Balanced propofol sedation

Balanced propofol sedation versus propofol monosedation for gastrointestinal endoscopy Three studies compare the efficacy and safety of procedural sedation with propofol alone or a balanced technique with propofol and/or benzodiazepine and/or opioid. Patient satisfaction was higher in the balanced propofol sedation group [82 ] but recovery time was prolonged [82, 83 ]. There was no difference in cardiorespiratory adverse events between groups [82-84 j. 

Lee TH, Lee CK, Park SH, Lee SH, Chung IK, Choi HJ, et al. Balanced propofol sedation versus propofol monosedation in therapeutic pan-creaticobihary endoscopic procedures. Dig Dis Sci 2012 57 2113-21. 

Recovery is sufficiently rapid with most intravenous drugs to permit their use for short ambulatory (outpatient) surgical procedures. In the case of propofol, recovery times are similar to those seen with sevoflurane and desflurane. Although most intravenous anesthetics lack antinociceptive (analgesic) properties, their potency is adequate for short superficial surgical procedures when combined with nitrous oxide or local anesthetics, or both. Adjunctive use of potent opioids (eg, fentanyl, sufentanil or remifentanil see Chapter 31) contributes to improved cardiovascular stability, enhanced sedation, and perioperative analgesia. However, opioid compounds also enhance the ventilatory depressant effects of the intravenous agents and increase postoperative emesis. Benzodiazepines (eg, midazolam, diazepam) have a slower onset and slower recovery than the barbiturates or propofol and are rarely used for induction of anesthesia. However, preanesthetic administration of benzodiazepines (eg, midazolam) can be used to provide anxiolysis, sedation, and amnesia when used as part of an inhalational, intravenous, or balanced anesthetic technique. 

Several drugs are used intravenously, alone or in combination with other drugs, to achieve an anesthetic state (as components of balanced anesthesia) or to sedate patients in intensive care units who must be mechanically ventilated. These drugs include the following (1) barbiturates (thiopental, methohexital) (2) benzodiazepines (midazolam, diazepam) (3) opioid analgesics (morphine, fentanyl, sufentanil, alfentanil, remifentanil) (4) propofol (5) ketamine and (6) miscellaneous drugs (droperidol, etomidate, dexmedetomidine). Figure 25-2 shows the structures of... 

Propofol infusion syndrome mimics the mitochondrial myopathies, in which there are specific defects in the mitochondrial respiratory chain. The clinical features of mitochondrial myopathy result from a disturbance in lipid metabolism in cardiac and skeletal muscle. These patients generally remain well until stressed by infection or starvation, although subclinical biochemical abnormalities of mitochondrial transport can be demonstrated. It has been suggested that early management of critically iU children may not include adequate calorific intake to balance the increase in metabolic demands, and that in susceptible children the diversion of metabolism to fat substrates may cause the propofol infusion sjmdrome. It is unclear if the dose or duration of propofol infusion alters this effect. As adults have larger carbohydrate stores and require lower doses of propofol for sedation, this may account for the relative rarity of the sjmdrome in adults. The authors suggested that adequate early carbohydrate intake may prevent the propofol infusion syndrome (71). 

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