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Novel Research about Biomechanics and Biomaterials Used in Hip, Knee and Related Joints



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Autore: Kretzer J. Philippe Visualizza persona
Titolo: Novel Research about Biomechanics and Biomaterials Used in Hip, Knee and Related Joints Visualizza cluster
Pubblicazione: Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021
Descrizione fisica: 1 electronic resource (358 p.)
Soggetto topico: Information technology industries
Soggetto non controllato: electrocautery
titanium alloy
cobalt-chrome alloy
fatigue behavior
biomechanical study
Vertebral body replacement (VBR)
non metallic
radiolucent
CF/PEEK
biomechanics
tumor
vertebral fracture
spine
calcium phosphate
granules
bone graft substitutes
total hip arthroplasty
implant deformation
acetabulum
Metasul
28 mm small head
metal-on-metal THA
cobalt
chromium
titanium
blood metal ions
inflammation
cytokines
metal particles
metal ions
synovium
dual taper modular hip stem
acetabular revision
asymptomatic stem modularity
decision making model
threshold
biomaterials
arthroplasty
orthopaedic tribology
experimental simulation
total knee replacement
PEEK-OPTIMA™
UHMWPE
third body wear
modular acetabular cup
poly-ether-ether-ketone (PEEK)
ceramics
ultra-high-molecular-weight polyethylene (UHMW-PE)
strain distribution
bone stock
cup-inlay stability
disassembly forces
relative motion
periprosthetic joint infections
infection prophylaxis
Staphylococcus epidermidis
in vivo osteomyelitis model
metal wear
retrieval study
metal-on-metal articulation
volumetric wear
megaendoprosthesis
total knee arthroplasty
bone tumor
Roentgen stereophotogrammetric analysis
hip arthroplasty
elementary geometrical shape model
interchangeability
head-taper junction
migration
ion implantation
precision casting
Ti6Al4V
calcium
phosphorus
centrifugal casting
porous implants
tantalum
hip replacement
revision hip arthroplasty
primary stability
backside wear
cross-linked
total hip replacement
hip cup system
composite
fibers
polycarbonate-urethane
meniscal replacement
mechanical properties
meniscus
silicon nitride
coating
joint replacement
wear
adhesion
trunnionosis
trunnion failure
fretting corrosion
head-neck junction
mechanically assisted crevice corrosion
implant
biomaterial
corrosion
residual stress
taper connection
anodic polarization
surface treatment
knee joint
patellar component
musculoskeletal multibody simulation
patellofemoral joint
polyetheretherketone
fixation
debonding
implant-cement interface
PMMA
periprosthetic joint infection
cement spacer
articulating spacer
hip spacer
two-stage revision
surface alteration
surface roughness
third-body wear
zirconium oxide particles
metal-on-cement articulation
oxford unicompartmental knee arthroplasty
bearing thickness
retrieval analysis
biomedical rheology
viscosity
bovine calf serum
shear thinning
numerical simulation
Persona (resp. second.): Van Der StraetenCatherine
KretzerJ. Philippe
Sommario/riassunto: Joint replacement is a very successful medical treatment. However, the survivorship of hip, knee, shoulder, and other implants is limited. The degradation of materials and the immune response against degradation products or an altered tissue loading condition as well as infections remain key factors of their failure. Current research in biomechanics and biomaterials is trying to overcome these existing limitations. This includes new implant designs and materials, bearings concepts and tribology, kinematical concepts, surgical techniques, and anti-inflammatory and infection prevention strategies. A careful evaluation of new materials and concepts is required in order to fully assess the strengths and weaknesses and to improve the quality and outcomes of joint replacements. Therefore, extensive research and clinical trials are essential. The main aspects that are addressed in this Special Issue are related to new material, design and manufacturing considerations of implants, implant wear and its potential clinical consequence, implant fixation, infection-related material aspects, and taper-related research topics. This Special Issue gives an overview of the ongoing research in those fields. The contributions were solicited from researchers working in the fields of biomechanics, biomaterials, and bio- and tissue-engineering.
Titolo autorizzato: Novel Research about Biomechanics and Biomaterials Used in Hip, Knee and Related Joints  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910557308003321
Lo trovi qui: Univ. Federico II
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