7 Clinical Trials for Various Conditions
The proposed research aims to investigate how different ventilation strategies may affect cerebral tissue oxygenation in the pediatric population. It will contribute to the literature exploring the NIRS monitoring device which is becoming increasingly utilized in a variety of anesthetic and critical care settings. It may help to guide clinical practice regarding optimal ventilation strategies, and how ventilation may be altered to correct suboptimal cerebral tissue oxygenation. This prospective study will include 50 patients undergoing posterior spinal fusion that requires placement of an arterial cannulation. There will be no change in the anesthetic or perioperative care of these patients. Tissue and cerebral oxygenation will be monitored using near infrared spectroscopy (NIRS).
The purpose of this research study is to compare difference between breathing by oneself or with the partial help from an anesthesia machine in children under general anesthesia.
Prior to surgery the anesthesia team will be putting a breathing tube into the patient's windpipe and attaching it to a mechanical ventilator (breathing machine). This is to provide oxygen and anesthetic gas, and to help the child breathe while they're asleep. The ventilator also controls the amount of air that moves in and out of the lungs with each breath. This is called tidal volume and that amount is programmed into the machine by the anesthesia team. All of this is standard of care. As part of the study the investigators will put a small flow sensor between the patient's breathing tube and the tubing from the ventilator. This will measure the amount of air that is moving in and out of the breathing tube. The study team will record the tidal volume that is set on the ventilator and compare it to the airflow measured by the ventilator and the airflow measured by the sensor and see if there is a difference.
The purpose of this pilot study is to identify the optimal way to ventilate patients during abdominal surgery in order to reduce the amount of post-operative pulmonary complications in patients at moderate and high-risk for them.
This research is being done to determine if there is a way the investigators can improve the techniques that they use to assist patients with their breathing during surgery. The majority of surgeries require patients to concurrently undergo general anesthesia. This usually includes a breathing tube and a machine that breathes for the patient during the duration of the surgery. The doctors would like to investigate the effects of this type of anesthesia to healthy adult patients and whether they can improve the way they give general anesthesia to patients. The investigators plan to ask approximately 200 patients to participate. If the patients decide to participate in the study,some additions will be made to the standard anesthetic care they receive. The patients will additionally be monitored for adequate oxygenation in their blood as well as level of inflammation in their blood and lungs. The patients' breathing tube will be bathed with warm normal saline and suctioned twice during the operation. When these procedures are done the patients will be asleep and not be aware of what is happening.
The purpose of this clinical trial is to determine whether different types of ventilator settings during surgery change the relationship between the pressures in the lungs and the function of the heart. In this study, patients will be randomly assigned (like flipping a coin) to receive either standard or individualized (research) lung protective ventilator settings. Before surgery, patients will be given an 8-item verbal questionnaire about any respiratory symptoms. After patients are asleep for surgery, an ultrasound probe will be inserted into the esophagus (food pipe) and stomach to examine the heart and lungs and take ultrasound pictures. The ultrasound probe is then removed. Next, a small balloon catheter (a narrow tube smaller in diameter than a pencil lead) will be placed in the esophagus, where it will be used to measure the pressures in the chest and lungs. For patients who are assigned to standard ventilator settings, the ventilator settings and pressures during surgery will be recorded. For patients assigned to individualized (research) ventilator settings, the pressures from the balloon catheter will be used to adjust the ventilator settings every 30 minutes during surgery. A second ultrasound pictures of the heart and lungs will be obtained at the point at which the patient is placed into the Trendelenburg position. At the end of surgery and before the patient is awake, the balloon catheter will be removed, the ultrasound probe will be inserted, a third set of ultrasound pictures of the heart and lungs will be obtained, and the ultrasound probe then removed. Patients will be telephoned 30 days after surgery to ask about their recovery. The 8-item respiratory symptom questionnaire will be repeated at this time.
Objectives 1. To characterize mechanical ventilation practices during general anesthesia for surgery 2. To assess the dependence of intra-operative and post-operative pulmonary complications on intra-operative Mechanical Ventilation (MV) settings