Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0344307 (analgesia)
28,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The success of out-patients laparoscopic surgery depends on a careful selection of patients and the ability of anesthetic technique to ensure a rapid emergence from anesthesia, with a satisfactory control of postoperative pain and the absence of side effects. This study was undertaken to investigate the influence of a total intravenous anesthetic management on the recovery process after laparoscopic varicocelectomy. Fifty-three ASA 1 patients aged 12-41 yrs (mean 26.02) scheduled to undergo laparoscopic varicocelectomy as day surgery procedure were included in this study. Propofol was used as inductor agent and in variable-rate infusion (170-100 mcg/Kg/min) to maintain anesthesia supplemented with Fentanyl (FNT) before endotracheal intubation, incision surgery and if the patient manifested clinical signs of inadequate analgesia. Local anesthesia was infiltrated into the skin before incision. Tramadol 100 mg and Ketorolac 30 mg were administered before the end of surgery to delay the onset of the postoperative pain. Pain was evaluated using a self-rating visual analoque scale (VAS) ranging from 0 to 10 at 0-0.5 hrs postoperatively and every 2 hrs until discharge. At the same time nausea was clinically evaluated using a scale ranging from 0 to 3. Postoperative pain and nausea (PONV) treatment were standardized. Patients were discharged by Post-Anesthesia Discharge Scoring System (PADS). Mean operating time was 34.2 min and mean estubation time was 11.6 min. At time 0 all patients had VAS pain score < 3, on the same time 2 of patients was treated for mild PONV; mean time to first request for postoperative analgesia treatment in 89% of patients was more than 6 hrs, 5 patients required pain treatment before discharge in a mean time 216' +/- 156'. Using the PADS system, 64% of patients were discharged at 4 hrs and 89% at 6 hrs after surgery. One patient was admitted to hospital for an overnight stay for walking dizziness; another was readmitted for surgical complications. This results suggest that the proposed anesthetic management provided adequate pain control with minimun postoperative nausea and a good recovery rate. This permitted a short postoperative hospital stay without compromising in safety, efficacy, or patient satisfaction.
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PMID:[Laparoscopic surgery of varicocele. Role of total endovenous anesthesia in same-day discharge]. 1112 41

Total intravenous anaesthesia (TIVA) with short-acting drugs is a standard procedure for day case surgery and is increasingly used for neurosurgical, cardiac surgical and paediatric surgical operations. The combination of propofol with alfentanil or remifentanil is frequently applied due to its favourable pharmacological properties. Propofol is characterized by a large volume of distribution at steady state and a relatively long elimination half time (t1/2 beta). Because of a high metabolic clearance, the clinical effects of propofol decline rapidly even after prolonged intravenous drug infusion. In patients with increased age, obesity or liver or renal failure, decreased doses of propofol for induction of anaesthesia are recommended. The short-acting opioids alfentanil and remifentanil provide small volumes of distribution at steady state, a short blood-brain equilibration time and decreased t1/2 beta. Remifentanil has unique pharmacological properties due to an ester binding and its elimination via extrahepatic hydrolysis by non-specific blood and tissue esterases. The context sensitive half time of remifentanil is significantly shorter than that of other opioids. Its analgetic potency is equal to fentanyl and 20 to 30 times higher than alfentanil. The advantages of total intravenous anaesthesia include fewer haemodynamic side-effects, a decreased incidence of postoperative nausea and vomiting and less neurohumoral stress response to surgery. Adequate pain therapy is mandatory after total intravenous anaesthesia with short-acting drugs. Continuous infusion of remifentanil for postoperative analgesia or supplementation of regional anaesthesia requires careful monitoring of vital functions. The economic aspects of TIVA remain to be determined.
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PMID:[Perioperative management with short-acting intravenous anesthetics]. 1119 82

