Wilson's disease is a disorder of biliary copper excretion that may result in severe neurological symptoms and advanced liver disease. The wide variation of phenotypic disease expression cannot be fully explained by the different mutations of the Wilson disease gene. In neurological disorders, such as Alzheimer's disease, temporal lobe epilepsy and cerebral trauma, the presence of the apolipoprotein E (ApoE) allele epsilon4 is associated with an increased vulnerability of the brain to the effects of the disease, whereas the presence of the ApoE genotype epsilon3/3 appears to provide moderate neuroprotection. We examined whether this hypothesis holds true for the development of neurological symptoms in patients with Wilson's disease. The ApoE genotype and the H1069Q mutation (the most common in Wilson's disease) status were determined by polymerase chain reaction-based mutation assays in 121 well-characterized, symptomatic index patients with Wilson's disease. An investigation profile was established in which the patients were grouped according to the clinical symptoms at presentation, the ApoE genotypes and the status of the H1069Q mutation. Fifty-nine per cent of the 121 patients had the allele combination ApoE epsilon3/3 (21% ApoE epsilon3/4, 19% ApoE epsilon3/2, 1% ApoE epsilon4/2). The distribution of ApoE genotypes did not deviate from known distributions in healthy European subjects. Within the group of 40 H1069Q-homozygous patients, the onset of symptoms was significantly delayed in patients with the ApoE epsilon3/3 genotype (25 +/- 6 years at presentation) compared with patients with the ApoE epsilon3/4 genotype (20 +/- 3 years at presentation). In this study, the ApoE genotype was established as an important factor delaying the onset of neurological and hepatic symptoms, but not modifying phenotypic disease expression in a homogeneous group of patients with Wilson's disease (all H1069Q-homozygotes, similar genetic background). The presence of ApoE epsilon3/3 attenuates clinical manifestations in Wilson's disease by mechanisms which might involve the antioxidant and membrane-stabilizing properties of the ApoE 3 protein.
Thirty-eight patients with biochemically proven Wilson's disease underwent magnetic resonance-imaging (MRI) of the brain as well as neurological examinations. The patients were scanned using spin-echo (SE) sequences; the neurologist was looking for typical symptoms: dysarthria, tremor, ataxia, rigidity/bradykinesia and chorea/dystonia. Pathological MR findings believed secondary to this uncommon inherited disorder of copper metabolism were found in twenty-two subjects. Focal abnormalities were seen in the lenticular, thalamic and caudate nuclei as well as in brain stem and white matter; these lesions were best demonstrated on T2-weighted sequences as hyperintense areas. In eight patients we found diffuse brain atrophy with consecutive widening of the ventricular system. Five subjects showed mild, nineteen severe neurologic deficits. Generally there was no correlation between MR findings and clinical neurological symptoms; the impairment of cell-metabolism causing functional alterations of the brain precedes morphological changes. During treatment with the copper chelator D-penicillamine there seemed to be a phased course of disease. Shortening of T1-relaxation due to paramagnetic influence of copper was not seen; a possible explanation could be intracellular deposition--a proton-electron-dipolar-dipolar-interaction would therefore be impossible.
Using exploratory factor analysis, we prospectively investigated neuropsychiatric symptoms and structural brain lesions of 47 patients with proven Wilson's disease and identified three subgroups. The first subgroup clinically exhibited bradykinesia, rigidity, cognitive impairment, and an organic mood syndrome and by MRI showed a dilatation of the third ventricle. The second subgroup was characterized by ataxia, tremor, reduced functional capacity, and focal thalamic lesions. The third subgroup showed dyskinesia, dysarthria, an organic personality syndrome, and focal lesions in the putamen and in the pallidum.
