2013
Bone marrow absorption and retention properties of engineered scaffolds with micro-channels and nano-pores for tissue engineering: A proof of concept
Oh D, Kim Y, Ganbat D, Han M, Lim P, Back J, Lee F, Tawfeek H. Bone marrow absorption and retention properties of engineered scaffolds with micro-channels and nano-pores for tissue engineering: A proof of concept. Ceramics International 2013, 39: 8401-8410. DOI: 10.1016/j.ceramint.2013.04.021.Peer-Reviewed Original ResearchCapillary actionNano-sized poresMicro-sized channelsNative trabecular boneHydroxyapatite-based scaffoldProof of conceptTissue engineeringCoating methodHuman trabecular boneSurface areaEntire scaffoldOverall porosityRetention propertiesTrabecular boneScaffoldsDesign softwareNovel scaffoldCells ingressTrabecular networkInternal structurePorosityAbsorptionIngressEngineeringCombinatorial effects
1998
Micromechanical Properties of Epiphyseal Trabecular Bone and Primary Spongiosa Around the Physis: An In Situ Nanoindentation Study
Lee F, Rho J, Harten R, Parsons J, Behrens F. Micromechanical Properties of Epiphyseal Trabecular Bone and Primary Spongiosa Around the Physis: An In Situ Nanoindentation Study. Journal Of Pediatric Orthopaedics 1998, 18: 582-585. PMID: 9746404, DOI: 10.1097/00004694-199809000-00004.Peer-Reviewed Original Research