Sedatives continue to be used on a routine basis in critically ill patients. Although many agents are available and some approach an ideal, none are perfect. Patients require continuous reassessment of their pain and need for sedation. Pathophysiologic abnormalities that cause agitation, confusion, or delirium must be identified and treated before unilateral administration of potent sedative agents that may mask potentially lethal insufficiencies. The routine use of standardized and validated sedation scales and monitors is needed. It is hoped that reliable objective monitors of patients' level of consciousness and comfort will be forthcoming. Each sedative agent discussed in this article seems to have a place in the ICU pharmacologic armamentarium to ensure the safe and comfortable delivery of care. Etomidate is an attractive agent for short-term use to provide the rapid onset and offset of sedation in critically ill patients who are at risk for hemodynamic instability but seem to need sedation or anesthesia to perform a procedure or manipulate the airway. Ketamine administered through intramuscular injection or intravenous infusion provides quick, intense analgesia and anesthesia and allows patients to tolerate limited but painful procedures. The risk/benefit ratio associated with the use of this neuroleptic agent must be weighed carefully. Ketamine is contraindicated in patients who lack normal intracranial compliance or who have significant myocardial ischemia. Barbiturates are reserved mainly to induce coma in patients at risk for severe CNS ischemia, which frequently is associated with refractory intracranial hypertension, or in patients with status epilepticus. When administered in high doses, these drugs have prolonged sedative and depressant effects. Judicious hemodynamic monitoring is required when barbiturate coma is induced. Haloperidol is indicated in the treatment of delirium. Patients should be monitored for extrapyramidal side effects and, when they require higher doses, for potential electrocardiographic prolongation of the QT interval. Dexmedetomidine may evolve into an agent with qualities comparable with midazolam and propofol, and it may even become a drug of choice in select patients. Further study is required, however. Propofol has many of the qualities of an ideal sedative agent. Benzodiazepines and narcotics often are used in concert with propofol to provide reliable amnesia and to relieve pain, respectively. Propofol frequently causes hypotension when administered as a bolus or infusion, particularly in patients with limited cardiac reserve or hypovolemia. More data must be obtained to identify potential deleterious effects of hypertriglyceridemia, and further evaluation of the potential benefits in certain patient populations, such as neurosurgical patients, is needed.
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PMID:Use of propofol and other nonbenzodiazepine sedatives in the intensive care unit. 1176 65

A five-year-old child with severe arthrogryposis multiplex congenita and malnutrition underwent surgery for chronic osteomyelitis of the head of the left humerus. The child had typical features of arthrogryposis multiplex congenita, including a difficult airway. Propofol was used for induction and maintenance. Spontaneous respiration was maintained with a nasal airway. Analgesia was provided with an interscalene brachial plexus block placed using a nerve stimulator. No opioid was given. The child had an uneventful recovery with good postoperative analgesia. The anaesthetic implications of arthrogryposis multiplex congenita are discussed.
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PMID:Interscalene brachial plexus block for shoulder surgery in a patient with arthrogryposis multiplex congenita. 1218 May 93

An essential goal of all critical care physicians should be to maintain an optimal level of pain control and sedation for their patients. This has become increasingly important because of evidence showing that the combined use of sedatives and analgesics may ameliorate the detrimental stress response in critically ill patients. Unfortunately, both pain and anxiety are subjective and difficult to measure, thereby limiting our ability to analyse these states and making management more challenging. Although there is still a lack of high quality, randomised, prospective, controlled trials comparing agents, monitoring techniques and scoring scales, several societies have come together to publish some clinical practice guidelines for sedation and analgesia. Recommended opioids are fentanyl or hydromorphone for short-term use, and morphine or hydromorphone for longer-term therapy. Midazolam or diazepam are recommended for sedation of the acutely agitated patient, while lorazepam is recommended for longer infusions. Propofol is preferred when rapid awakening is desired. The challenge for critical care physicians is to use these medications to provide comfort and safety without increasing morbidity or mortality. Most studies support the use of protocols in order to help achieve these goals. The bottom line is that most protocols end up stressing some common issues. These include daily cessation of drugs to evaluate the patient and frequent reassessment of the level of sedation required by each specific patient. Much is still unknown about the long-term effects of sedative and analgesic drugs used as infusions that may last from days to weeks to months. Hopefully, as more studies are performed, we will have more defined clinical end-points, newer drugs with rapid onset and offset and no active metabolites, and decreased morbidity and mortality for our patients.
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PMID:Postoperative analgesia and sedation in the adult intensive care unit: a guide to drug selection. 1266 24

The potential for using external applied energy to rectify or ameliorate musculoskeletal disorders has been explored for decades. A shock wave is a pressure disturbance: tissue effect is cavitation, producing microtrauma or microfracture and haematoma formation, inducing, as to date is thought, increase in vascularization, increased soft callus and faster enchondral ossification. Anaesthesiological interest in this field is focused in non-union or delayed osseous union, joint stiffness or osteochondrosis and femoral head necrosis in adults. Actually, because of the pain associated with high energy extracorporeal shock wave therapy on bones, anaesthesia is necessary, but, since almost all patients have no complaint after treatment, there is no need of postoperative analgesia. Therefore, short duration anaesthetic techniques and agents should be preferred. Loco-regional anaesthesia or general anaesthesia are both suitable to the purpose. Fifty patients have been treated nowadays in our Institution with shock wave therapy needing anaesthesia. 18 patients (36%) received general anaesthesia. Since patient's stay in hospital was expected to be short, short duration agents have been used, avoiding those causing unpleasent side effects, first emesis. We used Propofol or Remifentanil by continuous infusion, titrated to maintain stable haemodynamics and an appropriate level of anaesthesia. The short duration of action of Propofol depends on its rapid elimination, whereas Remifentanil undergoes rapid biotransformation to minimally active metabolites. 32 patients (64%) received regional anaesthesia. We avoided long acting agents or high concentration drugs. Spinal blocks have been performed with 0.5% hyperbaric bupivacaine; brachial plexus blocks, sciatic-femoral blocks and an epidural block have been performed with 0.5-1% xylocaine or 1% mepivacaine. Shock Wave Therapy has been done during a 3-day hospital stay. With suitable anaesthesiological treatment and preparation, almost all patients could be treated as outpatients or with an overnight hospital stay.
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PMID:Anaesthesia for shock wave therapy in musculoskeletal disorders: a preliminary report. 1277 7

