View clinical trials related to Deep Sedation.
Filter by:In patients with high levels of fear and anxiety, it is recommended to perform dental procedures under sedation or general anesthesia depending on the nature of the procedure. In dental treatment under anesthesia, it is important that the procedure is comfortable and well tolerated by the patient. In addition, patient comfort is important in all dental procedures to prevent the development of avoidance behavior. During dental procedures performed under anesthesia, the oral cavity is completely within the scope of the surgical or procedure field. In this respect, sedation and general anesthesia in dental procedures and operations have specific risks and challenges.Since there is a risk of respiratory depression, hypoxia and hypercarbia during deep sedation, non-invasive ventilation support provided to patients with airway devices would be beneficial. In the research clinics where the study will be conducted, deep sedation with non-invasive mechanical ventilation support using a nasal CPAP (Continuous Positive Airway Pressure) mask or nasal airway is applied during the extraction of impacted molars. Thus, many dental procedures are routinely performed under deep sedation without the need for general anesthesia. There are very limited data in the literature on the use of a nasal CPAP mask during sedation for different procedures in patients with obstructive sleep apnea or obesity. However, no study comparing ventilation support during deep sedation with nasal CPAP mask and nasal airway has been found in the literature. The aim of this study is to compare the non-invasive ventilation support provided with 2 different airway devices during the procedure in terms of intraoperative and postoperative related complications, ventilation parameters, patient and surgeon satisfaction. The hypothesis of the study is that two different ventilation support methods during deep sedation may be superior to each other in terms of anesthesia quality, postoperative complications related to airway devices, patient and surgeon satisfaction. In the study, a total of 60 patients (Group airway, n;30, Group Mask, n;30) from 2 centers are planned to be included in the study by performing power analysis with a statistical power of the trial >0.8. The permutation method will be applied within the scope of the restricted randomization method to determine the group of patients to be included.
The goal of this prospective observational study is to identify effect site concentrations (CET) of propofol using the Eleveld model for different levels of procedural sedation. The main question it aims to answer is to identify CET propofol using the Eleveld model for different levels of procedural sedation as measured by the modified observer's assessment of alertness and sedation score (MOAAS) and EEG monitoring. Participants vital signs will be monitored according to the departmental protocol. Sedation will be administered using Target-Controlled Infusion (TCI) of propofol (administered by effect-site TCI using the Eleveld model) and remifentanil (administered by effect site TCI using the Eleveld model). Target controlled infusion of propofol and remifentanil is according to the departmental protocol. The MOAAS score will be noted every 5 minutes or when the target effect site concentration of propofol is altered. Depth of sedation will also be monitored using a non-invasive BIS® monitor.
The goal of this clinical trial is to evaluate a minimum viable prototype for automated closed-loop administration of propofol in deep sedated patients under invasive mechanical ventilation in the ICU. The main question it aims to answer is: • whether the minimum viable prototype for automated closed-loop administration of propofol is effective in keeping patients in deep sedation using the lowest possible dose of propofol Participants will undergo deep sedation using the minimum viable prototype for automated closed-loop propofol administration. The usual practice of sedation will be compared with the practice of sedating with the minimum viable prototype to see if the infusion rate of propofol is decreased
Adequate and effective pain management and prevention of depression are essential in burn patients. This study aims to investigate the effects of ketamine sedation in burn patients in terms of mood disorders, depression, anxiety, and suicidal tendency during intensive care follow-up in the postoperative period.
It is important to choose an appropriate oxygenation technique during intravenous deep sedation in pediatric dental treatment. The study is to evaluate the efficacy and safety of high-flow nasal oxygenation in intravenous deep sedation in pediatric dental patients.
Hysteroscopy is used to examine and treat uterine diseases. Because of severe pain due to uterine distention and cervical dilatation, deep sedation usually be provided during this procedure. Respiratory depression and upper airway obstruction are main respiratory complications during deep sedation. Face mask and nasopharyngeal airway are main airway management during deep sedation. Oxygen reserve index is a non-invasive parameter, it reflects the moderate hyperoxia statues. In this study, investigators compare the effect of face mask and nasopharyngeal airway management on oxygenation during deep sedation in participants undergoing hysteroscopy. Investigators also investigate whether oxygen reserve index monitoring reduce the incidence of hypoxemia.
In our study, the investigators aimed to compare the effects of dexmedetomidine-propofol and remifentanil-propofol combinations on perioperative spontaneous respiration, hemodynamics, recovery, participants, surgeon and anesthetist satisfaction in hysteroscopy, which is one of the ambulatory surgery.
In the intensive care unit of the Free University hospital of Brussels, sedated patients are standardly monitored with the Masimo SEDline device to see how deeply a patient is asleep. During this study we want to attach 1 extra device to 30 sedated patients, lying in the intensive care unit. This device, called the NeuroSENSE brain monitor from Neurowave systems, uses a different scale to indicate the ideal depth of sedation. In total, both devices will be hung on a patient for 2 times 35 minutes. At minute 33, a RASS score will be determined in each patient. This score will be determined by talking to the patient or administering a pain stimulus. Based on the reaction of the patient an estimation can be made how deeply a patient is sleeping. Our goal is to find out which device correlates best with the effective clinical state of the patient.
The purpose of this study is to evaluate the efficacy and safety of remimazolam besylate compared to propofol for sedation in critically ill patients with deep sedation.
Dexmedetomidine, has been used in the past 4-5 years as an alternative sedation method for children at the pediatric radiology department in order to reduce the waiting lists and the use of general anesthesia with its risks and side effects in magnetic resonance and computed tomography examinations.