RESUMO
We report the case of a 46-years-old man with long-term asymptomatic hyperuricemia who started taking colchicine (0.5 mg/day) and allopurinol (100 mg/d) for normalization of biochemical values. After the third week of starting treatment, acute weakness was present; and by the fifth week, profound weakness in lower extremities and tenderness and cramps on thighs and calves with inability to climb stairs were also observed. Biochemical evaluation showed elevated muscle enzymes (creatinine kinase [CK] raised to five-folds its normal value) and electromyographic features were consistent with myopathy (at rest, fibrillations, positive sharp waves, high-frequency myotonic discharges; motor unit action potentials [MUAPs] of small amplitude, small duration, increased polyphasic Index and occasional satellite potentials; at maximal effort, interferential recruitment pattern with reduced amplitudes were observed). Normal motor and sensitive nerve conduction studies and normal late F-responses and H-reflex discarded neuropathy. Rapid improvement in muscle strength and prompt resolution of abnormal elevated muscle enzymes was observed after withdrawal of both medications. Colchicine is associated with some cases of myotoxicity but very small cases of colchicine-induced rhabdomyolysis are reported on the literature. Colchicine-induced rhabdomyolysis is related to the concomitant use of drugs (statins, steroids, erythromycin, and cyclosporine), renal, and/or hepatic impairment. To the best of our knowledge, this is an uncommon presentation of a case of colchicine-induced rhabdomyolysis reported in a patient without renal or hepatic dysfunction. Therefore, patients receiving colchicine even in the absence of renal insufficiency should be monitored for the development of myopathy and more rarely to rhabdomyolysis.
RESUMO
INTRODUCTION. The sympathetic skin response (SSR) has been used since its description in 1984 to test the integrity of the sympathetic autonomic nervous system to investigate peripheral and central nervous system diseases. AIM. To present a neurophysiological examination protocol for SSR and the normal parameters for a population of 100 normal subjects. SUBJECTS AND METHODS. To evaluate the characteristics of 200 SSR tests for 100 normal subjects adequately informed: latency, amplitude (peak to peak) and persistence. The subject lays supine and relaxed, with no visual nor auditory stimuli for several minutes. Cutaneous electrodes are used for stimulation and recording, the latter in palm (active) and back (reference) in both hands simultaneously (second interosseous space). The stimulus is applied in the glabela at irregular intervals. RESULTS. We studied 100 normal subjects aged 12 to 89 years (mean: 45.6), 21 men and 79 women. The parameters measured in the 200 SSR are: latency, 1.42 ± 0.03 s; amplitude, 2.44 ± 1.84 mV; persistence, 67.2 ± 19.8%. CONCLUSIONS. SSR is an objective, reproducible, measurable, easy to perform and unpainful for the patient and serves as a basis for further study of other diseases in which there is a dysfunction of the sympathetic autonomic nervous system.