The healing potential of the periosteum molecular aspects.
about
Establishment of a femoral critical-size bone defect model in immunodeficient mice.Structural and cellular features in metaphyseal and diaphyseal periosteum of osteoporotic rats.The spatiotemporal role of COX-2 in osteogenic and chondrogenic differentiation of periosteum-derived mesenchymal progenitors in fracture repair.Myogenic progenitors contribute to open but not closed fracture repair.A sulfated nanofibrous mesh supporting the osteogenic differentiation of periosteum-derived cells.Imaging and quantifying solute transport across periosteum: implications for muscle-bone crosstalk.The nature and role of periosteum in bone and cartilage regenerationEmulating native periosteum cell population and subsequent paracrine factor production to promote tissue engineered periosteum-mediated allograft healingHuman periosteum is a source of cells for orthopaedic tissue engineering: a pilot studyMuscle-bone interactions during fracture healing.The impact of surface roughness and permeability in hydroxyapatite bone regeneration membranes.Synergistic induction of early stage of bone formation by combination of recombinant human bone morphogenetic protein-2 and epidermal growth factor.Vascularized bone tissue engineering: approaches for potential improvementOsteogenic Potential of Mouse Periosteum-Derived Cells Sorted for CD90 In Vitro and In VivoPeriosteal augmentation of allograft bone and its effect on implant fixation - an experimental study on 12 dogs().Attenuated human bone morphogenetic protein-2-mediated bone regeneration in a rat model of composite bone and muscle injury.Inflammation, fracture and bone repair.Activation of the acquired immune response reduces coupled bone formation in response to a periodontal pathogen.The effect of periosteal injury and masticatory micromovement on the healing of a mandibular distraction osteogenesis siteThe effect of mesenchymal stem cells delivered via hydrogel-based tissue engineered periosteum on bone allograft healing.Stem cell- and scaffold-based tissue engineering approaches to osteochondral regenerative medicine.Biofabrication and Bone Tissue Regeneration: Cell Source, Approaches, and Challenges.The Effect of Exogenous Zinc Concentration on the Responsiveness of MC3T3-E1 Pre-Osteoblasts to Surface Microtopography: Part I (Migration).Wrapped omentum with periosteum concurrent with adipose derived adult stem cells for bone tissue engineering in dog model.Changes in cell migration of mesenchymal cells during osteogenic differentiation.Osteoinduction of umbilical cord and palate periosteum-derived mesenchymal stem cells on poly(lactic-co-glycolic) acid nanomicrofibers.Spontaneous Bone Regeneration in an Open Segmental Fracture of the Forearm with Extruded Middle Segment.Scintigraphic evaluation of the osteoblastic activity of rabbit tibial defects after HYAFF11 membrane applicationEffect of mechanical stimuli on skeletal regeneration around implants.Periosteum derived stem cells for regenerative medicine proposals: Boosting current knowledgePlatelet-rich plasma encapsulation in hyaluronic acid/gelatin-BCP hydrogel for growth factor delivery in BCP sponge scaffold for bone regeneration.Semipermanent volumization by an absorbable filler: onlay injection technique to the bone.Use of a collagen membrane loaded with recombinant human bone morphogenetic protein-2 with collagen-binding domain for vertical guided bone regeneration.Bone tissue engineering with periosteal-free graft and pedicle omentum.The spatio-temporal arrangement of different tissues during bone healing as a result of simple mechanobiological rules.The potential for vertical bone regeneration via maxillary periosteal elevation.Horizontal ridge reconstruction of the anterior maxilla using customized allogeneic bone blocks with a minimally invasive technique - a case series.Negative pressure wound therapy promotes muscle-derived stem cell osteogenic differentiation through MAPK pathway.Early stages of bone fracture healing: formation of a fibrin-collagen scaffold in the fracture hematoma.Systemic administration of omeprazole interferes with bone healing and implant osseointegration: an in vivo study on rat tibiae.
