Search results for "Titanium Implants"

showing 3 items of 3 documents

Skull Bone Defects Reconstruction with Custom-Made Titanium Graft shaped with Electron Beam Melting Technology: Preliminary Experience in a Series of…

2017

Background: Cranioplasty represents a challenge in neurosurgery. Its goal is not only plastic reconstruction of the skull but also to restore and preserve cranial function, to improve cerebral hemodynamics, and to provide mechanical protection of the neural structures. The ideal material for the reconstructive procedures and the surgical timing are still controversial. Many alloplastic materials are available for performing cranioplasty and among these, titanium still represents a widely proven and accepted choice. Methods: The aim of our study was to present our preliminary experience with a “custom-made” cranioplasty, using electron beam melting (EBM) technology, in a series of ten patien…

AdultMaleDecompressive Craniectomymedicine.medical_treatmentchemistry.chemical_elementDentistryNeurosurgical ProceduresCranioplasty030218 nuclear medicine & medical imagingProsthesis Implantation03 medical and health sciencesImaging Three-Dimensional0302 clinical medicineFreezingElectron beam melting technologymedicineHumansSkull boneReconstructive Surgical ProceduresCustom-made titanium implantsAgedRetrospective StudiesTitaniumSettore MED/27 - Neurochirurgiabusiness.industrySkullMiddle AgedCranioplastySkullmedicine.anatomical_structurechemistry3D computer-aided design and computer-aided manufacturing (CAD/CAM) technologiesCerebral hemodynamicsComputer-Aided DesignFemaleSkull bone defectsTomography X-Ray Computedbusiness030217 neurology & neurosurgeryTitaniumBiomedical engineering
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Fracture resistance and the mode of failure produced in metal-free crowns cemented onto zirconia abutments in dental implants.

2019

The purpose of the investigation was to analyze fracture resistance and mode of failure of zirconium oxide (zirconia) abutments placed on dental implants bearing crowns of different esthetic materials: zirconia, lithium disilicate (LDS), and nano-ceramic resin, for replacing single teeth in the anterior sector. Eighty implant-abutment-crown units were divided into four groups: Group T-MC (control): 20 metal-ceramic crowns cemented onto titanium abutments; Group Z-Z: 20 zirconia crowns on zirconia abutments; Group Z-LD: 20 lithium disilicate crowns on zirconia abutments; and Group Z-NCR: 20 nano-ceramic resin crowns on zirconia abutments. Specimens underwent a fatiguing process (dynamic load…

CeramicsTeethMedical Implantsmedicine.medical_treatmentDentistry02 engineering and technologyMaterial Fatigue0302 clinical medicineMaterials PhysicsMaterials TestingMedicine and Health SciencesCubic zirconiaDental Restoration FailureMaterialsDental CementumTitaniumProstheticsMultidisciplinaryCrownsPhysicsQRClassical Mechanics021001 nanoscience & nanotechnologyChemistryPhysical SciencesMedicineEngineering and TechnologyAnatomy0210 nano-technologyTitaniumResearch ArticleBiotechnologyChemical ElementsMaterials scienceScienceBiomaterial ImplantsMaterials ScienceAbutmentchemistry.chemical_elementBioengineeringLithiumCrown (dentistry)Anterior region03 medical and health sciencesmedicineHumansTitanium ImplantsDental ImplantsDamage Mechanicsbusiness.industryBiology and Life Sciences030206 dentistryDental PorcelainAssistive TechnologieschemistryMetal freeJawFracture (geology)Zirconium oxideMedical Devices and EquipmentZirconiumbusinessDigestive SystemHeadPloS one
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Barbed Dental Ti6Al4V Alloy Screw : Design and Bench Testing

2023

Background context. Dental implants are designed to replace a missing tooth. Implant stability is vital to achieving osseointegration and successful implantation. Although there are many implants available on the market, there is room for improvement. Purpose. We describe a new dental implant with improved primary stability features. Study design. Lab bench test studies. Methods. We evaluated the new implant using static and flexion–compression fatigue tests with compression loads, 35 Ncm tightening torque, displacement control, 0.01 mm/s actuator movement speed, and 9–10 Hz load application frequency, obtaining a cyclic load diagram. We applied variable cyclic loadings of prede…

bone–implant interactions; osseointegration; titanium implants; porous implants; 3D printingGeneral Materials ScienceCirurgia Aparells i instruments
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