review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Rohan A. Shirwaiker | Q43675686 |
Nancy A Monteiro-Riviere | Q55948798 | ||
P2093 | author name string | Meghan E Samberg | |
Richard A Wysk | |||
Paul H Cohen | |||
P2860 | cites work | In vitro effect of weak direct current on Staphylococcus aureus | Q69788874 |
The response of non-traumatized bone to direct current | Q69804516 | ||
Capacitative pulsed electric stimulation of bone cells. Induction of cyclic-AMP changes and DNA synthesis | Q70195831 | ||
Early effects of electrical stimulation on osteogenesis | Q71647128 | ||
A large randomized clinical trial of a silver-impregnated urinary catheter: lack of efficacy and staphylococcal superinfection | Q72140737 | ||
A mechanistic study of the antibacterial effect of silver ions on Escherichia coli and Staphylococcus aureus | Q73082483 | ||
Single-wall carbon nanotubes as attractive toughening agents in alumina-based nanocomposites | Q73162463 | ||
Nano-structured polymers enhance bladder smooth muscle cell function | Q73384172 | ||
Enhanced functions of osteoblasts on nanophase ceramics | Q74033988 | ||
Anti-infective catheters: novel strategies to prevent nosocomial infections in oncology | Q77687017 | ||
The use of reduced healing times on ITI implants with a sandblasted and acid-etched (SLA) surface: early results from clinical trials on ITI SLA implants | Q77937118 | ||
Effect of low-intensity ultrasound stimulation on consolidation of the regenerate zone in a rat model of distraction osteogenesis | Q78712018 | ||
One step synthesis of silver nanorods by autoreduction of aqueous silver ions with hydroxyapatite: An inorganic-inorganic hybrid nanocomposite | Q79139129 | ||
Developing an engineered antimicrobial/prophylactic system using electrically activated bactericidal metals | Q84021740 | ||
Toxicology of nanomaterials used in nanomedicine | Q23914977 | ||
Single-walled carbon nanotubes exhibit strong antimicrobial activity | Q24322811 | ||
Interaction of silver nanoparticles with HIV-1. | Q24815783 | ||
Quantitative characterization of the influence of the nanoscale morphology of nanostructured surfaces on bacterial adhesion and biofilm formation | Q27319511 | ||
The role of interparticle and external forces in nanoparticle assembly | Q28284931 | ||
Toxic potential of materials at the nanolevel | Q28295314 | ||
Toxicity of nanomaterials | Q28383168 | ||
The bactericidal effect of silver nanoparticles | Q29615514 | ||
Influence of implant microstructure on the dynamics of bone healing around immediate implants placed into periodontally infected sites. A confocal laser scanning microscopic study. | Q31036560 | ||
Electric current-induced detachment of Staphylococcus epidermidis biofilms from surgical stainless steel | Q31125824 | ||
Micro/nanostructural porous surface on titanium and bioactivity | Q33374098 | ||
Evaluation and treatment of infection at the site of a total hip or knee arthroplasty. | Q33546440 | ||
Antibacterial efficacy of silver nanoparticles of different sizes, surface conditions and synthesis methods | Q33733591 | ||
Effect of electrical stimulation on chronic wound healing: a meta-analysis. | Q33886425 | ||
Silver nanoparticles as antimicrobial agent: a case study on E. coli as a model for Gram-negative bacteria | Q33978543 | ||
Surface treatments of titanium dental implants for rapid osseointegration. | Q34556668 | ||
Antimicrobial effects of silver nanoparticles. | Q34611349 | ||
Silver nanoparticles as a new generation of antimicrobials. | Q34852512 | ||
Prevention of bloodstream infections with central venous catheters treated with anti-infective agents depends on catheter type and insertion time: evidence from a meta-analysis | Q35040693 | ||
Reducing infections through nanotechnology and nanoparticles | Q35122768 | ||
Bacterial biofilms and the bioelectric effect. | Q35126515 | ||
Nanostructured ceramics for biomedical implants | Q35195867 | ||
Nanostructured model implants for in vivo studies: influence of well-defined nanotopography on de novo bone formation on titanium implants | Q35677176 | ||
Treatment of infections associated with surgical implants | Q35740678 | ||
Polymeric scaffolds for bone tissue engineering. | Q35750619 | ||
The effectiveness of pin site care for patients with external fixators | Q35799417 | ||
Engineering approaches for the detection and control of orthopaedic biofilm infections | Q36213823 | ||
