View clinical trials related to Adjuvants, Anesthesia.
Filter by:The study will evaluate pain and recovery after a single injection axillary plexus block combined with an intravenous dose of 0.1 mg/kg dexamethasone in ambulatory patients undergoing upper extremity bone surgery. The investigators will try to identify the risk factors involved in a decrease in the efficacy of dexamethaxone for the prevention of RP. The hypotheses are that : - The interindividual variability may modulate the preventive effect on "rebound pain" after axillary block, of pre-incisional administration of an anti-inflammatory dose of dexamethasone (0.1 mg/kg max 10 mg). - Patients with increased preoperative anxiety or underlying catastrophizing will experience more postoperative pain as the axillary PNB dissipates. - Elevated preoperative salivary lipocortin 1 and cortisol levels result in a lesser preventive effect of dexamethasone on the development of rebound pain.
Cervical preparation with osmotic dilators is commonly used prior to dilation and evacuation (D&E) procedures to decrease the risk of complications. Women have described the pain of osmotic dilator insertion as moderate to severe yet there have been few studies aimed at addressing pain during and after osmotic dilator insertion. In addition to the discomfort during insertion, pain after osmotic dilator insertion peaks at 2 hours post-insertion with use of a lidocaine paracervical block. One randomized trial found that use of a paracervical block with 1% buffered lidocaine decreased pain with osmotic dilator insertion compared to a sham block. There are adjunct treatments to optimize analgesia with local anesthetics at a variety of anatomic locations. Buprenorphine, a partial mu-opioid receptor agonist, has been found to increase the quality of the anesthetic at the time of administration and increase the duration of nerve block analgesia at several anatomic sites, though has never been studied as an adjunct in a paracervical block. This has been used extensively in orthopedic surgery with significant prolongation of the local anesthetic effect by almost threefold in some studies. Primary Aim: To compare the mean pain score at the time of osmotic dilator insertion among women randomized to a 1% lidocaine and buprenorphine paracervical block compared to a 1% lidocaine paracervical block alone. Secondary Aim: To compare the mean pain score 2 hours after osmotic dilator insertion among women randomized to a lidocaine and buprenorphine paracervical block compared to a lidocaine paracervical block alone. The investigators hypothesize that in patients undergoing osmotic dilator insertion in preparation for dilation and evacuation, the addition of buprenorphine 0.15mg to a 1% lidocaine paracervical block will be associated with lower mean pain scores at time of osmotic dilator insertion compared to women who receive a 1% lidocaine paracervical block alone.
Due to the delicacy and long duration of the procedure, ophthalmic surgery put forward higher requirements to anesthesia management: 1. The patient with local anesthesia without sedation is in a state of awareness, which will cause intense stress resulting in increased blood pressure, heart rate, muscle tension and even sense of pain; 2. Traction of extraocular muscles and eyeballs can induce oculocardiac reflex, followed by bradycardia, atrial or ventricular arrhythmia, conduction block, and even more worsen, life-threatening cardiac arrest may occur; 3. With the increase in average life expectancy and the improvement of quality of life requirements, the number of elderly patients in ophthalmic surgery is also increasing. These elderly patients are often combined with hypertension, diabetes, etc. and decreased tolerance of with general anesthesia; 4. For some retinal detachment surgery with difficulty in resetting, the patients will be required to change to the prone position immediately after surgery to improve the success rate of resetting. Conventional general anesthesia management are cumbersome and costly, which may not be likely to achieve the swift emergence. Nowadays, monitoring Anesthesia Care (MAC) has developed into a flexible and unique anesthesia technology combining intravenous anesthesia with regional block anesthesia. MAC provides reasonable balance between economy, comfort and safety, efficiency by continuous monitoring of changes in respiratory and circulatory system, during process of sedation and analgesia. Airway management will be another issue as surgeons operate on the side of head and face. Studies have shown that MAC can achieve adequate sedation and analgesia to decrease blood pressure, provide acceptable surgical fields and reduce adverse reactions such as perioperative stress, pain and anxiety. Meanwhile, MAC make patients comfortable enough to cooperate with the surgeons, easy to be awakened with relatively short operation duration and improvement of perioperative safety.
Intravenous regional anesthesia (IVRA) is described firstly in 1908 by August Bier. It is simple, safe, reliable, less cost, efficient method in forearm surgery. The advantage of this method has fast return of motor and sensory function which enables patients for earlier discharge. However, this method has disadvantages such as tourniquet pain, insufficient muscle relaxation and postoperative analgesia. Lidocaine inhibits action potential propagation within neuronal tissue by binding to receptors in Na+ channels located on the nerve cell membrane. Lidocaine IVRA is safe and effective and is associated with a rapid onset (4.5 minutes) of anesthesia after injection and termination of analgesia (5.8 ± 0.5 minutes) once the tourniquet is deflated. Neostigmine is a typical cholinesterase inhibitor. It increases the level of acetylcholine (Ach) and indirectly stimulates both nicotinic and muscarinic receptors. In anesthesia, neostigmine is a drug that has been used for reversal of residual neuromuscular block. Administration of neostigmine by intrathecal and epidural routes has been found to cause analgesia by inhibition of the breakdown of Ach in the spinal cord. Dexamethasone is commonly used in anesthesia to prevent postoperative nausea and vomiting (PONV). Two recent meta-analyses have documented that dexamethasone also reduced postoperative pain and opioid requirement. Intravenous dexamethasone has also been shown to improve postoperative pain control in patients receiving spinal or epidural morphine. Hong et al reported that intravenous dexamethasone in combination with a caudal block with ropivacaine prolonged the duration of postoperative analgesia without adverse effects in children undergoing orchidopexy. So the investigators expect that addition of dexamethasone or neostigmine will affect duration and postoperative analgesia in bier block.