Since venous cannulation in children has become easier and extensive experience has been gained with total intravenous anaesthesia (TIVA) in adults, the interest in TIVA for children has recently increased. An intensified sensitivity of the operating room atmosphere to contamination with volatile anaesthetic agents is another important reason to choose intravenous techniques for paediatric anaesthesia. One of the most interesting agents for TIVA in paediatric anaesthesia is propofol. The pharmacokinetic and pharmacodynamic data for modern intravenous drugs is poor. Because the interpatient variability is relatively large, pharmacokinetic data can only provide guidelines for the dosage of propofol. Propofol has a rapid and smooth onset of action and is as easy to titrate in children as in adults. Propofol can be excellently controlled. Severe haemodynamic side-effects are missing in healthy children and plasma is cleared rapidly of propofol by redistribution and metabolism. There is no evidence of significant accumulation, not even after prolonged infusion times. Because propofol has no analgetic properties it must be combined with analgetics or a regional block for all painful procedures. The combination with the ultra-short acting remifentanil is a major advantage, but requires effective analgetic concepts for painful procedures. In comparison the combination of propofol with long acting opioids abolishes some of the favourable properties of propofol. Further studies of the kinetics and dynamics of propofol and other intravenous agents are needed in paediatrics which should focus on age, maturity and severity of illness. The whole importance of the propofol-infusion syndrome has to be cleared up urgently. TIVA has an important significance in paediatric anaesthesia for diagnostic and therapeutic procedures, especially where these have to be repeated. In day-case anaesthesia TIVA has advantages for all short procedures and for ENT and ophthalmic surgery: even after prolonged infusion children have an short recovery time. There is no evidence of agitation or other behavioural disorders after TIVA with propofol in paediatric anaesthesia. Propofol has anti-emetic properties. TIVA with propofol can be combined with regional anaesthesia advantageously to provide long-lasting analgesia after surgery. TIVA with propofol has been used successfully for sedation of spontaneously breathing children for MRI and CT and other procedures with open airways like bronchoscopy or endoscopy. Propofol facilitates endotracheal intubation without the use of muscle relaxants. Of course, in malignant hyperthermia TIVA will continue to be the technique of choice. Nothing is known about awareness under TIVA in paediatric patients. TIVA must be considered by comparison with the volatile agents. The use of ultra-short acting agents may cause problems such as awareness, vagal response, involuntary movements and in some cases slow recovery after prolonged infusion of propofol. But it is not known exactly how often this happens during paediatric anaesthesia. With TIVA an effective postoperative analgesia must be provided. Newer administration techniques such as the target-controlled infusions or closed-loop control systems are under development and will help to minimise the potential risk of overdosage with TIVA in paediatrics. At the present TIVA is an interesting and practicable alternative to volatile anaesthesia for pre-school and school children. TIVA with propofol in infants younger than 1 year old requires extensive experience with TIVA in older children and with the handling of this special age group and should be undertaken with maximum precautionary measures.
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PMID:[Total intravenous anesthesia. On the way to standard practice in pediatrics]. 1450 2

