292 Clinical Trials for Various Conditions
Regional anesthesia is commonly used for elective and emergency cesarean delivery. It provides numerous safety advantages when compared to general anesthesia for both the mother and fetus1. Epidurals also have the added benefit of being able to provide pain relief throughout labor and in the event of cesarean delivery, epidural analgesia can be "extended" to provide surgical anesthesia. Numerous studies have been performed to assess the onset times of various local anesthetics when administered through an epidural catheter. Attempts to reduce anesthetic onset time and improve the quality of intraoperative analgesia have been attempted by using different local anesthetic solutions and by the addition of other drugs to the epidural solution (such as epinephrine, fentanyl and sodium bicarbonate).
This is a dose finding study to identify the minimum effective anesthetic concentration (MEAC) of ropivacaine to produce insensate body parts sufficient for surgery in supraclavicular and infraclavicular approaches to the brachial plexus, parasacral and popliteal approaches to the sciatic nerve, femoral nerve and transversus abdominis plane (TAP) blocks in adults.
Compare the ability of the transversus abdominis plane block (TAPB) and rectus sheath block (RSB) to provide surgical anesthesia for overweight and obese patients undergoing umbilical hernia surgery.
Determine whether the application of povidone-iodine ophthalmic solution onto the ocular surface causes a change in respiration in children undergoing strabismus surgery with general anesthesia. Hypothesis: The application of povidone-iodine ophthalmic solution to the ocular surface causes a change in respiration in children during general anesthesia prior to strabismus surgery.
The overall purpose of this study is to see if a Bispectral Index (BIS) monitor, a Food and Drug Administration (FDA) approved brain monitoring device, will help to reduce the risk of patients remembering being awake during surgery. The BIS monitor may be able to measure how asleep a patient is during surgery. Using the BIS monitor to guide anesthesia will be compared with using the concentration of anesthetic gas to guide anesthesia.
The overall purpose of this study is to see if a Bispectral Index (BIS) monitor, a Food and Drug Administration (FDA) approved brain monitoring device, will help to reduce the risk of patients remembering being awake during surgery. The BIS monitor may be able measure how asleep a patient is during surgery. Using the BIS monitor to guide anesthesia will be compared with using the concentration of anesthetic gas to guide anesthesia.
Neurotrack™ is an FDA-approved device for measuring and tracking cognitive decline, as may occur with age-related cognitive decline and Alzheimer's disease. The device uses a webcam (World Wide Web enabled camera) to assess eye-tracking as the subject views black-and-white images on the computer screen. The test takes less than 5 minutes to complete. This study will examine the feasibility and utility of pre-operative assessment of cognition using Neurotrack™ technology. The predictive value of Neurotrack™ will be compared to our previous work using pupillometry. The primary outcome is a measure of delirium in the recovery room and secondary outcomes include total length of stay, intensive care unit (ICU) length of stay, and readmissions within 30 days of surgery.
To demonstrate HSK3486 0.4/0.2 mg/kg (0.4 mg/kg intravenous \[IV\] slow injection over 30 \[±5\] seconds for the first dose, an additional 0.2 mg/kg if needed) is non-inferior to propofol 2.0/1.0 mg/kg (2.0 mg/kg IV slow injection over 30 \[±5\] seconds for first dose, an additional 1.0 mg/kg if needed) in success of induction of general anesthesia in adults undergoing elective surgery.
The ongoing opioid epidemic is a public health crisis, and surgical patients are particularly vulnerable to opioid-dependency and related risks. Emerging data suggest that caffeine may reduce pain after surgery. Thus, the purpose of this study is to test whether caffeine reduces pain and opioid requirements after surgery. The investigators will also test whether caffeine improves mood and brain function (e.g., learning, memory) after surgery.
The administration of anti-inflammatory drugs such as ibuprofen before and after surgery has not been studied extensively. Subjects are being asked to participate in this study because they are scheduled for surgery and because the investigators want to study ways to improve recovery from surgery. Ibuprofen will be given several times before and after surgery. The investigators will ask questions to determine recovery and the investigators will draw blood to determine inflammatory response.
