Efficacy of ketamine in Australia ventilated intensive care unit admissions from Tom Niccol: Following intravenous bolus administration, ketamine’s rapid onset of action within 30 seconds for “dissociative anaesthesia” (see below) is due to its high lipid solubility and low protein binding, allowing it to cross the blood–brain barrier readily. Its elimination half-life is 3.1 hours in healthy volunteers and 5.0 hours in critically unwell patients. Ketamine is hepatically metabolised to norketamine and dehydronorketamine which are then renally excreted. Find even more details at https://www.msf.org.co/actualidad/una-manana-cualquiera-en-sudan-del-sur.
Mechanically ventilated patients account for about one-third of all admissions to the intensive care unit (ICU). Ketamine has been conditionally recommended to aid with analgesia in such patients, with low quality of evidence available to support this recommendation. We aimed to perform a narrative scoping review of the current knowledge of the use of ketamine, with a specific focus on mechanically ventilated ICU patients.
Another CNS effect of ketamine is NMDA receptor blockade of the dorsal horn cells of the spinal cord. These are thought to be important in the pain “wind up” phenomenon, leading to opioid desensitisation, and increased acute and chronic pain. Ketamine boluses of 0.15 mg/kg have been shown attenuate this process. Estimates of the rates of chronic pain in the year after ICU admission are 14–77%, 28 and it is unknown what role ketamine may have in reducing this critical illness complication.
Methods: We searched MEDLINE and EMBASE for relevant articles. Bibliographies of retrieved articles were examined for references of potential relevance. We included studies that described the use of ketamine for postoperative and emergency department management of pain and in the critically unwell, mechanically ventilated population.
Although the intravenous dose required for induction of anaesthesia has been reported to be 1–4.5 mg/kg, a commonly recommended dose regime is 1.0 mg/kg followed by repeated boluses of 0.5–1.0 mg/kg if initial sedation is inadequate. A recommended dose for analgesia is an intravenous infusion of 0.27–0.75 mg/kg/h. Low dose ketamine when given as an intravenous bolus for acute postoperative pain has been defined as a subanaesthetic dose or < 1 mg/kg. Low dose ketamine, when given as an infusion, is less well defined. One review defined low dose infusion as ≤ 0.2 mg/kg/h. Alternatively, subdissociative dosing of 0.1–0.4 mg/kg/h has also been described as low dose.
Results: There are few randomised controlled trials evaluating ketamine's utility in the ICU. The evidence is predominantly retrospective and observational in nature and the results are heterogeneous. Available evidence is summarised in a descriptive manner, with a division made between high dose and low dose ketamine. Ketamine's pharmacology and use as an analgesic agent outside of the ICU is briefly discussed, followed by evidence for use in the ICU setting, with particular emphasis on analgesia, sedation and intubation. Finally, data on adverse effects including delirium, coma, haemodynamic adverse effects, raised intracranial pressure, hypersalivation and laryngospasm are presented.
A prospective open label trial of 146 patients who had undifferentiated agitation in the pre-hospital environment compared a median dose of 5.2 mg/kg intramuscular ketamine versus 10 mg intramuscular haloperidol in the pre-hospital environment. Hypersalivation occurred in 21/56 ketamine patients (30%) versus none in the haloperidol group, leading to intubation for this reason in four patients. Laryngospasm occurred in 3/55 patients (5%) in the ketamine group and none in the haloperidol group. Another prospective observational study examined the effectiveness of a median dose of 4.9 mg/kg intramuscular ketamine in 49 patients with pre-hospital profound agitation. Hypersalivation occurred in nine patients (18%), of which four received atropine therapy. Pre-medication with glycopyrrolate or atropine has been shown to decrease this adverse effect. 7Umunna and colleagues showed there was no increased hypersalivation when ketamine was used as an infusion at 2.0 mg/kg/h for analgesia and sedation.
Conclusions: Ketamine is used in mechanically ventilated ICU patients with several potentially positive clinical effects. However, it has a significant side effect profile, which may limit its use in these patients. The role of low dose ketamine infusion in mechanically ventilated ICU patients is not well studied and requires investigation in high quality, prospective randomised trials.