Detailed neurological examinations and body sway measurements with a stable force measuring platform were carried out on 30 healthy adults between 21 and 63 years of age. The results were analyzed for sex- and age-associated changes with regard to three different sway components (total sway, anterioposterior sway, lateral sway) and two different conditions (eyes open, eyes closed). Sex-associated differences were highly significant for all sway components in the oldest age group (51–65 years) in which men exhibited more spontaneous postural sway than women in the condition eyes open. With eyes closed these differences increased. Middle-aged men (36-50 years) also exhibited significantly more postural sway than women of the same age. In the condition eyes open especially total sway and anterioposterior sway were increased, whereas in the condition eyes closed total sway and lateral sway were predominantly higher in men than in women. In the youngest age group (21–35 years) no sex-related differences in postural sway were found. Age-associated differences were significant for anterioposterior sway (eyes open) in men, increasing continuously from the young to the middle-aged, and again from the middle-aged to the older age group. Anterioposterior sway in women, on the contrary, did not change with age. Age-associated differences in women were found for total sway (eyes open) and lateral sway (eyes closed). However, the highest values for total sway and lateral sway within the female group were obtained from young women in both conditions eyes open and eyes closed. The absence of visual control (eyes closed) in men significantly increased all sway parameters but one: lateral sway in middle-aged men. In women visual control acted as a stabilizing factor for most sway parameters, but there were three exceptions. Lateral sway in young and anterioposterior sway in old women were not significantly stabilized by vision. Lateral sway in middle-aged women was the only sway parameter that was found to be diminished when visual control was absent. The results of our posturographic study show that aging has a much more destabilizing effect on postural sway in men than in women. Furthermore, we found that vision as a stabilizing factor is in all age groups more important for men than for women.
Thirty six patients (31 male, 5 female) who had suffered severe closed head injury were re-examined at an average of 39-3 (SD 12-8, range 7-66) months after the injury. Behavioural symptoms were measured using the Giessen test. The relatives' reports were used for data analysis to ensure that results were valid. The neurophysical impairment subscale of the Glasgow assessment schedule was completed by two neurologists, and the number connection test was completed by each patient. The adjective mood scale was completed by each relative. All patients were investigated by single photon emission computerised tomography (SPECT). Exploratory factor analysis using the principal components method was carried out separately for SPECT results and psychological measures and correlations were sought between the resulting factors. Factor analysis of the data from the Giessen test identified social isolation, disinhibition, and aggressive behaviour as major components of post-traumatic personality changes; it indicates that these behavioural features are independent of the level ofneurological and neuropsychological impairment, which loaded on a single independent factor. Relatives' psychic health seemed to be relatively resistant to physical and cognitive disability and was mainly affected by disinhibitive behaviour. The highest correlation was between frontal flow indices and disinhibitive behaviour (p < 0.01): the severity of disinhibition increased with lower frontal flow rates. There was a significant but somewhat weaker correlation (p < 0.05) between flow indices of the left cerebral hemisphere and social isolation. Low flow values of the right brain regions were related to aggressive behaviour (p < 0.05).Neurological and cognitive impairment correlated negatively with the thalamus; worse neurological and cognitive performance indicated by raised scores on the neurophysical scale and on the number connection test was associated with low thalanic flow values. The results support the importance of lesion location in the production of post traumatic behavioural disorders.Residual disabilities following severe closed head injury (CHI) are a complex combination of mental, affective, behavioural, and neurological symptoms.' 2 Disorders of affect and behaviour are judged to be the most important factors for determining the quality of long term recovery.3`6They are often persistent, impose a major burden on the patient's family, and cause the greatest difficulties for patient's long term psychosocial reintegration.'Ù p to now, there has been little information about cerebral correlates of behavioural disorders after severe CHI. Correlations are based more on preconceived notions than on firm localising evidence.4'0 1 To our knowledge, only a few studies have systematically investigated relation between behavioural disorders and location of injury, with rather disappointing results.5 6 Furthermore, there are discrepant opinions concerning the relative contributions of organic brain damage and premorbid or other non-organi...
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