View clinical trials related to Implant Infection.
Filter by:The aim of this randomized clinical trial is to compare the amount and type of biofilm formed on the surface of zirconia implants compared to titanium implants. A pilot randomized clinical trial will be conducted in which 15 zirconia and 15 titanium single implants will be placed in different patients and the amount of total biofilm and different bacterial species will be evaluated at 3, 6 and 12 months after placement, in addition to bleeding on probing, plaque index, amount of keratinized gingiva, marginal bone loss and patient satisfaction. The Shapiro-Wilk normality test will be performed to determine whether each group follows a normal distribution. Once the distribution of the samples has been verified, we will proceed to apply a parametric test of repeated measures ANOVA or mixed ANOVA with Bonferroni correction, in order to observe what changes exist in the variables to be studied and if these will be statistically significant, establishing a significance level of P<0.05. If the distribution does not comply with normality, the nonparametric Friedman test will be performed.
Scientific evidence regarding the influence of peri-implantitis on Schneider's membrane thickening is scarce and limited. Similarly, to date, there is no literature documenting the resolution of implant-associated maxillary sinusitis with peri-implantitis after treatment of peri-implantitis or removal of the implant. Therefore, the aim of this case-control study is to investigate the association between peri-implantitis and maxillary sinusitis. On the other hand, the changes that occur at the level of the maxillary sinus membrane after treatment of peri-implantitis or after implant explantation will be evaluated.
Device-associated meningitis is a severe complication after implantation of various central nervous system (CNS) devices such as ventriculoperitoneal (VP) and ventriculoatrial (VA) shunts, external ventricular drains (EVD), lumbar drains (ELD) and intrathecal pumps. In contrast to native meningitis, these infections are hard to diagnose both clinically and on the laboratory basis due to (i) atypical clinical manifestation, (ii) overlapping inflammation following surgery, and (iii) common culture negativity due to previous antibiotic therapy and slow growth of low-virulent pathogens. Also, device-associated infections are difficult to differentiate from aseptic shunt failure (dysfunction) or "chemical meningitis" caused by underlying neurosurgical condition that prompted the placement of the CNS device (e.g. intracranial hemorrhage). Both native and device-associated meningitis carry substantial morbidity and mortality. Rapid and reliable diagnosis of meningitis is critical for initiating and choosing optimal treatment and minimizing the brain damage. Since treatment is different in septic than aseptic meningitis, it is paramount to diagnose or exclude septic meningitis as soon as possible. Several new diagnostic methods, such as cerebrospinal fluid (CSF) procalcitonin, interleukin-6 and polymerase chain reaction (PCR) have been proposed for rapid diagnosis of meningitis. However, insufficient sensitivity and/or specificity, long time until test result, and complexity in handling or interpretation of results limit their use in clinical routine. In previous studies CSF D-lactate test showed good specificity and sensitivity in patients with native meningitis. This biomarker is pathogen-specific - in contrast to other currently used host-specific biomarkers (leukocyte count, L-lactate, procalcitonin). However, no study on effectiveness of D-lactate test for the diagnosis of device-associated meningitis has been performed. Successful management of device-associated meningitis depends upon appropriate control of the infectious complications. To deal with such complications, adequate assessment and prediction of the clinical course are needed. Another use of D-lactate test could be his role as prognostic factor of the clinical course of device-associated meningitis.
Soldiers operate in environments that are more likely to lead to oral trauma, risking poor dentition which can directly impact military readiness. Dental restoration can often be accomplished via dental implant insertion. Microbiome-associated complications that result in bone loss, including the micro-leakage of bacterial species proliferating in the dental implant internal cavity, frequently lead to implant failure. Reduction in implant bacterial load may result in a shift of the composition of the microbiome in favor of less pathogenic species, potentially improving dental implant success rates, reducing surgical revisions, and associated cost savings. This study aims to determine how disinfectant gel (hydrogen peroxide or chlorhexidine) insertion into dental implant internal cavities affects implant failure rates, bacterial load and microbiome composition.
The BREAST-AB Trial is a multi-center, randomized, double blind, placebo-controlled trial investigating the efficacy of local application of gentamicin, vancomycin and cefazolin in decreasing all-cause implant explantation after breast reconstruction.
In the present study we will compare bacteriological findings and the incidence of SSI in relation to laminar airflow (LAF) ventilated ORs, conventional (also called displacement or mixed) ventilated ORs and conventional ventilated ORs with the addition of tables equipped with units providing a local LAF over the surgical instruments. The hypothesis is that there exist a correlation between number and types of airborne bacteria and bacteria in the surgical wound and on surgical instruments at the time of wound closure.