References
- BishopJAPalancaAABellinoMJLowenbergDWAssessment of compromised fracture healingJ Am Acad Orthop Surg201220527328222553099
- idataresearch.comU.S. Orthopedic Trauma Devices Market2013
- JeffersJRBrowneMLennonABPrendergastPJTaylorMCement mantle fatigue failure in total hip replacement: experimental and computational testingJ Biomech20074071525153317070816
- RamosASimõesJAThe influence of cement mantle thickness and stem geometry on fatigue damage in two different cemented hip femoral prosthesesJ Biomech200942152602261019660758
- GraviusSWirtzDCSiebertCHIn vitro interface and cement mantle analysis of different femur stem designsJ Biomech2008412021202818514207
- ChristensenSLPadmosJDChattAZhangPPreparation and orthopaedic applications of nanoparticle-modified biocompatible surfacesRev Nanosci Nanotechnol201326378
- Al MansourFKarpukhinaNGrassoSWilsonRMReeceMJCattellMJThe effect of spark plasma sintering on lithium disilicate glass-ceramicsDent Mater20153110e226e23526211698
- OhashiKLRomeroACMcGowanPDMaloneyWJDauskardtRHAdhesion and reliability of interfaces in cemented total joint arthroplastiesJ Orthop Res1998167057149877395
- HoseinYKGrahamJWDunningCEThe effect of stem circumferential grooves on the stability at the implant-cement interfaceJ Med Devices20148014504
- ManleyMTSternLSGurtowskiJThe load carrying and fatigue properties of the stem–cement interface with smooth and porous coated femoral componentsJ Biomed Mater Res1985195635754066729
- FritscheAHaenleMZietzCMechanical characterization of anti-infectious, anti-allergic, and bioactive coatings on orthopedic implant surfacesJ Mater Sci20094455445551
- Javier GilFPlanellJAPadrosAAparicioCThe effect of shot blasting and heat treatment on the fatigue behavior of titanium for dental implant applicationsDent Mater200723448649116620949
- LaamouriAFathallahRSidhomHBrahamCHigh cycle fatigue behavior prediction of shot peened partsInt J Fatigue20042610531067
- NallaRKAtenbergerINosterULiuGYScoltesBRitchieROOn the influence of mechanical surface treatment–deep rolling and laser shock peening–on the fatigue behavior of Ti6Al4V at ambient and elevated temperaturesMater Sci Eng A2003335216230
- I. LSP Technologies2013How Laser Peening Works Available from: http://www.lsptechnologies.com/how-laser-peening-works.php
- HamanakaHDoiHYoneyamaTOkunoODental casting of titanium and Ni-Ti alloys by a new casting machineJ Dent Res19896811152915332685069
- VaughanMBOdejimiTDMorrisTLSawalhaDSpencerCLA new bioassay identifies proliferation ratios of fibroblasts and myofibroblastsCell Biol Int20143898198624764319
- LangenbachFBerrKNaujoksCGeneration and differentiation of microtissues from multipotent precursor cells for use in tissue engineeringNat Protoc201161726173522011655
- HavlikovaJStraskyJVandrovcovaMInnovative surface modification of Ti–6Al–4V alloy with a positive effect on osteoblast proliferation and fatigue performanceMater Sci Eng C Mater Biol Appl20143937137924863238
- ShenNDingHBowersRSurface micropatterning of pure titanium for biomedical applications via high energy pulse laser peeningJ Micro Nano Manuf20153011005
- HashemibeniBJafaryFEsmaeilComparison of phenotypic characterization between differentiated osteoblasts from stem cells and calvaria osteoblasts in vitroInt J Prev Med2013418018623543256
- LimJYShaughnessyMCZhouZNohHVoglerEADonahueHJSurface energy effects on osteoblast spatial growth and mineralizationBiomaterials2008291776178418222536
- CrockettJCRogersMJCoxonFPHockingLJHelfrichMHBone remodelling at a glanceJ Cell Sci201112499199821402872
- DaviesJPHarrisWHStrength of cement-metal interfaces in fatigue: comparison of smooth, porous and precoated specimensClin Mater19931212112610148341
- KhandakerMUtsahaKCMorrisTInterfacial fracture toughness of titanium-cement interfaces: effects of fibers and loading anglesInt J Nanomedicine201491689169724729704
- WalshWRSvehlaMJRussellJCemented fixation with PMMA or Bis-GMA resin hydroxyapatite cement: effect of implant surface roughnessBiomaterials2004254929493415109853
- JinnoTGoldbergVMDavyDStevensonSOsseointegration of surface-blasted implants made of titanium alloy and cobalt-chromium alloy in a rabbit intramedullary modelJ Biomed Mater Res19984220299740003
- GötzHEMüllerMEmmelAHolzwarthUErbenRGStanglREffect of surface finish on the osseointegration of laser-treated titanium alloy implantsBiomaterials2004254057406415046896
- WuSLiuXYeungKWKSurface nano-architectures and their effects on the mechanical properties and corrosion behavior of Ti-based orthopedic implantsSurf Coat Technol20132331326
- KhandakerMLiYMorrisTMgO micro/nano particles for the improvement of cement–bone interfaceJ Biomech2013461035103923332232
- LimHKimPJeongHJeongSEnhancement of abrasion and corrosion resistance of duplex stainless steel by laser shock peeningJ Mater Processing Technol201212113471354
- QiaoHZhaoJGaoYExperimental investigation of laser peening on TiAl alloy microstructure and propertiesChin J Aeronaut201528609616
- CharitidisCAKarakasidisTEKavourasPKarakostasTThe size effect of crystalline inclusions on the fracture modes in glass-ceramic materialsJ Phys Condens Matter20071926620921694086
- KarakasidisTECharitidisCAInfluence of nano-inclusions’ grain boundaries on crack propagation modes in materialsMater Sci Eng B2011176490493
- KhangDKimSYLiu-SnyderPPalmoreGTRDurbinSMWebsterTJEnhanced fibronectin adsorption on carbon nanotube/poly(carbonate) urethane: independent role of surface nano-roughness and associated surface energyBiomaterials2007284756476817706277