Reversible Vertical Gaze Palsy in Sodium Valproate Toxicity W e read with interest the report on corticobasal syn- drome by Rajagopal et al (1). At times, this neuro- degenerative disorder may lead to vertical gaze palsy. We evaluated a patient with valproate toxicity and hyperammo- nemia and reversible vertical gaze palsy. A 56-year-old man presented with progressive unsteadi- ness, drowsiness, and cognitive decline for the past 6 months. Twenty-five years previously, he was involved in a traffic accident and was in coma for 2 weeks. Subsequently, he made partial recovery with recurrent nocturnal generalized tonic-clonic seizures. He was changed to monotherapy with 400 mg of sodium valproate twice daily for 6 months. The patient’s relatives noted progressive drowsiness and decline in cognition since the treatment was started. His general health was otherwise excellent, and his last seizure occurred 3 weeks before our evaluation. On physical examination, the patient needed support to stand and walk. He was drowsy with hypophonic and dysarthric speech. Extraocular movements revealed marked limitation of upward and downward gaze for both saccades and pursuit with preserved horizontal gaze (see Video 1, Supple- mental Digital Content 1, http://links.lww.com/WNO/A64). Vestibulo-ocular reflex was preserved, but convergence was absent. Pupils were of normal size and reactive to light. Motor examination showed bradykinesia, rigidity, bilateral postural tremors of hands, and positive pull test. He walked with short steps, moderate stoop, and wide-based gait. His tendon reflexes were brisk, and plantar responses were flexor. Sensory exami- nation was normal. Complete blood count, renal function tests, profiles of glucose, sodium, potassium, calcium, and thyroid, thyroid antibodies, and B12 levels were normal. Venereal disease research laboratory testing and HIV testing were normal. Brain magnetic resonance imaging showed diffuse cerebral atrophy and bifrontal gliosis. There were no imaging signs of atypical Parkinson syndromes. Electroencephalography showed diffuse mild slowing of background activity of 6–7 Hz theta suggestive of mild diffuse encephalopathy. His plasma ammonia level was 194 mmol/L (normal, 11–32 mmol/L) with valproic acid level of 109 mg/mL (ther- apeutic range, 50–100 mg/mL). Sodium valproate was discon- tinued, and 1,000 mg of levetiracetam twice a day was started. Four days later, vertical gaze for both saccadic and pursuit eye movements had markedly improved (see Video 2, Supple- mental Digital Content 2, http://links.lww.com/WNO/A65). Significant improvement also was noted in his rigidity, brady- kinesia, and postural imbalance. One week later, he was walk- ing independently. Partial or total gaze palsy has been described with exposure to phenytoin (2), phenobarbitone (3), and carba- mazepine (4). Selective upward gaze palsy has also been described in phenobarbitone poisoning (3). To our knowl- edge, vertical gaze palsy in valproate intoxication has not been reported. In our patient, complete recovery of upward gaze palsy within few days of stopping valproate strongly suggests a causal relationship. Our patient also had features of parkinsonism, which showed a significant improvement after stopping the medication (5). We did not rechallenge the patient with valproate. The centers for control of vertical gaze are located in the premotor structures of the midbrain, namely, the rostral interstitial nucleus of the medial longitudinal fasciculus and the interstitial nucleus of Cajal. These areas have abundant gamma-aminobutyric acid (GABA) receptors (6). In the in- terstitial nucleus of Cajal in macaque monkey, medium-sized and large GABAergic neurons have been identified projecting contralaterally to the superior oblique and inferior rectus motoneurons and presumably the contralateral interstitial nucleus of Cajal as well. These commissural GABAergic pro- jections are well suited to inhibit the superior oblique and inferior rectus motoneurons and premotor down-burst-tonic neurons during upward eye movements (7). Valproate is a well-known GABAergic drug that facilitates glutamic acid decarboxylase, an enzyme re- sponsible for GABA synthesis. At high concentrations, valproate also blocks GABA transaminase in the brain, preventing degradation of GABA. The deactivation of vertical burst neurons by the GABA agonist action of valproate may explain the selective vertical gaze palsy as a result of valproate toxicity (8). Sarma Gosala Raja Kukkuta, MD, DM Meghana Srinivas, MBBS Nadig Raghunandan, MD, DNB Mathew Thomas, MD, DM Arvind Prabhu, MD Mary Laly, MBBS St. John’s Medical College Hospital, Bangalore, Karnataka, India, grk_sarma@yahoo.com Supplemental digital content is available for this article. Direct URL citations appear in the full text and are provided in the HTML and PDF versions of this article on the journal's Web site (www.jneuro-ophthalmology.com). The authors report no conflicts of interest. 202 Letters to the Editor: J Neuro-Ophthalmol 2013; 33: 202-207 Letters to the Editor Copyright © North American Neuro-Ophthalmology Society. Unauthorized reproduction of this article is prohibited.