Pages that link to "Q51680644"

The following pages link to Increased osteoblast adhesion on nanophase metals: Ti, Ti6Al4V, and CoCrMo (Q51680644):

Displaying 50 items.

• Impact of Dental Implant Surface Modifications on Osseointegration (Q26740183) (← links)
• Surface modification of biodegradable magnesium and its alloys for biomedical applications (Q26774005) (← links)
• Nanomedicine applications in orthopedic medicine: state of the art (Q26785640) (← links)
• Nanotechnology for treating osteoporotic vertebral fractures (Q26796443) (← links)
• Titanium surfaces with nanostructures influence on osteoblasts proliferation: a systematic review (Q27021388) (← links)
• Sensitivity of surface roughness parameters to changes in the density of scanning points in multi-scale AFM studies. Application to a biomaterial surface (Q33273149) (← links)
• Novel fabrication of nano-rod array structures on titanium and in vitro cell responses (Q33321582) (← links)
• TiO2-coated CoCrMo: improving the osteogenic differentiation and adhesion of mesenchymal stem cells in vitro. (Q33462338) (← links)
• Biomedical applications of nanotechnology. (Q33659702) (← links)
• Bioactivities of a Ti surface ablated with a femtosecond laser through SBF (Q33704861) (← links)
• Strontium-loaded titania nanotube arrays repress osteoclast differentiation through multiple signalling pathways: In vitro and in vivo studies (Q33725776) (← links)
• Dental implant systems (Q33853901) (← links)
• Electrophoretic Deposition of Carbon Nanotubes over TiO2 Nanotubes: Evaluation of Surface Properties and Biocompatibility (Q33908551) (← links)
• Enhanced growth and osteogenic differentiation of human osteoblast-like cells on boron-doped nanocrystalline diamond thin films (Q33939490) (← links)
• Bioactive coatings for orthopaedic implants-recent trends in development of implant coatings. (Q34072309) (← links)
• Carboxyl-modified single-wall carbon nanotubes improve bone tissue formation in vitro and repair in an in vivo rat model (Q34198475) (← links)
• Nanostructured diamond coatings for orthopaedic applications (Q34273022) (← links)
• Enhanced compatibility and initial stability of Ti6Al4V alloy orthodontic miniscrews subjected to anodization, cyclic precalcification, and heat treatment (Q34317547) (← links)
• Early fixation of cobalt-chromium based alloy surgical implants to bone using a tissue-engineering approach (Q34323998) (← links)
• Increased healthy osteoblast to osteosarcoma density ratios on specific PLGA nanopatterns (Q34550686) (← links)
• The nano era in dentistry (Q34651177) (← links)
• Effects of nanotopography on stem cell phenotypes (Q34992252) (← links)
• Characteristics of 2 Different Commercially Available Implants with or without Nanotopography. (Q35040567) (← links)
• Implant osseointegration and the role of microroughness and nanostructures: lessons for spine implants (Q35144818) (← links)
• Fabrication of anti-aging TiO2 nanotubes on biomedical Ti alloys (Q35161486) (← links)
• TiO2 nanotube stimulate chondrogenic differentiation of limb mesenchymal cells by modulating focal activity (Q35216388) (← links)
• Advances in bone repair with nanobiomaterials: mini-review (Q35223697) (← links)
• Biological strategies for improved osseointegration and osteoinduction of porous metal orthopedic implants (Q35323590) (← links)
• Manipulating mammalian cell by phase transformed titanium surface fabricated through ultra-short pulsed laser synthesis. (Q35835071) (← links)
• Increased osteoblast function in vitro and in vivo through surface nanostructuring by ultrasonic shot peening (Q35887344) (← links)
• Biofunctionalization of a titanium surface with a nano-sawtooth structure regulates the behavior of rat bone marrow mesenchymal stem cells (Q36173069) (← links)
• In vitro and in vivo studies of surface-structured implants for bone formation (Q36247055) (← links)
• Vascularized bone tissue engineering: approaches for potential improvement (Q36280875) (← links)
• Nanobiotechnology: implications for the future of nanotechnology in orthopedic applications (Q36314929) (← links)
• Technological advances in nanoscale biomaterials: the future of synthetic vascular graft design (Q36315022) (← links)
• Increased endothelial and vascular smooth muscle cell adhesion on nanostructured titanium and CoCrMo (Q36717948) (← links)
• Increased osteoblast adhesion on nanoparticulate crystalline hydroxyapatite functionalized with KRSR. (Q36718008) (← links)
• Understanding the wetting properties of nanostructured selenium coatings: the role of nanostructured surface roughness and air-pocket formation (Q36891811) (← links)
• Nanotechnology and biomaterials for orthopedic medical applications (Q36917879) (← links)
• Nanosurfaces and nanostructures for artificial orthopedic implants (Q37038842) (← links)
• Significance of nano- and microtopography for cell-surface interactions in orthopaedic implants (Q37084527) (← links)
• Decreased astroglial cell adhesion and proliferation on zinc oxide nanoparticle polyurethane composites (Q37085384) (← links)
• Mesenchymal stem cell response to topographically modified CoCrMo. (Q37156040) (← links)
• Increased osteoblast cell density on nanostructured PLGA-coated nanostructured titanium for orthopedic applications (Q37178193) (← links)
• Osseointegration of TI6Al4V dental implants modified by thermal oxidation in osteoporotic rabbits (Q37218840) (← links)
• Proliferation and osteogenic differentiation of rat BMSCs on a novel Ti/SiC metal matrix nanocomposite modified by friction stir processing (Q37497512) (← links)
• Nanotechnology controlled drug delivery for treating bone diseases (Q37564501) (← links)
• Nanoscale Surface Modifications of Orthopaedic Implants: State of the Art and Perspectives. (Q37633493) (← links)
• Direct role of interrod spacing in mediating cell adhesion on Sr-HA nanorod-patterned coatings (Q37635425) (← links)
• Osteogenic activity of titanium surfaces with hierarchical micro-/nano-structures obtained by hydrofluoric acid treatment (Q37652869) (← links)