Clinical Research Directory

Cleaning Methods for Clear Aligners

The goal of this clinical trial is to learn which cleaning method best removes bacteria from clear plastic aligners. Clear aligners are removable orthodontic trays worn to straighten teeth. They sit against the teeth for 20 to 22 hours a day. Bacteria build up on their surfaces within days. No agreed-upon way to clean them exists.The main questions it aims to answer are: Which of four common cleaning methods removes the most live bacteria from worn aligners? Which method leaves the least bacteria visible on the aligner surface under a microscope? Researchers will compare four cleaning methods to see which works best: Brushing with water (control) Soaking in chlorhexidine mouthwash Soaking in an effervescent cleaning tablet Using an ultrasonic cleaner together with a cleaning tablet Participants will: Wear one upper and one lower clear aligner for 10 days Clean the upper aligner twice a day for 5 minutes using their assigned method Return the aligner at the end of 10 days for laboratory testing

Biofilm-induced Antimicrobial Resistance RIsk ERadication in Critical Care Central Venous Catheters

Central venous catheter (CVC) infections are a frequent and serious nosocomial complication in critical care, leading to increased morbidity, mortality, and costs. The pathophysiology of these infections relies on the formation of a biofilm, an organized microbial structure that confers exceptional tolerance to anti-infectives and the immune system. However, data concerning the characteristics of the in vivo biofilm (kinetics, composition, endo- vs. extraluminal organization) on central venous catheters in intensive care patients are very limited, hindering the development of effective and targeted prevention strategies. The main aim of this study is to quantify the density and describe the spatial distribution (extra- and intraluminal compartments) of the biofilm on infected or colonized central venous catheters, prospectively collected from patients in the critical care units.

Structural and Microbiological Characterization of Arterial Catheter Biofilm in ICU's Patients Using Optical Coherence Tomography

29.3% of bacteremias in intensive care units (ICU) are linked to vascular devices, including 7.7% to arterial catheters, with an influence on both morbility and mortality. It is now accepted that biofilm as a role on bacterial development on inner surface of vascular devices but there is yet a lack of clinical relevant data documenting a causal relation between biofilm formation and bacteremias. The investigators assume that a better structural and microbiological characterization of arterial catheter biofilm in ICU patients could help preventing bacteremias or have a more specific treatment when it appears.

Biofilm on Chest Drains After Thoracic Surgery: Clinical Impact and Antibiotic Resistance

This prospective observational study aims to investigate the frequency and clinical significance of biofilm formation on thoracic chest drains used after thoracic surgery. Biofilms are structured bacterial communities that adhere to surfaces and can promote infection and antibiotic resistance. In this study, small samples from the tips of chest drains will be collected under sterile conditions at the time of drain removal and analyzed in the microbiology laboratory. The main objectives are to evaluate the relationship between the duration of chest drain placement and the presence of biofilm, and to identify the antibiotic resistance profiles of microorganisms isolated from these biofilms. Secondary outcomes include the association between biofilm formation, postoperative infections (such as empyema or wound infection), and the length of hospital stay. This study will be conducted at Ondokuz Mayıs University Faculty of Medicine, Department of Thoracic Surgery, in collaboration with the Department of Microbiology. The findings are expected to contribute to better understanding of optimal drain management and infection prevention strategies after thoracic surgery.