This study is being done to determine if the drug known as dexmedetomidine improves the way we care for patients when their surgery involves the use of a tourniquet on the leg. A tourniquet is sometimes used for lower leg or foot surgery to decrease the blood loss for the patient and to make it easier for the surgeon to do his work.
Evidence thus suggests that steroid administration, tight glucose control, and avoidance of deep anesthesia may decrease perioperative morbidity by reducing the inflammatory response to surgery. Using a three-way factorial approach, the investigators thus propose to test the primary hypotheses that major perioperative morbidity is reduced by: 1) low-dose dexamethasone; 2) intensive perioperative glucose control; and 3) lighter anesthesia. Secondary hypotheses include that each intervention reduces circulating concentrations of the inflammatory marker CRP, and that there is a correlation between C-reactive protein (CRP) and post-operative complications. Anesthetic sensitivity predicts major and minor complications, and delirium Other secondary hypotheses are that each intervention, reduces minor surgical complications, reduces postoperative nausea and vomiting (PONV), reduces postoperative delirium, speeds hospital discharge, improves quality of life (SF-12v2 Health Survey, Christensen's VAS fatigue score), and reduces all-cause one-year mortality.
Patients are currently advised to refrain from driving motor vehicles or using public transportation unescorted for a 24 hour period if they undergo any minor ambulatory surgical procedure with monitored anesthesia care (MAC).However, recently introduced short-acting anesthetics may facilitate rapid recovery and an early return to normal daily activities. The proposed study will compare newer short-acting anesthetic agents (propofol, benzodiazepine, opioid) utilized in MAC, to determine if a particular pharmacological agent, or a combination of agents, impair driving performance as evaluated by driving simulator assessment, at time of discharge from the ambulatory center after minor surgical procedures.Subjects will be grouped as patients with chronic pain undergoing procedures and those without chronic pain undergoing procedures. Subjects with pain issues will be randomized with either 1)Midazolam + Sufentanil + Propofol or 2)Midazolam + Sufentanil. There will be a third group of subjects who are controls not undergoing any procedures.
The purpose of this study is to compare: the standard pediatric intubation instrument (Miller blade) used as direct laryngoscopy during tracheal intubation to the VideoMiller device (the standard pediatric blade with a camera attached, giving indirect view of the vocal cords in the screen). This intubation device is used to place the tube in the trachea to keep the patient breathing during the surgery procedure. The anesthesiologist obtains a better view of the vocal cords looking at the screen provided by the VideoMiller.
Low blood pressure, also known as hypotension, is very common during major surgery under general anesthesia. Prolonged or severe hypotension can lead to complications such as kidney injury after surgery that slow down patient recovery. Anesthesiologists commonly administer medications called vasopressors to treat low blood pressure during surgery. These medications help raise the blood pressure back up to a safe range. Two vasopressor medications are commonly used for this purpose: norepinephrine and phenylephrine. Each of these medications has slightly different effects on the heart and blood vessels (cardiovascular system). It remains unknown which of these standard medications is better for treating low blood pressure during surgery. The goal of this clinical trial is to determine which of these two medications is better at preventing injury to the kidneys after major noncardiac surgery as well as other complications such as heart problems. Major surgeries are defined as those lasting at least two hours under general anesthesia. This trial will randomize about ten centers in North America to use either norepinephrine or phenylephrine as the primary medication to treat low blood pressure in adults undergoing major noncardiac surgery. Each hospital will prioritize one of the drugs each month, and the assigned drug will rotate each month at each hospital. No further participant involvement will be required as de-identified data are collected as part of standard medical care.
The use of neuromuscular blocking agents during surgery is associated with postoperative respiratory complications and increased risk of readmission to the hospital following ambulatory surgery. Understanding the clinical behavior of providers is essential in devising and assessing quality improvement projects since it is primarily individuals who determine the utilization of neuromuscular blocking drugs and reversal agents, not institutions. Therefore, the primary objective of this study is to determine the variability between individual anesthesia providers (attending physician, resident, nurse anesthetists) in the use of neuromuscular blocking drugs and reversal agents, using advanced statistical methods to adjust for differences in patient and procedure case mix. The investigators hypothesize that variance between individual anesthesia providers in the use of neuromuscular blocking drugs and reversal agents differs depending on provider type.
