Published ahead of print on July 1, 2010
doi: 10.3174/ajnr.A2191
American Journal of Neuroradiology 31:E77, October 2010
© 2010 American Society of Neuroradiology
B. Paudyala, R. Vietsa and M. Skliuta
aBeth Israel Medical Center
New York, New York
Methotrexate (MTX) has poor central nervous system penetration as an oral agent. Although commonly seen with intrathecal dosing, there are only few reports of oral MTX–induced cerebral toxicity, all describing leukoencephalopathy. We report the first case of oral MTX causing reversible cerebral diffusion-weighted imaging (DWI) hyperintensities without leukoencephalopathy. We have attempted to describe the mechanism of this transient MTX-induced neurotoxicity on the basis of a search of availableliterature.
A 61-year-old woman with a history of systemic lupus erythematosus and rheumatoid arthritis presented with word-finding difficulty, headache, and left-sided weakness for 2 days. Her home medications included hydroxychloroquine, 400 mg daily; folic acid; and oral MTX (15 mg/week; cumulative dose, 7800 mg during 10 years). Clinical examination, CT of the head, and electroencephalographic findings were normal. Laboratory studies disclosed the following values: rheumatoid factor, 63.3 IU/mL; antinuclear antibody titer, 1:640; and homocysteine, 16.4 mmol/L. Findings of MR imaging of the brain were abnormal (Figs 1A, –B). MTX was discontinued subsequently. Findings of repeat MR imaging performed 5 weeks after the cessation of oral MTX were normal. All of the patient’s symptoms had resolved at this time.
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To the best of our knowledge, this is the first reported case demonstrating isolated reversible cerebral DWI changes in theabsence of leukoencephalopathy due to low-dose oral MTX. There are 6 previous reports of oral MTX–related cerebral toxicity, all describing leukoencephalopathy. Only 1 case report1 described restricted diffusion of protons in a patient who eventually developed disseminated necrotizing leukoencephalopathy. The MR imaging findings of our patient suggest cytotoxic edema, most likely due to a metabolic insult causing myelin sheath edema. Possible mechanisms of MTX-induced neurotoxicity are elevated homocysteine levels and their excitatory amino acid neurotransmitter metabolites as homocysteic acid andcysteine sulfinic acid2; elevated intracellular adenosine levels3; and impairment of biopterin metabolism, leading to decreased availability of monoamine neurotransmitters.4 DWI/apparent diffusion coefficient (ADC) changes in our patient did not adhere to a vascular territory, excluding the possibility of stroke. Acute demyelination and posterior leukoencephalopathy are not very likely the etiology because they typically cause increased ADC signal intensity. The reversibility of the DWI signal intensity after withholding MTX suggests none of the patient’s other medications or herdiseases were the cause of her lesions.
Complete resolution of MR imaging changes in our patient suggests that oral MTX–induced neurotoxicity can be reversiblewith early intervention. Timely recognition might help prevent disseminated necrotizing leukoencephalopathy, which is a reported complication of oral MTX therapy.
References
- Raghavendra S, Nair MD, Chemmanam T, et al. Disseminated necrotizing leukoencephalopathy following low-dose oral methotrexate. Euro J Neurol 2007;3:9–14
- Quinn CT, Griener JC, Bottiglieri T, et al. Elevation of homocysteine and excitatory amino acid neurotransmitters in the CSF of children who receive methotrexate for the treatment of cancer. J Clin Oncol 1997;15:2800–06[Abstract]
- Bernini JC, Fort DW, Griener JC, et al. Aminophylline for methotrexate-induced neurotoxicity. Lancet1995;345:544–47[CrossRef][Medline]
- Millot F, Dhondt JL, Mazingue F, et al. Changes of cerebral biopterin and biogenic amine metabolism in leukemic children receiving 5 g/m2 intravenous methotrexate. Pediatr Res 1995;37:151–54[Medline]