Metabolic failure due to thiamine deficiency during critical illness.

PURPOSE OF REVIEW: Thiamine is a crucial component in cellular energy metabolism, serving as a cofactor for multiple enzymatic processes and also having a role in regulating neuronal and neuromuscular transmission. Also it exerts antioxidant proprieties. The objective of this review is to consolidate and assess the most recent research concerning the consequences of insufficient thiamine levels for critically ill patients and to examine thiamine-related interventions. RECENT FINDINGS: Recent studies have unveiled a noteworthy association between thiamine deficiency and unfavorable consequences, such as heightened morbidity and fatality rates. The aforementioned deficiency exhibits a significant presence in medical situations such as starvation and alcohol use disorder, but also in patients during critical illness. Thiamine deficiency can have significant metabolic implications resulting in compromised energy generation and organ dysfunction, warranting prompt recognition and management. SUMMARY: Thiamine deficiency may not be recognized in critical care. Timely identification and management are imperative to mitigate adverse outcomes and improve patient prognosis. Thiamine may offer benefits for specific patient groups at higher risk of deficiency. Future studies should focus to establish optimal dosing, timing, and monitoring strategies on understanding the pathophysiological changes associated with thiamine deficiency in ICU patients and clarify its role in improving clinical outcomes.

Biodetoxification Using Intravenous Lipid Emulsion, a Rescue Therapy in Life-Threatening Quetiapine and Venlafaxine Poisoning: A Case Report.

The administration of intravenous lipid emulsion (ILE) is a proven antidote used to reverse local anesthetic-related systemic toxicity. Although the capacity of ILE to generate blood tissue partitioning of lipophilic drugs has been previously demonstrated, a clear recommendation for its use as an antidote for other lipophilic drugs is still under debate. Venlafaxine (an antidepressant acting as a serotonin-norepinephrine reuptake inhibitor (SNRI)) and quetiapine (a second-generation atypical antipsychotic) are widely used in the treatment of psychotic disorders. Both are lipophilic drugs known to induce cardiotoxicity and central nervous depression. We report the case of a 33-year-old man with a medical history of schizoaffective disorder who was admitted to the emergency department (ED) after having been found unconscious due to a voluntary ingestion of 12 g of quetiapine and 4.5 g of venlafaxine. Initial assessment revealed a cardiorespiratory stable patient but unresponsive with a GCS of 4 (M2 E1 V1). In the ED, he was intubated, and gastric lavage was performed. Immediately after the admission to the intensive care unit (ICU), his condition quickly deteriorated, developing cardiovascular collapse refractory to crystalloids and vasopressor infusion. Junctional bradycardia occurred, followed by spontaneous conversion to sinus rhythm. Subsequently, frequent ventricular extrasystoles, as well as patterns of bigeminy, trigeminy, and even episodes of non-sustained ventricular tachycardia, occurred. Additionally, generalized tonic-clonic seizures were observed. Alongside supportive therapy, antiarrhythmic and anticonvulsant therapy, intravenous lipid emulsion bolus, and continuous infusion were administered. His condition progressively improved over the following hours, and 24 h later, he was tapered off the vasopressor. On day 2, the patient repeated the cardiovascular collapse and a second dose of ILE was administered. Over the next few days, the patient's clinical condition improved, and he was successfully weaned off ventilator and vasopressor support. ILE has the potential to become a form of rescue therapy in cases of severe lipophilic drug poisoning and should be considered a viable treatment for severe cardiovascular instability that is refractory to supportive therapy.