The goal of this study is to investigate the effect of depth of neuromuscular block (NMB) on global and regional (dependent versus nondependent) respiratory mechanics during laparoscopic surgery. Furthermore, we will investigate if the level of NMB influences intraoperative hemodynamic and cerebral oxygenation.
There is a growing trend in functional neurosurgery toward direct anatomical targeting for deep brain stimulation (DBS). This study describes a method and reports the initial experience placing DBS electrodes under general anesthesia without the use of microelectrode recordings (MER), using a portable head CT scanner to verify accuracy intra-operatively.
Postoperative respiratory failure, particularly after surgery under general anesthesia, adds to the morbidity and mortality of surgical patients. Anesthesiologists inconsistently use positive end-expiratory pressure (PEEP) and recruitment maneuvers in the hope that this may improve oxygenation and protect against postoperative pulmonary complications (PPCs), especially in obese patients. While anesthesiologists tend to use PEEP higher than in non-obese patients. While it is uncertain whether a strategy that uses higher levels of PEEP with recruitment maneuvers truly prevents PPCs in these patients, use of higher levels of PEEP with recruitment maneuvers could compromise intra-operative hemodynamics. The investigators aim to compare a ventilation strategy using higher levels of PEEP with recruitment maneuvers with one using lower levels of PEEP without recruitment maneuvers in obese patients at an intermediate-to-high risk for PPCs. We hypothesize that an intra-operative ventilation strategy using higher levels of PEEP and recruitment maneuvers, as compared to ventilation with lower levels of PEEP without recruitment maneuvers, prevents PPCs in obese patients at an intermediate-to-high risk for PPC.
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
Establish the range of index values for the SNAP II corresponding to each anesthetic state studied.
This trial evaluates how inhalational anesthesia (drawn in through the lungs) and total intravenous anesthesia (TIVA) (through a needle in a vein in the arm) change the body's ability to recover from surgery or whether they impact the immune system immediately after surgery in patients with colon cancer. It is unknown whether these types of anesthesia change recovery from surgery or change the chances cancer comes back following surgery. This study may help researchers learn how different types of anesthesia affect recovery from colon cancer surgery.
A number of drugs used in the perioperative period may cause prolongation of the QT interval on the electrocardiogram (EKG). These drugs include inhalational agents, antiemetic agents, pain medications, and drugs used to reverse the effects of muscle relaxants. Approximately 80% of patients undergoing a general anesthetic will demonstrate significant prolongation of the QT interval on the EKG in the postanesthesia care unit (PACU) following surgery. The concern with QT interval prolongation is that it can result in a potentially lethal ventricular arrhythmia termed torsade des pointes. Despite the concurrent use of several of these medications in a typical general anesthetic, torsade des pointes is a rare event in the perioperative period. In the past decade, the use of intravenous methadone as part of a balanced anesthetic technique has increased significantly. A single dose provided at induction of anesthesia can provide prolonged (24-48 hours) relief from pain. Studies in patients receiving long-term treatment with methadone for addiction therapy or chronic pain have revealed that these patients are at risk for QT prolongation, torsade des pointe, and cardiac death. However, the effect of a single intravenous dose of methadone used in the operating room on the QT interval is uncertain. The aim of this randomized clinical trial is to compare the impact of methadone, when compared to the more commonly-used opioid hydromorphone, on QT prolongation measured with a 12-lead EKG in the PACU and on postoperative day 1. We hypothesize that methadone will not result in significant QT prolongation when used as part of a standardized general anesthetic.
