59 research outputs found

    Combination of cobalt, chromium and titanium nanoparticles increases cytotoxicity in vitro and pro-inflammatory cytokines in vivo

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    BackgroundThe mixture of different metallic nanoparticles released from intended and unintended wearing of orthopaedic implants such as the Co/Cr cup and head, Co/Cr sleeves or tapers and their interface with Ti stems in the case of hip prostheses are a leading cause of adverse inflammatory responses and cytotoxicity to the host.MethodsThis study assessed the in vitro cytotoxic effects of three metallic nanoparticles (Co, Cr and Ti) separately and in combination on macrophages. The in vivo effects were also evaluated after peri-tibial soft tissue injection in mice.ResultsThe results demonstrated that Co, Cr, and Ti nanoparticles and their combination were phagocytosed by macrophages both in vitro and in vivo. High doses of nanoparticles from each individual metal caused a variable rate of cell death in vitro. However, the mixture of Co/Cr/Ti nanoparticles was more toxic than the Co, Cr or Ti metals alone at low doses. Intracellular distribution of Co, Cr, and Ti in the combined group was heterogeneous and associated with distinct morphological features. The results from in vivo experiments showed a significant increase in the mRNA levels of interleukin (IL)-1Ī², IL-6, IL-8 and tumour necrosis factor (TNF)-Ī± in peri-tibial soft tissue following the administration of Co alone as well as the combination of nanoparticles.ConclusionThis study demonstrated that the combination of Co/Cr/Ti nanoparticles was more cytotoxic than any of the individual metals in vitro and induced higher expression of genes encoding pro-inflammatory cytokines than single metals in vivo. The in vivo model utilised in this study might provide a useful tool for rapid assessment of the effects of unintended release of metal nanoparticles from implants in pre-/post-marketing studies.Translational potential of this articleThis study highlights the importance of preclinical assessments of potential nanoparticles produced by wear and tear of metal implants using macrophages and animal models, in particular their combinational toxicity in addition to the assessments of the bulk metallic materials

    Role of hypoxia inducible factor 1alpha in cobalt nanoparticle induced cytotoxicity of human THP-1 macrophages

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    Cobalt is one of the main components of metal hip prostheses and cobalt nanoparticles (CoNPs) produced from wear cause inflammation, bone lyses and cytotoxicity at high concentrations. Cobalt ions mimic hypoxia in the presence of normal oxygen levels, and activate hypoxic signalling by stabilising hypoxia inducible transcription factor 1Ī± (HIF1Ī±). This study aimed to assess in vitro the functional role of HIF1Ī± in CoNP induced cellular cytotoxicity. HIF1Ī±, lysosomal pH, tumour necrosis factor Ī± and interleukin 1Ī² expression were analysed in THP-1 macrophages treated with CoNP (0, 10 and 100 Ī¼g/mL). HIF1Ī± knock out assays were performed using small interfering RNA to assess the role of HIF1Ī± in CoNP-induced cytotoxicity. Increasing CoNP concentration increased lysosomal activity and acidity in THP-1 macrophages. Higher doses of CoNP significantly reduced cell viability, stimulated caspase 3 activity and apoptosis. Reducing HIF1Ī± activity increased the pro-inflammatory activity of tumour necrosis factor Ī± and interleukin 1Ī², but had no significant impact on cellular cytotoxicity. This suggests that whilst CoNP promotes cytotoxicity and cellular inflammation, the apoptotic mechanism is not dependent on HIF1Ī±

    Microneedle-assisted transfersomes as a transdermal delivery system for aspirin

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    Transdermal drug delivery systems offer several advantages over conventional oral or hypodermic administration due to the avoidance of first-pass drug metabolism and gastrointestinal degradation as well as patientsā€™ convenience due to a minimally invasive and painless approach. A novel transdermal drug delivery system, comprising a combination of transfersomes with either solid silicon or solid polycarbonate microneedles has been developed for the transdermal delivery of aspirin. Aspirin was encapsulated inside transfersomes using a ā€œthin-film hydration sonicationā€ technique, yielding an encapsulation efficiency of approximately 67.5%. The fabricated transfersomes have been optimised and fully characterised in terms of average size distribution and uniformity, surface charge and stability (shelf-life). Transdermal delivery, enhanced by microneedle penetration, allows the superior permeation of transfersomes into perforated porcine skin and has been extensively characterised using optical coherence tomography (OCT) and transmission electron microscopy (TEM). In vitro permeation studies revealed that transfersomes enhanced the permeability of aspirin by more than four times in comparison to the delivery of unencapsulated ā€œfreeā€ aspirin. The microneedle-assisted delivery of transfersomes encapsulating aspirin yielded 13-fold and 10-fold increases in permeation using silicon and polycarbonate microneedles, respectively, in comparison with delivery using only transfersomes. The cytotoxicity of different dose regimens of transfersomes encapsulating aspirin showed that encapsulated aspirin became cytotoxic at concentrations of ā‰„100 Ī¼g/mL. The results presented demonstrate that the transfersomes could resolve the solubility issues of low-water-soluble drugs and enable their slow and controlled release. Microneedles enhance the delivery of transfersomes into deeper skin layers, providing a very effective system for the systemic delivery of drugs. This combined drug delivery system can potentially be utilised for numerous drug treatments

