17 Clinical Trials for Various Conditions
The purpose of this study is to compare the results of combining two anesthetic medications (dexmedetomidine and propofol) in low doses with a standard dose of a single drug that is commonly used to provide sedation/anesthesia for MRI studies in young children (propofol). The drugs used for the MRI scan in this study will be chosen randomly. Half the patients will receive small doses of propofol and dexmedetomidine. The other half will receive propofol administered constantly throughout the scan. Other drugs that may be used include sevoflurane and nitrous oxide at the start of the sedation (for placing an intravenous), lidocaine (to reduce the pain of propofol injection) and glycopyrrolate (to prevent the heart rate from decreasing too low. The investigators will record 5 additional blood pressures and heart rates. If additional medications are required to complete the scan, the investigators will administer whatever is necessary. At the end of the study, the investigators will have an observer record the time it takes for participants to spontaneously open eyes , to be able to drink liquids and/or eat and to behave as before the study. Also, it is very important that the investigators find out from participants about changes in behavior, or if eating or sleeping habits were unusual following completion of the study. For that reason, the investigators will call participants in a day or so following the MRI scan. The investigators expect to recruit 40 children between the ages of 12 and 72 months for the study and hope to have the study completed in December 2018.
This study will compare 2 different sedation drugs (Ketamine and Midazolam) when they are used with another sedating medicine called Dexmedetomidine for MRI sedation. This study hopes to measure the impact each drug has on what happens during and after MRI sedation with Dexmedetomidine
This is a randomized, double-blind, dose-ranging study of the efficacy and safety of dexmedetomidine (DEX) when used with propofol as needed, for procedural sedation of pediatric subjects ≥1 month to \<17 years of age undergoing MRI scans in the US and Japan.
This study is designed to identify the plasma concentrations which are required to achieve adequate sedation, using a Ramsay Sedation Scale. As an alpha 2 agonist, dexmedetomidine can elicit hemodynamic changes, fluctuations in blood pressure and heart rate. This study will attempt to determine whether these changes can be predicted by plasma concentrations.
Dexmedetomidine (Dex), a selective α2-adrenergic receptor agonist, is the most used sedative for procedural sedation in children and in pediatric Intensive Care Unit (PICU) because it is associated with less respiratory depression and also less neurotoxicity; rather Dex appears neuroprotective. Unfortunately, Dex is associated with very long emergence times and may cause bradycardia and hypotension. However, using sedation dosing guidelines (by consensus among SPS members) 1-3 mcg/kg bolus and a 1-2 mcg/kg/hour infusion, hemodynamic compromise is less significant and rarely requires intervention in these patients. With this Dex sedation protocol, these pediatric patients usually take an average of 45 minutes (30-60 minutes) to wake and become alert and up to 2 hours to be discharged. Without reversal agents, emergence times from Dex sedation are slow. The prolonged recovery after Dex sedation for non-surgical procedures negatively affects throughput, thus increasing the cost of care. Patient safety and satisfaction suffer as a result. The children wake feeling tired and sluggish. The children don't feel back to normal for an extended period of time, which is not surprising given that the half-life for Dex metabolism in 2-3 hours in humans. However, using sedation dosing guidelines (by consensus among SPS members) 1-3 mcg/kg bolus and a 1-2 mcg/kg/hour infusion, hemodynamic compromise is less significant and rarely requires intervention in these patients. In humans, it has been found that caffeine at 7.5 mg/kg (15 mg caffeine citrate equivalent to 7.5 mg caffeine base) sped emergence from isoflurane anesthesia with minimal hemodynamic effects in healthy human volunteers. The goal of this clinical trial is to determine whether caffeine will facilitate the recovery of Dex sedation after a Magnetic Resonance Imaging (MRI) procedure by measuring the time from the end of Dex infusion to the time meeting the discharge criteria.