Spine surgery in the prone position (which involves lying face down) is associated with various visual changes, ranging from temporary changes in acuity (or sharpness) to permanent blindness. Known risk factors include low blood count (anemia) and long surgical times in the prone position under general anesthesia. While blindness is a rare outcome of this surgery, it is devastating and incompletely prevented by controlling known risk factors. Thus, improved monitoring and detection of visual injury during surgery is necessary. The purpose of this study is to determine whether a novel, non-invasive monitoring device can reliably record visual responses during spine surgery. The first phase of this study is completed and involved patients undergoing microdiscectomy surgery. The second phase of this study involves patients undergoing single-level lumbar spine decompression/fusion surgery.
Emergence agitation (EA) occurs in up to 67% of pediatric patients after anesthesia for bilateral myringotomy tubes (BMT, "ear tubes"). The goal of this study is to find out whether acetaminophen given well before surgery can decrease pain and therefore, decrease emergence agitation better than acetaminophen given shortly before or during surgery. EA can be dangerous for the patient because it may be hard to monitor their vital signs during an important phase of recovery, they may injure themselves, may require the presence of extra staff, and it can be very distressing to the parents. Causes of EA are not well understood, but it can be worsened by pain. 70% of patients undergoing BMT experience pain that needs treatment. Intranasal fentanyl, a strong analgesic, has been shown to decrease EA, but often ends up in dose-dependent nausea and vomiting. In previous studies and in common practice, acetaminophen is given either 30 minutes before induction of anesthesia or immediately after induction. The peak analgesic effect of acetaminophen is 60-120 minutes. Since the procedure is generally completed in 5-10 minutes, the therapeutic effect of acetaminophen may not be present upon emergence from anesthesia. The purpose of this study is to find out if acetaminophen given 60-120 minutes prior to emergence can decrease EA in patients undergoing BMT. Patients would be randomized to one of three groups: Control will receive acetaminophen rectally while under anesthesia (standard practice), Group 1 will receive acetaminophen 10 mg/kg at 60-120 minutes prior to surgery, Group 2 will receive acetaminophen 20 mg/kg at 60-120 minutes prior to surgery. All groups would also receive a dose of intranasal fentanyl during the surgery, which is standard practice. Patients would be observed in the recovery room at various time points for evidence of EA and pain.
Conjunctival Mullerectomy is a well known procedure used to correct upper lid ptosis via a posterior approach. Patients who undergo this procedure are often given local anesthesia to alleviate intraoperative and postoperative pain. Local anesthesia can be given via frontal nerve block or subconjunctival injection combined with sedation in most cases. Both techniques are currently acceptable options for local anesthesia, however postoperative pain has not been systematically evaluated between these two techniques. The investigators aim to compare intra-operative and postoperative pain with these two techniques in patients undergoing conjunctival Mullerectomy for ptosis repair. Patients will be randomized to receive local anesthesia via frontal nerve block or via subconjunctival injection. In addition, the investigators will measure the surgical outcomes of the ptosis surgery with standard measures.
The investigators would like to compare the therapeutic and cost effectiveness of established therapies for postoperative nausea and vomiting to regional nerve blocks of the head and neck area an intervention known for analgesia but for which the antiemetic effects hasn't been entirely explored. The rational is based on the knowledge of the anatomical innervation of the inner ear and the role of the parasympathetic nervous system in the emetic act. A lot of focus has been given on its counterpart the sympathetic nervous system and its role in painful conditions. The investigators believe that the nerve blockade of the parasympathetic innervation can have some beneficial effect in the post-surgical patient.
Hypothesis: Aprepitant plus ondansetron is more effective than ondansetron plus placebo for prevention of postoperative emesis in patients at moderate-to-high risk for PONV for up to 48 hours after surgery. Specific Aim: To determine the incidence of PONV during the first 48 hours after surgery; in patients who have received aprepitant plus ondansetron versus ondansetron plus placebo for up to 48 hours after surgery.
The main aim is to see if danavorexton can help improve people's breathing in the recovery room after abdominal surgery.
The objective is to determine the optimal intraoperative ventilation strategy among the chosen tidal volume and positive end-expiratory pressure (PEEP) levels, and standardize it in an enhanced recovery pathway for orthopedic surgical patients. In particular, we propose to determine which combination of intraoperative tidal volume and positive end-expiratory pressure is best for patients having elective orthopedic surgery.