchymal stem cells3D gelatin-chitosan hybrid hydrogels combined with human platelet lysate highly support human mesenchymal stem cell proliferation and osteogenic differentiationEngineered Extracellular Vesicles From Human Periodontal-Ligament Stem Cells Increase VEGF/VEGFR2 Expression During Bone RegenerationInfluence of Fractionation Methods on Physical and Biological Properties of Injectable Platelet-Rich Fibrin: An Exploratory StudyAre critical size bone notch defects possible in the rabbit mandible?Autologous Platelet Concentrates in Treatment of Furcation Defects-A Systematic Review and Meta-AnalysisImmune Modulation by Transplanted Calcium Phosphate Biomaterials and Human Mesenchymal Stromal Cells in Bone RegenerationIn vivo bone regeneration by differently designed titanium membrane with or without surface treatment: a study in rat calvarial defectsThe Osteogenic Potential of Brown Seaweed ExtractsApplication of a Bioactive/Bioresorbable Three-Dimensional Porous Uncalcined and Unsintered Hydroxyapatite/Poly-D/L-lactide Composite with Human Mesenchymal Stem Cells for Bone Regeneration in Maxillofacial Surgery: A Pilot Animal StudyMicro-Nano Bioactive Glass Particles Incorporated Porous Scaffold for Promoting Osteogenesis and AngiogenesisSustained Release from Injectable Composite Gels Loaded with Silver Nanowires Designed to Combat Bacterial Resistance in Bone Regeneration ApplicationsMaterial and regenerative properties of an osteon-mimetic cortical bone-like scaffoldDelivery vehicle of muscle-derived irisin based on silk/calcium silicate/sodium alginate composite scaffold for bone regenerationInfluence of wound closure on volume stability with the application of different GBR materials: an cone-beam computed tomographic studymiRNA-21 promotes osteogenesis via the PTEN/PI3K/Akt/HIF-1α pathway and enhances bone regeneration in critical size defectsProspective Evaluation of Anorganic Bovine Bone Mineral Versus Calcium Phosphosilicate Alloplastic Bone Putty in Direct Sinus Augmentation: a Spilt-mouth StudyEvaluation of Osteoconduction of Biphasic Calcium Phosphate Ceramic in the Calvaria of Rats: Microscopic and Histometric AnalysisA Comparative Study Between the Effectiveness of 980 nm Photobiomodulation Delivered by Hand-Piece With Gaussian vs. Flat-Top Profiles on Osteoblasts MaturationInfluence of exposing dental implants into the sinus cavity on survival and complications rate: a systematic reviewIn vitro cellular testing of strontium/calcium substituted phosphate glass discs and microspheres shows potential for bone regenerationGadolinium-doped bioglass scaffolds promote osteogenic differentiation of hBMSC via the Akt/GSK3β pathway and facilitate bone repair in vivoMicrornas at the Interface between Osteogenesis and Angiogenesis as Targets for Bone Regeneration
P921
Q21115915-28F02C83-99F4-4DD5-951D-1032821302ACQ21121567-560AA609-16BF-42F1-8C12-0CD7055AEDD1Q21134442-82CE2306-CB07-4AB9-AA57-C8B98693DA8FQ21141384-1E8B7AB1-8BA6-40D7-B126-A0EACC736962Q21981591-3BCC38E0-52A9-454B-9E6A-6A3551426BC7Q21984630-CB5CE7DF-A3A0-4F7A-AB3C-A9A145047539Q21989384-06AE249E-D379-4C1F-A43D-CBE0C2FCF634Q21990376-16736166-762C-41A6-AE1E-4B8B4B6D48A2Q28561713-6D7943AD-6C2F-42AC-9A40-1C3005E62D35Q28562312-0D0970DC-93BE-486B-8873-BEFC8C1B8C55Q29516960-E7220D6D-286C-4D4D-B4C8-0B0398FF1636Q3899926-02C8F31D-354B-40EF-AC52-348B1BE754FC
P682
Q34289926-55EF8728-8847-4157-8773-8D7A281C2DB4Q38217453-19ddce36-462e-2aa4-49ee-897eb65134d3Q39832324-528CAF94-9CBF-4556-AD1E-B6EE28987449Q48155653-CC0552EA-D0F2-438D-A888-B79131241B6AQ55469451-357A1BE4-D3D6-49A0-9129-7F7573C659ADQ61801755-9421AA82-ACE4-4D2B-82E9-C556B7450330Q61809468-5E48DCF0-C4D7-4AE5-87DE-F31FFFF4B10AQ61813492-3C8C966D-1D0E-4524-B1EC-656B0032A3AEQ61814422-E1E9A2CE-92D9-4D10-ABF9-E69620E07436Q61817096-700A5C54-4B21-4EA0-8018-EB0A96459E3AQ61894659-E1337E7F-8B46-4BB4-8BFB-992E2CC5AAD2Q63013385-2C77C070-42D0-4231-99F0-ECE194099C8FQ63400017-A84F6385-7FD0-4F19-BDDB-9E2990D2F056Q63578848-9DEDEA87-5935-4B9A-AECC-0658C775B3C9Q63582113-36B564EA-8EC3-4B03-B71D-2717F262372FQ63833803-8E5D166F-FED8-46FE-BCB7-9618DA65D1F7Q64059682-0EDEF6A4-D520-48F2-B31D-7570DB30CA00Q64069721-264A9831-FFD1-4D5C-A498-02FB6CB0482BQ64071193-C69A83CE-F262-4609-8BB5-F4A64C584092Q64079064-14DDE04E-D475-4CB3-A063-8B57012C6F59Q64080509-A68EBDB9-0B79-4072-844C-DA9D81052811Q64081662-5E5115E9-E279-46E2-A020-7F2525845AD9Q64083647-2FD74B43-B014-4478-BD60-B8FDE87D739AQ64084531-D5DDA838-08F3-4AC1-95CB-40B09159BECFQ64089788-78CB2258-59EF-44B1-933D-067FF2B70EC8Q64090163-8F9109AC-BA5C-4C7C-B708-99AF49543CB7Q64096311-11238C2F-733A-4E86-8727-0AB17C9209F3Q64102012-FDB6B723-599A-42E7-87B0-6C784F3BD9F9Q64104951-D4D2FEBC-B3B8-42A4-BAFD-D90D955C7726Q64109622-6C94E66B-DEF2-412C-B97F-C977F111CDA0Q64111614-4B1B8034-707E-4A61-933C-C6BDD4CFEEFCQ64112235-BB33554D-2D93-4A6B-9421-41F3CCE1CBCAQ64116747-D7FA30A6-72BC-4687-B714-60226A6227D2Q64172381-237DB9F9-8E28-4372-AA3E-2D4AF51B4ED7Q64228919-2809B447-0F56-4E82-A940-B31A3D8D16A1Q64229996-3D0F425C-C5A2-46AC-BB09-D9C8AD284DDAQ64230990-BEC3C5D9-C138-4BF5-A134-7929996D12EAQ64237704-3A57030B-25A3-4DF6-B2C1-8CDA31DB38DDQ64242863-131409DD-934D-4FD0-A5DD-A22AF4772418Q64243138-F16C9CB1-9C21-4DDF-864A-5B482C61904B
P921
description
The regrowth of bone following its loss or destruction.
@en
biologisch proces
@nl
name
bone regeneration
@en
type
label
bone regeneration
@en
prefLabel
bone regeneration
@en
P486
P2888
P3417
Bone-Regeneration
P3827
bone-regeneration
P486
P686
GO:1990523