P2860
Q33711567-B5814760-964D-4847-BB31-8BBC366781FCQ33781220-AC6F1FF2-C7C5-4F46-B5CA-5675A9A67B04Q33837902-5A2161F0-3DA9-4B92-9C39-C431D4DF8AF7Q34108884-27EBFA58-7053-43A4-961E-C985C8F9D4D9Q34323750-B5C3A4D5-1544-405B-8C43-C9F077E2581CQ35188081-75B9C814-88E3-4AAD-BA2C-CC5FBF76EEC3Q35226575-A3ABB213-C663-4B5C-9191-8EE38DCDF098Q35232478-057D14E2-EB39-4F74-8871-8F98F4B81885Q35242784-C8EC8EA7-3346-48F6-A22E-3CD85A870E14Q35612050-BAB898E1-68F6-4E4C-914E-C7B4F710645EQ35809253-154DE74E-F3A3-457A-AC55-9CABF69D9A5FQ35835009-27A99A44-61A8-4B3C-8A9B-22773C84B3C6Q36280875-23155193-24C3-4E43-A9F3-960908B84284Q36510086-C73ED60E-6A13-4426-91EA-3EF1FCDF8F38Q36589797-AC1E0551-965A-4610-9B8D-C7D83CDD9F6BQ36641581-7E3BCBB8-48DF-4F4C-85CC-F51B0ADEA234Q36803719-48595C06-39BC-41A6-9328-B12C7303FD54Q37089072-28EA4B5C-EE32-4A59-80F6-6D101FDB4C91Q37145529-425A86F9-743F-4FDE-AF12-1D299266D477Q37224988-1E256560-5579-460A-BCF3-150899C61B16Q37512645-167CDA6F-7F8B-4B0C-95C9-A18054D07480Q37716810-9B3EB241-75F0-4DC0-AD78-01C1C70881CFQ38633969-16351D0D-0667-44FE-A47A-3D238D5A03C6Q39398206-84D7C496-7774-45A3-9E43-E54D58974945Q39440400-997B9ECF-A104-415C-A040-E4D191B24F0EQ40425625-0F0E409D-641C-4249-9B6C-83A404525205Q40507597-6DA59D94-C94B-4A99-B9D0-D0494A42BB49Q40949393-13C44E69-C854-440E-9FAE-4C34282F64BEQ41736361-53165A47-D52C-44CD-B390-36AE675F045DQ42787998-EC1FD953-8B62-43DA-87A8-60623EFC6193Q42835345-446547CC-0362-44D8-9858-5491CAD90157Q42913979-96F80BA0-A669-4D84-8A69-E58DF2F9FD36Q44211423-4149327F-F449-4696-BD1E-F10543FD09B4Q45241609-2FB489F9-A341-4B7D-BEEA-CA658A0B979DQ45324123-90F6733B-3FF6-4E8A-BEFE-3F9558EDE69DQ46283484-6E6B2C9F-0234-408B-BA9F-71ED96CCE042Q47096718-1F4D6B58-E468-4208-96B3-38CAD3EA1980Q47156422-C23CFE25-4B88-4B72-82E2-18343EC0678DQ50990202-7435D0E6-AB75-42C5-8551-2D7D4E6F63F7Q51578494-6E9B0D11-4857-47CF-A5BB-B8C44425AD96
P2860
The healing potential of the periosteum molecular aspects.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
The healing potential of the periosteum molecular aspects.
@ast
The healing potential of the periosteum molecular aspects.
@en
type
label
The healing potential of the periosteum molecular aspects.
@ast
The healing potential of the periosteum molecular aspects.
@en
prefLabel
The healing potential of the periosteum molecular aspects.
@ast
The healing potential of the periosteum molecular aspects.
@en
P1433
P1476
The healing potential of the periosteum molecular aspects.
@en
P2093
Konstantinos N Malizos
Loukia K Papatheodorou
P356
10.1016/J.INJURY.2005.07.030
P478
36 Suppl 3
P577
2005-11-01T00:00:00Z