Carglumic Acid Treatment of a Patient with Recurrent Valproic Acid-induced Hyperammonemia: A Rare Case Report

Valproic acid, first manufactured as an anticonvulsant, is commonly used to treat both neurological and psychiatric conditions. A rare and deadly side effect of this medication is hyperammonemia, presenting as lethargy, confusion, seizure, and, ultimately, coma. In rare circumstances, hyperammonemia can be recurrent and devastating, especially in patients with an underlying N-acetyl glutamate synthase (NAGS) deficiency, as the valproic acid can enhance this enzyme deficiency and inhibit the conversion of ammonia into urea in the liver. For these subtypes of patients, the United States Food and Drug Administration (US FDA) has recently approved carglumic acid, a medication that can act as a scavenger by effectively increasing the levels of NAGS, ultimately enhancing the conversion of ammonia to urea. In our case report, we have mentioned a patient with treatment-resistant bipolar disorder, who presented with elevated ammonia levels secondary to valproic acid treatment. Valproic acid was the only drug that was effective in his case, so we initiated therapy to reduce his elevated ammonia levels. After a thorough evaluation, we found the patient had a genetic NAGS deficiency. Carglumic acid was initiated and proved efficacious in our patient.

[1]  Tony K. L. Kiang,et al.  Pharmacokinetic Interactions between Valproic Acid and Lorazepam (PIVOtAL Study): A Review of Site-Specific Practices. , 2017, The Canadian journal of hospital pharmacy.

[2]  R. Stern,et al.  Valproic Acid Induced Hyperammonemia in a Long Time Treated Patient , 2016, Case reports in psychiatry.

[3]  Siddharth Dixit,et al.  Valproate Induced Delirium due to Hyperammonemia in a Case of Acute Mania: A Diagnostic Dilemma. , 2015, Journal of clinical and diagnostic research : JCDR.

[4]  Jennifer D Twilla,et al.  Hyperammonemic Encephalopathy due to Valproic Acid and Topiramate Interaction , 2014, Case reports in psychiatry.

[5]  D. Mojumder,et al.  Differential ammonia decay kinetics indicates more than one concurrent etiological mechanism for symptomatic hyperammonemia caused by valproate overdose , 2014, Indian journal of pharmacology.

[6]  Hye-Seung Lee,et al.  The incidence of urea cycle disorders. , 2013, Molecular genetics and metabolism.

[7]  I. T. de Almeida,et al.  New insights on the mechanisms of valproate-induced hyperammonemia: inhibition of hepatic N-acetylglutamate synthase activity by valproyl-CoA. , 2011, Journal of hepatology.

[8]  M. Dealberto Valproate-induced hyperammonaemic encephalopathy: review of 14 cases in the psychiatric setting , 2007, International clinical psychopharmacology.

[9]  D. Shi,et al.  Mammalian N-acetylglutamate synthase. , 2004, Molecular genetics and metabolism.

[10]  P. E. Chatham Showalter,et al.  Agitated symptom response to divalproex following acute brain injury. , 2000, The Journal of neuropsychiatry and clinical neurosciences.

[11]  D. Scott The History of Epileptic Therapy: An Account of How Medication was Developed , 1993 .

[12]  B. Wroblewski,et al.  Effectiveness of valproic acid on destructive and aggressive behaviours in patients with acquired brain injury. , 1997, Brain injury.