View clinical trials related to Lidocaine.
Filter by:The goal of this clinical trial is to learn about the effects on postoperative analgesia of continuous lidocaine infusion via closed chest drainage tube for patients undergoing thoracoscopic partial lung resection. The main questions it aims to answer are: - To explore whether continuous lidocaine pumping via closed chest drainage tube has good analgesic and anti-inflammatory effects for patients undergoing partial thoracoscopic pneumonectomy. - Whether the multimodal analgesia combined with continuous lidocaine pump can reduce the postoperative application of opioids, reduce the occurrence of postoperative complications, and promote the recovery of postoperative lung function and accelerate recovery. For participants who undergoing the thoracoscopic partial lung resection with postoperative indwelling drainage tube, the epidural tube fixed in the drainage tube is connected to the completed infusion pump (marking the chest drain for analgesia). The comparison group only accept the intravenous analgesia after surgery.
The aim of this double blind randomized study will be to investigate the effect of an opioid-free anesthesia regimen with a mixture of lidocaine and ketamine in the same syringe versus remifentanyl analgesia in cervical spine surgery.
1.Written informed consent must be obtained before any study specific procedures are undertaken.Qualified participants were identified at the pre-anesthesia evaluation clinic or ward. 2.80 patients with American Society of Anesthesiologists (ASA) score of I-II in our medical center scheduled to undergo elective surgery for hypertrophy of labia minor with MAC. Patients were randomized 1:1 into the Group 1 (normal saline) or Group 2 (lidocaine 1.5 mg/kg/hr, ideal body weight) by using a table of random, computer-generated digits in sealed and numbered envelopes by an anesthesiologist. All surgical procedure was performed by the same surgeon and the anesthetic data was recorded by a nurse anesthetist. All patients were fasted overnight before the procedure, and no medications were allowed before induction of anesthesia. Standard monitoring, such as non-invasive arterial blood pressure, electrocardiography (lead II), pulse oximetry, end-tidal carbon dioxide pressure (EtCO2) was applied for each patient. Participants were pre-oxygenated and adequately maintained with 100% oxygen at 3 L/min via a nasal cannula during the entire procedure. During anesthesia induction, all patients received intravenous fentanyl 0.5-1 mcg/kg, continuous infusion of propofol with target-controlled infusion (TCI; Fresenius Orchestra Primea; Fresenius Kabi AG, Bad Homburg, Germany) with the Ce of 4.0 mcg/mL and parecoxib. In addition, continuous infusion of equal volume normal saline and lidocaine 1.5 mg/kg/hr (ideal body weight) in group I and 2, respectively. In all patients, maintenance of the Ce of propofol was adjusted upward or downward by 0.5 mcg/mL to keep patient adequate sedation with acceptable pain (remaining moveless). If upward 2 times of propofol and the patient still move which affect the surgical procedure, fentanyl 0.5 mcg/kg was prescribed, and mean arterial pressure (MAP) and heart rate (HR) within baseline levels. As soon as the last suture, the propofol and lidocaine were discontinued. After the procedure, all patients were sent to the PACU for further care under clear consciousness.
We hypothesize that intravenous lidocaine infusion may have beneficial effect to patients undergoing laparoscopic surgeries in Trendelenburg position by preventing ICP elevation.
The aim of this double blind randomized study will be to investigate the effect of an opioid-free anesthesia regimen with a mixture of dexmedetomidine-lidocaine-ketamine in the same syringe versus remifentanil analgesia in lumbar spine surgery
Colorectal cancer (CRC) is one of the most common malignant tumors in the world. Surgical resection is the main treatment option for colorectal cancer patients. Surgery may enhance or accelerate tumor recurrence and metastasis. Multiple factors in the tumor microenvironment play important roles in tumor recurrence and metastasis, and modulating the tumor microenvironment can inhibit disease progression. Lidocaine has been found to inhibit tumor growth in animal experiments.
The whole world now is directed to implement strategies that enhance the patient's quality of life and prevent tumor relapse. Enhanced recovery after pancreatic surgery (ERAPS) program was found to improve the quality of life as it is an evidence-based protocol designed to standardize and optimize perioperative medical care in order to reduce surgical trauma, perioperative physiological stress, organ dysfunction, reduction of clinical complications, length of hospital stay and the health costs together with increase of patient satisfaction. lidocaine; it is an amide local anaesthetic Recently its use as intravenous perioperative infusion for abdominal cancer surgeries is encouraging, as it significantly reduces postoperative pain, opioid consumption and nausea and vomiting. it also promotes gastrointestinal function recovery, and shortens the postoperative hospital stay. In addition, lidocaine in particular can act directly and indirectly on pancreatic cancer cells and the tumor microenvironment. The investigators suggest that IV lidocaine infusion in combination with ERAPS protocol may achieve better postoperative outcomes after pancreatic surgery for cancer.
Study Summary Title Pharmacokinetic profile of lidocaine given as a weight-based infusion for postoperative surgical pain control Short Title Pharmacokinetic profile of lidocaine given as a weight-based infusion for postoperative surgical pain control Methodology Pharmacokinetic study of lidocaine in the surgical population Study Duration 1 year Study Center(s) University of Alberta Hospital Objectives The primary objective will be to map serum lidocaine levels over time in a diverse surgical patient population receiving a weight-based lidocaine infusion. Number of Subjects 40 Diagnosis and Main Inclusion Criteria ASA class 1-3 Age 18-40 or >75 Scheduled for elective major ENT flap, urology or general surgery. Study Product, Dose, Route, Regimen Lidocaine IV infusion - 1.5mg/kg bolus, then - 1mg/kg/h IV intraoperatively, then - 0.5-2 mg/kg/hr IV for 48 h, depending on clinical response
The aim of this study will be to investigate the effect of an opioid-free anesthesia regimen with a mixture of dexmedetomidine-lidocaine-ketamine in the same syringe versus fentanyl analgesia in elective thyroidectomies. Recovery parameters and nociception levels throughout the operation will be evaluated
A comparative study to measure the effect of nebulized dexmedetomidine - lidocaine for controlling postoperative pain after tonsillectomy in adults.