The SkyePharma PLC subsidiary SkyePharma Inc. (formerly DepoTech) is developing a sustained-release formulation of morphine sulphate [DepoMorphine, C 0401, D 0401, SKY 0401] using its DepoFoam proprietary drug delivery technology. It is intended for epidural administration in the treatment of acute postoperative pain. DepoFoam consists of microscopic spherical particles with internal aqueous chambers separated by lipid membranes containing the encapsulated drug. DepoFoam particles are synthetic replicas of natural lipids that are biodegradable and biocompatible. DepoFoam can be administered subcutaneously, intramuscularly and intrathecally. In December 2002, SkyePharma and Endo Pharmaceuticals signed a development and commercialisation agreement providing Endo Pharmaceuticals with exclusive marketing and distribution rights in the US and Canada for Depomorphine and another product, Propofol IDD-D trade mark, with options for other development products. Under the terms of the agreement, SkyePharma will receive an upfront payment and may receive further milestone payments. Skye-Pharma will also receive a share of each product's sales revenue. SkyePharma is responsible for clinical development towards the US FDA approval and for product manufacture and associated costs. Following the approval, SkyePharma will as act as a supplier, while Endo will market each product in the US and Canada. SkyePharma has received 30 million US dollars from Paul Capital Partners, a US private equity group, to develop DepoMorphine. This capital will enable SkyePharma to fund phase III clinical trials without raising extra funds. Paul Capital will have rights to 15% of any revenues from DepoMorphine until 2014, and also receive some royalties on three other SkyePharma products. However, if DepoMorphine fails in clinical trials or is declined for registration, Paul Capital will not be compensated for the investment. SkyePharma expect to conclude a European license by the end of 2003, and are also in discussions with potential Japanese licensees. In July 2003, SkyePharma submitted an NDA to the US FDA for DepoMorphine in the treatment of moderate to severe postoperative pain. The FDA accepted the filing in September, triggering a milestone payment to Skye-Pharma. Positive results from two phase III trials in 750 patients after hip surgery and lower abdominal surgery released in June 2003 report that DepoMorphine is effective in providing sustained dose-related analgesia. DepoMorphine demonstrated sustained dose-related analgesia and achieved its primary endpoint and also statistical significance on several secondary endpoints such as patient perception of pain intensity and adequacy of pain relief. The Financial Times in January 2001 reported that analysts have forecast DepoMorphine to reach peak sales of more than 200 million US dollars. In April 2001, the Wall Street Journal quoted the CEO of SkyePharma predicting that DepoMorphine has the potential to reach combined annual sales, in the US and Europe, of approximately 350 million US dollars.
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PMID:Morphine Liposomal--SkyePharma: C 0401, D 0401, morphine--DepoFoam, SKY 0401. 1458 69

To determine the effects of propofol and sevoflurane on hemodynamics, acid-base balance and uterine activity in pregnant animals, a prospective experimental study was designed by use of ten pregnant goats. Propofol was intravenously administered at a bolus dose of 5 mg/kg and then infused a rate of 0.3 mg/kg/min for 5 min. Following the induction, the animals were incrementally inhaled 2.7 and 4.1% of end-tidal concentration of sevoflurane each for 30 min, and then recovered. The maternal and fetal heart rate (HR), arterial blood pressure (BP) and acid-base balance, the intrauterine pressure (IUP), and the uterine blood flow (UBF) were measured. Following the pre-anesthetic data, the parameters were measured 7 times throughout the anesthetic and recovering periods. The propofol infusion induced 1.37 times of HR increase and produced decrease in PO(2) and a relevant metabolic acidemia in the mother, with no effect in the fetus. Sevoflurane reduced BP in the fetus from 30 (2.7%) to 60 (4.1%) min of inhalation. The uterine contractions disappeared throughout sevoflurane inhalation, and then recurred within 15 min after the cessation of sevoflurane. Propofol injection increases HR, and induces a moderate hypoxemia and metabolic acidemia associated with the suppressed ventilation for pregnant goats, with less effect on the fetal hemodinamics. Sevoflurane causes minimal change in maternal hemodynamics, but induces significant hypotension in the fetus and reduction of uterine activity. These data may be useful in making anesthetic choices combined with analgesia for Caesarian section in goats.
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PMID:Effects of propofol-sevoflurane anesthesia on the maternal and fetal hemodynamics blood gases, and uterine activity in pregnant goats. 1460 Mar 44

Sedation and analgesia can be routinely prescribed in head injury patients. The goals of such sedation are three: brain protection, prevention and treatment of intracranial hypertension and therapeutic facilitation. In such situation, the use of sedative and analgesic therapy should respect the rate of cerebral blood flow/cerebral oxygen consumption coupling while preserving cerebral perfusion pressure and decreasing the intracranial pressure. This treatment should have an analgesic and myorelaxing action with short and predictable time of action. The ideal sedation agent with all these properties does not exist. Only the combination of several different pharmacological classes of compounds may reach this goal. Benzodiazepines are the most frequently used agents. In most of the cases they are associated with analgesic agents such as opioid or ketamine. Opioids may be the basic analgesic agents because they do not produce brain haemodynamic modifications if arterial pressure is maintained. Among them, sufentanil, thanks to its pharmacokinetics properties, remains the most prescribed opioid. However, in the future, remifentanil that presents a fast elimination may be more frequently used for neurological follow up of patients. Ketamine whose use is subject of debate, has the main advantage of maintaining haemodynamic status. Ketamine has no side effects on brain haemodynamic when used with propofol or midazolam. Taking into account their deleting effect on haemodynamic status and immune system, barbituric are no longer used as long term sedative agents. However, their use is still recommended in the cases of refractory intracranial hypertension. Propofol remains the ideal sedative agent because of its short duration action but its use is limited by its cost. Its use may be recommended for short time sedations with or without an opioid drug. The curare use should be restrain to refractory intracranial hypertension to usual treatments and happening during stimulation.
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PMID:[The agents used for sedation in neurointensive care unit]. 1515 48


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