    The effects of small-needle-knife therapy on pain and mobility from knee osteoarthritis: A pilot randomized controlled study

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    Objective: To investigate the effect of small needle-knife therapy in people with painfulĀ knee osteoarthritis. Design Pilot randomised, controlled trial. Setting. Rehabilitation hospital. Subjects. In-patients with osteo-arthritis of the knee. Interventions: Either 1-3 small needle-knife treatments over 7 days or oral Celecoxib. All patients stayed in hospital three weeks, receiving the same mobility-focusedĀ rehabilitation. Measures. Oxford Knee Score (OKS), gait speed and kinematics were recorded at baseline,Ā at 3 weeks (discharge) and at three-months (OKS only). Withdrawal from theĀ study, and adverse events associated with the small needle knife therapy wereĀ recorded. Results: 83 patients were randomized: 44 into the control group, of whom 10 were lost by 3 weeks and 12 at 3 months; 39 into the experimental group of whom 8 wereĀ lost at 3 weeks and 3 months. The mean (SE) OKS scores at baseline wereĀ Control 35.86 ( 1.05), Exp 38.38 ( 0.99); at three weeks 26.64 (0.97) and 21.94 (1.23); and at three months 25.83 (0.91) and 20.48 (1.14) The mean (SE) gait speed at baseline was 1.07 (0.03) m/sec (Control) and 0.98 (0,03), and at threeĀ weeks was 1.14 (0.03) and 1.12 (0.03) (p < 0.05). Linear mixed model statisticalĀ analysis showed that the improvements in the experimental group were statistically significant for total OKS score at discharge and three months. Conclusions: Small needle-knife therapy added to standard therapy for patients with kneeĀ osteoarthritis, was acceptable, safe, and reduced pain and improved globalĀ function on the Oxford Knee Score. Further research is warranted

    Knee osteoarthritis pendulum therapy : in vivo evaluation and a randomised, single-blind feasibility clinical trial

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    Background. Exercise is recommended as the first-line management for knee osteoarthritis (KOA); however, it is difficult to determine which specific exercises are more effective. This study aimed to explore the potential mechanism and effectiveness of a leg-swinging exercise practiced in China, called ā€˜KOA pendulum therapyā€™ (KOAPT). Intraarticular hydrostatic and dynamic pressure (IHDP) are suggested to partially explain the signs and symptoms of KOA. As such this paper set out to explore this mechanism in vivo in minipigs and in human volunteers alongside a feasibility clinical trial. The objective of this study is 1) to analyze the effect of KOAPT on local mechanical and circulation environment of the knee in experimental animals and healthy volunteers; and 2) to test if it is feasible to run a large sample, randomized/single blind clinical trial. Methods. IHDP of the knee was measured in ten minipigs and ten volunteers (five healthy and five KOA patients). The effect of leg swinging on synovial blood flow and synovial fluid content depletion in minipigs were also measured. Fifty KOA patients were randomly divided into two groups for a feasibility clinical trial. One group performed KOAPT (targeting 1000 swings/leg/day), and the other performed walking exercise (targeting 4000 steps/day) for 12 weeks with 12 weeks of follow-up. Results. The results showed dynamic intra-articular pressure changes in the knee joint, increases in local blood flow, and depletion of synovial fluid contents during pendulum leg swinging in minipigs. The intra-articular pressure in healthy human knee joints was āˆ’11.32 Ā± 0.21 (cmH2O), whereas in KOA patients, it was āˆ’3.52 Ā± 0.34 (cmH2O). Measures were completed by 100% of participants in all groups with 95ā€“98% adherence to training in both groups in the feasibility clinical trial. There were significant decreases in the Oxford knee score in both KOAPT and walking groups after intervention (p < 0.01), but no significant differences between the two groups. Conclusion. We conclude that KOAPT exhibited potential as an intervention to improve symptoms of KOA possibly through a mechanism of normalising mechanical pressure in the knee; however, optimisation of the method, longer-term intervention and a large sample randomized-single blind clinical trial with a minimal 524 cases are needed to demonstrate whether there is any superior benefit over other exercises
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