The objective of the LEGO®Bricks MRI project is to study a new play-based tool for use in children preparing to undergo MRI and evaluate its ability to reduce the need for anesthesia. A randomized study design will be employed in the experimental "Child Life" (CL) group, in regard to which Child Life intervention patients will have. Age matched controls will be found retrospectively, and will be patients of the same age, undergoing their first non-contrast brain MRI with no Child Life intervention. Patients in the CL group will be prepped by a Certified Child Life Specialist with the use of one of the following 2 tools, to be randomly selected: 1. LEGO Bricks model MRI (A model of the MRI machine and adjacent control room made out of LEGO bricks) 2. Mock MRI tube (A six foot long pop-out play tunnel for children, with a diameter of around 17 inches to simulate the MRI magnet bore)
This study is to assess the effect of dexmedetomidine anesthesia on glymphatic flow in 5 healthy human subjects as visualized by diffusion tensor MRI. The study is designed to measure clinically established, safe imaging of DTI and cerebral blood flow at baseline, during a continuous intravenous infusion of dexmedetomidine at doses designed to produce anesthesia-induced unconsciousness to simulate natural sleep, and again on return to wakefulness.
RCT for Intermittent versus Continuous Propofol Sedation for Pediatric Brain and Spine MRI Studies
The purpose of this study is to perform brain scans using magnetic resonance imaging (MRI) instrument on children aged 6 months up to 5 year old children. This procedure is usually done with sedation but the study will see if it can be done without sedation.
The purpose of this research study is to examine the effects of two commonly used anesthetic drugs, dexmedetomidine and ketamine, have on the shape and muscle tone of the upper airway in children, adolescents, and young adults. The results of this study will help in making the best decisions regarding the anesthesia medications used for sedation outside of the operating room.
The investigators conducted a prospective open unblinded clinical four-arm evaluation of Complementary and Alternate Medicine (CAM) interventions on children 1-12 years of age who were undergoing imaging by Medical Resonance Imaging(MRI) and receiving parenteral sedation. Children were assigned to active music therapy, passive music therapy, distraction therapy, and no intervention; measures included doses and numbers of sedation medications, time of sedation, and salivary levels of the stress hormone cortisol and pro-inflammatory cytokines, before and immediately after the intervention was completed. The Time Frame for the outcome measures are at the start of the intervention and immediately following the procedure (generally about 150 minutes). No further follow up was conducted.
The objective of this study is to evaluate the safety of dexmedetomidine in a pediatric population requiring non-intubated, spontaneous breathing, moderate to deep sedation (NI-MDS) for elective diagnostic or therapeutic procedures, expected to take more than 30 minutes.
The investigators are doing this research study to find out how and where dexmedetomidine, a sedative anesthetic, acts in the brain. The investigators will do this by using a machine that records the brains electrical activity, called an electroencephalogram (EEG), and brain imaging scans to look at the brain.
This is a prospective, open label randomized study. The purpose of this study is to compare propofol with dexmedetomidine for pediatric monitored anesthesia care for MRI, specifically identifying important patient demographics and looking at important outcomes including adverse events.
The purpose of this study is to determine the effects of acute pain on long-term memory and conditioned physiologic responses in the presence and absence of low dose sevoflurane. Functional magnetic resonance imaging will be used to identify the neural correlates of these phenomena. The study will occur over 2 visits and involves no long-term follow up.
The purpose of this study is to determine the effects of pain on long-term memory and conditioned physiologic responses in the presence and absence of distinct intravenous anesthetics. Functional magnetic resonance imaging will be used to identify the neural correlates of these phenomena The study will occur over 5 visits and involves no long-term follow up.
This is a pilot study to determine if a standard bolus dose and infusion of dexmedetomidine can significantly decrease the dose of propofol (infusion) required for accomplishing an MRI. The investigators studied three arms to examine the effectiveness of dexmedetomidine. Arm 1 was a single bolus of 1.0 mcg/kg with 1.0 mcg/kg/hr infusion followed by propofol infusion. Arm 2 was a bolus of 1.0 mcg/kg with 0.5 mcg/kg/hr infusion followed by propofol infusion. Arm 3 was only a single bolus of 1.0 mcg/kg with no infusion followed by propofol infusion.