Carbon nanotubes for biomedical applications | Q36238294 | ||
Highly crosslinked polyethylene does not reduce aseptic loosening in cemented THA 10-year findings of a randomized study | Q36293238 | ||
Nanobiomaterial applications in orthopedics. | Q36626910 | ||
Germanium and silver resistance, accumulation, and toxicity in microorganisms | Q36783769 | ||
Effect of surface topology on the osseointegration of implant materials in trabecular bone | Q36795679 | ||
Nanotechnology and biomaterials for orthopedic medical applications | Q36917879 | ||
Sol-gel production of bioactive nanocoatings for medical applications. Part 1: an introduction | Q36918005 | ||
The electricidal effect: reduction of Staphylococcus and pseudomonas biofilms by prolonged exposure to low-intensity electrical current | Q37032829 | ||
Nanosurfaces and nanostructures for artificial orthopedic implants | Q37038842 | ||
Towards a definition of inorganic nanoparticles from an environmental, health and safety perspective. | Q37609944 | ||
Nanotechnology and orthopedics: a personal perspective | Q37668247 | ||
Nanotechnology for bone materials | Q37668322 | ||
Recent progress in inorganic and composite coatings with bactericidal capability for orthopaedic applications. | Q37807132 | ||
Orthopaedic implant technology: biomaterials from past to future. | Q37890275 | ||
Emerging pathogenetic mechanisms of the implant-related osteomyelitis by Staphylococcus aureus | Q37957607 | ||
Biofilm formation in Staphylococcus implant infections. A review of molecular mechanisms and implications for biofilm-resistant materials | Q38018423 | ||
The effects of micromachined surfaces on formation of bonelike tissue on subcutaneous implants as assessed by radiography and computer image processing | Q39442386 | ||
Osteoblast function on electrically conductive electrospun PLA/MWCNTs nanofibers | Q39598163 | ||
Electrically controlled drug release from nanostructured polypyrrole coated on titanium | Q39606721 | ||
Impact of silver nanoparticles on human cells: Effect of particle size | Q39663107 | ||
Effect of nano-topographical features of Ti/TiO(2) electrode surface on cell response and electrochemical stability in artificial saliva | Q39734175 | ||
Silver nanoparticles inhibit hepatitis B virus replication. | Q39978463 | ||
Evaluation of silver nanoparticle toxicity in skin in vivo and keratinocytes in vitro. | Q40024022 | ||
The role of nanometer and sub-micron surface features on vascular and bone cell adhesion on titanium | Q40032637 | ||
Increased osteoblast adhesion on nanoparticulate calcium phosphates with higher Ca/P ratios | Q40096272 | ||
Plasma-sprayed carbon nanotube reinforced hydroxyapatite coatings and their interaction with human osteoblasts in vitro | Q40226322 | ||
Increased osteoblast and decreased Staphylococcus epidermidis functions on nanophase ZnO and TiO2. | Q40271584 | ||
A multicenter study of the treatment of non-union with constant direct current | Q40297164 | ||
Deposition of silver nanoparticles on titanium surface for antibacterial effect | Q40380921 | ||
Infection after total hip arthroplasty. Past, present, and future | Q40434007 | ||
Fibroblast reaction to island topography: changes in cytoskeleton and morphology with time. | Q40680642 | ||
The influence of titania/hydroxyapatite composite coatings on in vitro osteoblasts behaviour | Q40803402 | ||
The economic impact of infected total joint arthroplasty. | Q40892467 | ||
Electrically generated silver ions: quantitative effects on bacterial and mammalian cells | Q40945973 | ||
Development of novel chitin/nanosilver composite scaffolds for wound dressing applications | Q43267307 | ||
Mechanisms of enhanced osteoblast adhesion on nanophase alumina involve vitronectin | Q43655423 | ||
Effects of electrical stimulation on wound healing in patients with diabetic ulcers | Q43673085 | ||
In vitro reaction of endothelial cells to polymer demixed nanotopography | Q44031230 | ||
Silver doped perfluoropolyether-urethane coatings: antibacterial activity and surface analysis | Q44123611 | ||
Chronic dermal ulcer healing enhanced with monophasic pulsed electrical stimulation | Q45763888 | ||
A prospective multicenter clinical trial comparing one- and two-stage titanium screw-shaped fixtures with one-stage plasma-sprayed solid-screw fixtures | Q46082467 | ||
The efficacy of silver-ion implanted catheters in reducing peritoneal dialysis-related infections. | Q46101790 | ||
