We carried out a controlled clinical trial to examine the potential of baclofen to slow the functional decline of patients with early Huntington's disease (HD). The basis of the trial was: (1) the hypothesis that excitatory amino acid neurotransmission mediates the neuronal degeneration of HD, (2) preclinical evidence that baclofen retards corticostriatal release of glutamate and aspartate, and (3) reports that baclofen produces short-term clinical benefits in some HD patients. Sixty patients with early HD were randomized to chronic baclofen, 60 mg/day, or placebo treatments and followed systematically for up to 42 months. Total functional capacity was not favorably influenced by baclofen treatment. Factors that contributed, although nonsignificantly, to a more rapid rate of total functional capacity decline included younger age (less than 35 years), earlier stage (stage I) of illness, paternal inheritance of the HD gene, and baclofen treatment. Our patients declined at a pace slower than that observed in other prospective studies, a finding likely due to selection criteria, avoidance of neuroleptic therapy, and strong psychosocial support.
Previous studies of patients with myotonic dystrophy have demonstrated hyperinsulinism after glucose loading. This hyperinsulinism has been attributed by some investigators to tissue insulin resistance. We have directly studied insulin sensitivity of forearm muscle in patients having such hyperinsulinism. The effect of an intrabrachial arterial insulin infusion (100 mu U/kg per min) on glucose uptake was determined in six cases of myotonic dystrophy, six normal subjects, and in seven disease control subjects with myotonia or wasting from other disorders. There was no significant difference in insulin tolerance comparing myotonic dystrophy patients to the normal and disease control groups. Glucose tolerance and basal insulin levels were normal in the myotonic dystrophy patients, but hyperinsulinism occurred after glucose ingestion. After 25 min of intra-arterial insulin, the mean peak muscle glucose uptake in myotonic dystrophy was 2.54 +/- 0.54 mu mol/min per 100 ml forearm compared to 5.24 +/- 0.86 mu mol/min per 100 ml for disease controls (P is less than 0.05). Myotonic dystrophy patients showed a peak glucose uptake increment of only 2.6 +/- 0.2-fold over basal contrasted with the disease control value of 6.5 +/- 1.0-fold (P is less than 0.02) and the normal control value of 8.8 +/- 1.1-fold (P is less than 0.01). Thus, there was an absolute as well as a relative decrease in muscle insulin sensitivity in myotonic dystrophy patients compared to both control groups. The peak increments in arterio-superficial venous glucose concentration differences after insulin infusion were not significantly different comparing myotonic dystrophy and control groups. These data suggest that in myotonic dystrophy, there is insulin insensitivity of skeletal muscle.
Muscimol, a gamma-aminobutyric acid (GABA) analogue that exerts potent and specific agonist effects on GABA receptors, was administered orally to 10 patients with Huntington's disease. In this double-blind study, muscimol treatment did not result in improvement in these patients' motor or cognitive functions. However, muscimol administration did ameliorate chorea in the most severely hyperkinetic patient, and it was associated with the appearance of dystonic features, electroencephalographic changes, and behavioral alterations in some patients. These latter observations support a functional relationship between GABA-ergic activity and the genesis of both systonia and EEG abnormalities in humans. The therapeutic failure of muscimol indicates that the GABA disturbances in Huntington's disease does not alone account for the clinical features of this disorder.
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