Drug-induced hypersensitivity syndrome is an uncommon but potentially life-threatening idiosyncratic drug reaction. In the literature, about five cases have been reported concerning hypersensitivity syndrome with lamotrigine. Most cases concern aromatic anticonvulsants but we report a case induced by lamotrigine which is a non aromatic anticonvulsant. A 73-year-old man was treated with lamotrigine for epilepsy due to a cerebrovascular stroke for 5 weeks. After 2 weeks with a single oral dose of 50 mg lamotrigine, the patient received 100 mg. Quickly thereafter fever, erythema and edema involving the periorbital area appeared. He was then admitted to hospital and lamotrigine was immediately discontinued. He developed acute hepatic and renal failure. During his hospital stay, he was treated with systemic and topical corticosteroids. After slow improvement, he was discharged 4 weeks later. Concerning this typical case, we review the characteristics of hypersensitivity syndrome and the different etiopathogenesis. The hypersensitivity syndrome typically develops two to six weeks after a drug is first administered, later than most other serious skin reactions. This syndrome manifests as rash, fever, tender lymphadenopathy, hepatitis and eosinophilia. The mechanism of hypersensitivity syndrome is unknown. Several theories have been proposed. The reaction is secondary to circulating antibodies or concerns toxic metabolities. On the other hand, association of human herpes virus 6 infection may play a role in the development of hypersensitivity syndrome. Hypersensitivity reactions to the aromatic antiepileptic drugs appear to have an immune etiology much like lamotrigine: bioactivation, detoxification, covalent adduct formation, processing and presentation of antigen to the immune system, and consequent formation of antibody and T-cell immune effectors. Another theory involves toxic metabolites; the aromatic antiepileptic agents are metabolised by cytochrome P-450 to an arene oxide metabolite. This is normally detoxified by epoxide hydrolase. This enzyme may be lacking or mutated in persons that develop the syndrome, and this is genetically determined. Lamotrigine is mainly metabolised by hepatic glucuronidation, but hypersensitivity may involve similar processes such aromatic antiepileptic drugs, except that the toxic metabolite has not yet been found. Because of slow evolution and clinical similarity to many infectious illnesses, the diagnosis of hypersensitivity syndrome may be delayed. Prompt recognition and withdrawal of the suspected drug is essential. The goal of research is to describe a "susceptibility profile" identifying individuals at risk for these forms of drug toxicity.