L. W. Duchen scite author profile

A new inherited neurological disease in the mouse (the mutant twitcher) has been studied. Transmission is by an autosomal recessive gene (twi). Affected animals are apparently normal at birth but develop a generalized tremor at about 3 weeks of age followed by progressive weakness and wasting. The disease is fatal by 3 months. The principal pathological changes affect the myelin of both central and peripheral nervous systems. Degeneration of myelin sheaths and the presence of multinucleated macrophages with PAS-positive cytoplasm are characteristic findings. Peripheral nerves show remyelination following demyelination. Electron microscopically the macrophages contain a variety of inclusions in which there are crystalline and multi-angular structures and twisted tubules. The abnormalities closely resemble those found in globoid cell leucodystrophy (Krabbe's disease) in man.

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An hereditary motor neurone disease with progressive denervation of muscle in the mouse: the mutant 'wobbler'.

Duchen¹,

Strich²

1968

Journal of Neurology, Neurosurgery & Psychiatry

269

126

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Pathology of Autonomic Neuropathy in Diabetes Mellitus

Duchen¹,

Anjorin²,

Watkins³

et al. 1980

Ann Intern Med

238

116

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Pathologic changes in the autonomic nervous system were studied postmortem in five cases of insulin-dependent diabetes of early onset. All had had clinical evidence of peripheral sensorimotor neuropathy and developed disturbances of autonomic function that included postural hypotension, diarrhoea, bladder dysfunction, impotence (in the men), and signs of cardiac denervation. In coeliac and other sympathetic ganglia there were many distended ('giant') or vacuolated neurons as well as enlarged club-shaped neural processes. The vagus nerve and sympathetic trunks showed severe loss of myelinated fibres. Smooth muscle in many viscera showed a hitherto undescribed focal hyaline degeneration. There were inflammatory changes in the autonomic ganglia in all cases and in or around bundles of unmyelinated nerve fibres in many. These findings suggest that there may be several different pathogenetic mechanisms involved in the development of autonomic neuropathy in diabetes.

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THE MUTANT mdx: INHERITED MYOPATHY IN THE MOUSE

Torres

Duchen

1987

Brain

328

103

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The mdx mutant mouse was first observed during a survey of genetic variations of pyruvate kinase in the mouse. Affected mice have high serum levels of this enzyme and although showing little disability they have widespread and severe muscle disease. Light and electron microscopy, muscle enzyme histochemistry and combined cholinesterase-silver impregnations were used for the study of affected and control animals aged 1 day to 1 year. An early ultrastructural abnormality present already at 1 day was scattered focal streaming of Z-lines. Later there was also segmental muscle fibre necrosis and regeneration. The proportion of muscle fibres showing either necrosis, regeneration or internal nuclei was assessed in several muscles, at ages ranging from 10 days to 1 year. Acute segmental necrosis and regeneration were most marked at 1 to 2 months, although they were present at all ages. The number of fibres with internal nuclei increased progressively until 3 months when 70-80% showed this abnormality. Nerve terminals were unaffected but there was a reduction in the number and depth of postsynaptic folds at motor end-plates in adult animals, confirmed by morphometric analysis. Quantitative study of L4 motor root and tibial nerve showed that fibre numbers, axonal calibres and myelin sheath thickness were normal at all ages. No qualitative abnormalities were found in the CNS or other organs. The findings strongly suggest that the mdx mutant has a primary muscle disease and that the nervous system is normal.

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CLINICAL AND PATHOLOGICAL STUDIES OF AN HEREDITARY NEUROPATHY IN MICE (DYSTONIA MUSCULORUM)

Duchen

Strich

Falconer

1964

Brain

146

105

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L. W. Duchen

Hereditary Leucodystrophy in the Mouse: The New Mutant Twitcher

An hereditary motor neurone disease with progressive denervation of muscle in the mouse: the mutant 'wobbler'.

Pathology of Autonomic Neuropathy in Diabetes Mellitus

THE MUTANT mdx: INHERITED MYOPATHY IN THE MOUSE

CLINICAL AND PATHOLOGICAL STUDIES OF AN HEREDITARY NEUROPATHY IN MICE (DYSTONIA MUSCULORUM)

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