Electrical control of bone growth in ossicles. A preliminary report. | Q46608091 | ||
In vitro cytotoxicity of silver nanoparticles on osteoblasts and osteoclasts at antibacterial concentrations. | Q46618138 | ||
Influence of engineered titania nanotubular surfaces on bone cells | Q46957514 | ||
Antibacterial effects of carbon nanotubes: size does matter! | Q47231879 | ||
The effect of biphasic electrical stimulation on osteoblast function at anodized nanotubular titanium surfaces | Q47620104 | ||
Biosynthesis of silver nanoparticles from Staphylococcus aureus and its antimicrobial activity against MRSA and MRSE. | Q50054663 | ||
Low-level mechanical vibrations can influence bone resorption and bone formation in the growing skeleton. | Q51167679 | ||
Silver nanoparticles and polymeric medical devices: a new approach to prevention of infection? | Q51583018 | ||
Nanometer surface roughness increases select osteoblast adhesion on carbon nanofiber compacts. | Q51667392 | ||
Increased osteoblast adhesion on nanophase metals: Ti, Ti6Al4V, and CoCrMo. | Q51680644 | ||
Low magnitude mechanical loading is osteogenic in children with disabling conditions. | Q51698672 | ||
Polymers with nano‐dimensional surface features enhance bladder smooth muscle cell adhesion | Q51796201 | ||
Micro-scale fabrication and characterization of a silver-polymer-based electrically activated antibacterial surface. | Q53442060 | ||
Antibacterial activity of optically transparent nanocomposite films based on chitosan or its derivatives and silver nanoparticles. | Q54346640 | ||
Improved osteoblast proliferation, differentiation and mineralization on nanophase Ti6Al4V. | Q54385294 | ||
The biocompatibility of carbon nanotubes | Q57395538 | ||
Electrical nerve stimulation improves healing of diabetic ulcers | Q57651235 | ||
The Influence of Electric Current on Bone Regeneration in Vivo | Q58140839 | ||
The effect of pulsed electromagnetic fields on the osteointegration of hydroxyapatite implants in cancellous bone: a morphologic and microstructural in vivo study | Q60645052 | ||
Treatment of orthopaedic infections with electrically generated silver ions. A preliminary report | Q67393499 | ||
Plasma-sprayed coatings of tetracalciumphosphate, hydroxyl-apatite, and ?-TCP on titanium alloy: An interface study | Q67915577 | ||
Evaluation of new anti-infective drugs for the treatment of osteomyelitis in adults. Infectious Diseases Society of America and the Food and Drug Administration | Q67980242 | ||
Acceleration of wound healing with high voltage, monophasic, pulsed current | Q68092243 | ||
Biomaterial-centered infection: microbial adhesion versus tissue integration | Q69249483 | ||
P433 | issue | 3 | |
P921 | main subject | nanomaterial | Q967847 |
medical device | Q6554101 | ||
P304 | page(s) | 191-204 | |
P577 | publication date | 2013-01-17 | |
P1433 | published in | Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology | Q24056192 |
P1476 | title | Nanomaterials and synergistic low-intensity direct current (LIDC) stimulation technology for orthopedic implantable medical devices | |
P478 | volume | 5 |
Q38239347 | Antibacterial surface treatment for orthopaedic implants. |
Q49898464 | CoCr-enriched medium modulates integrin-based downstream signaling and requires a set of inflammatory genes reprograming in vitro |
Q57431673 | Effects of Electrically Activated Silver–Titanium Implant System Design Parameters on Time-Kill Curves Against Staphylococcus aureus |
Q41544740 | Effects of cathode design parameters on in vitro antimicrobial efficacy of electrically-activated silver-based iontophoretic system. |
Q54319743 | Enhancement of production and activity of alkaline zinc metalloprotease from Salinivibrio proteolyticus using low intensity direct electric current and zinc nanoparticles. |
Q41211374 | Evaluation of silver-titanium implants activated by low intensity direct current for orthopedic infection control: An in vitro and in vivo study |
Q36157550 | Molecular Mechanism of Silver Nanoparticles-Induced Human Osteoblast Cell Death: Protective Effect of Inducible Nitric Oxide Synthase Inhibitor |
Q26785640 | Nanomedicine applications in orthopedic medicine: state of the art |
Q39002256 | Nanotechnology in orthopedics |
Q46454818 | Protein corona modulation of hepatocyte uptake and molecular mechanisms of gold nanoparticle toxicity |
Search more.