Clinical Research Directory

Evaluation Of The Effects Of Changes In Operating Table Position On Perfusion Index And Spinal Anesthesia

The aim of this observational study is to investigate how table position affects the development of block in patients undergoing spinal anesthesia. Perfusion index measurements will be used to answer this question. Patients who will undergo perfusion index measurement during surgery will be included in the study. These patients will be compared with patients whose anesthesiologists chose not to position them on the operating table. The study is planned to continue for approximately 40 days, and the data collected during this period will be used for evaluation.

Positional Effects on Lung Ventilation and Perfusion in Obesity

Electrical Impedance Tomography (EIT) is a non-invasive, bedside monitoring tool that provides real-time information on regional ventilation and perfusion. In particular, EIT has the potential to guide individualized mechanical ventilation in obese patients by revealing how gravitational and positional factors alter regional lung behavior. Assessing the effects of different horizontal positions on both ventilation and perfusion may help optimize respiratory management strategies tailored to body habitus. By comparing obese and non-obese healthy participants across different positions, this study aims to provide novel insights into the postural effects on lung aeration and perfusion distribution, and to highlight the role of EIT in tailoring individualized ventilation strategies.

Effect of Postural Changes on Postoperative Hypoxemia

The goal of this clinical trial is to learn which positioning strategy works better to prevent postoperative hypoxemia in surgical patients: semirecumbent positioning or lateral positioning. It will also learn about the safety and effectiveness of these two positioning approaches. The main questions it aims to answer are: Does semirecumbent positioning reduce the incidence of postoperative hypoxemia more effectively than lateral positioning? Does lateral positioning reduce the incidence of postoperative hypoxemia more effectively than semirecumbent positioning? What are the differences in patient comfort and recovery outcomes between these two positioning strategies? Researchers will compare semirecumbent positioning directly to lateral positioning to see which approach is more effective in preventing postoperative hypoxemia. Participants will: Be randomly assigned to either semirecumbent positioning or lateral positioning after surgery Have their oxygen levels and breathing monitored regularly during the postoperative period Receive standard post-surgical care with their assigned positioning strategy Be assessed for comfort levels and any positioning-related complications Have their recovery progress tracked throughout their hospital stay.

Effect of Neck Hyperextension on Endotracheal Tube Cuff Pressure in Children

Introduction: Patients undergoing surgery under general anaesthesia are frequently intubated with an endotracheal tube (ETT). The safety margin of ETT cuff pressure is between 20-30 cmH2O. Inadequately inflated cuff (\<20 cmH2O) may cause secretions in the mouth, foreign bodies, bleeding due to surgery to escape into the trachea and/or air leakage. As a result of air leakage, the effect of mechanical ventilation decreases, end-tidal CO2 measurement cannot be performed accurately, and inhalation anaesthetics leak into the operating room. An overinflated cuff (\>30 cmH2O) may affect tracheal mucosa blood flow. This may result in tracheal stenosis, tracheoesophageal fistula or tracheal rupture. There may be significant changes in cuff pressure during endotracheal intubation because cuff pressure can be affected by changes in head and neck position. Due to all these situations, controlling ETT cuff pressure is very important for patient health and safety. For ETT cuff pressure control; manual palpation of the pilot balloon, listening for the disappearance of an audible air leak, inflating the cuff with minimal occlusive pressure to a peak inflation pressure of 20-22 cmH2O during positive pressure ventilation, inflating the cuff until the airway is closed by maintaining a continuous positive airway pressure of 20 cmH2O, or cuff manometers are commonly used applications. Although cuff manometers can be used to guide the monitoring of cuff pressure, their use and availability is not mandatory in many institutions around the world (due to the large number of anaesthetic areas, it is not possible to have a manometer everywhere). Therefore, in anaesthetic practice, cuff pressure is monitored manually or using a manometer at regular intervals during the operation. Aim/Hypothesis: H0: Endotracheal tube cuff pressure does not change with hyperextension position given to the neck during adenoidectomy, tonsillectomy or adenotonsillectomy surgery. H1: Endotracheal tube cuff pressure changes with hyperextension position given to the neck during adenoidectomy, tonsillectomy or adenotonsillectomy surgery. Material-Methods: The study will include patients between the ages of 2-18 years who will undergo adenoidectomy, tonsillectomy or adenotonsillectomy after obtaining informed consent from their parents. Routine practice will be followed for induction and maintenance of anaesthesia. Patients monitored in the operating room according to the standard American Society of Anesthesiologists (ASA) protocol will be orotracheally intubated with an ETT of appropriate internal diameter after induction of anaesthesia by the anaesthesiologist responsible for the patient. After the tube placement of the intubated patients is confirmed by the responsible anaesthesiologist, the ETT cuff will be measured and recorded by the responsible investigator with a cuff manometer (VBM Medizintechnik, GmbH, Germany) while the head and neck are in the neutral position (T0). When the patients are given the head-neck hyperextension position in which the surgery will be performed by the surgical team responsible for the patient's surgery, the pressure measurements will be repeated by the responsible investigator (T1). At the end of the operation, when the head and neck are returned to the neutral position, the tubular cuff pressure will be measured by the responsible investigator for the last time (T2). Patients between 2-18 years of age who underwent adenoidectomy, tonsillectomy or adenotonsillectomy surgery will be included in the study. Patients with head and neck mobility restriction, patients who have had neck surgery before, and patients with body mass index (BMI) \> 35 kg/m2 will be excluded from the study.