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Query: UMLS:C0002736 (
amyotrophic lateral sclerosis
)
19,048
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Lower motor neurons of the spinal cord of patients with
amyotrophic lateral sclerosis
(
ALS
), Werdnig-Hoffmann's disease (WH),
X-linked recessive
bulbospinal neuronopathy (X-BSNP) and multiple system atrophy (MSA), all of which were known to involve the lower motor neurons, were immunohistochemically examined by using a monoclonal antibody (Ta-51) specific to phosphorylated epitopes of high molecular weight subunits of neurofilaments. The incidence of Ta-51-positive neurons was significantly increased in
ALS
, WH and MSA, but not in X-BSNP. Ta-51-positive neurons showed a wide variety of morphological appearances, including neurons with normal appearance, central chromatolysis, simple atrophy and neurons containing massive neurofilamentous accumulation. In aged-control cases, similar Ta-51-positive neurons were observed, although to a much lesser extent. In
ALS
, spheroids and globules, which were strongly positive for Ta-51, were also significantly increased. Ta-51-positive motor neurons, spheroids and globules appeared in proportional to the number of remaining large motor neurons in
ALS
.
...
PMID:Phosphorylated high molecular weight neurofilament protein in lower motor neurons in amyotrophic lateral sclerosis and other neurodegenerative diseases involving ventral horn cells. 211 Oct 74
Amyotrophic lateral sclerosis
(
ALS
) and adult onset
X-linked recessive
bulbospinal muscular atrophy (SPMA), constituting the category of adult onset form of motor neuron disease, were analyzed on motor nerve roots. The results of morphometric analysis on ventral spinal roots (VSR) of all spinal segments from
ALS
and SPMA revealed the following three findings: (1) the large-myelinated alpha-motoneuron fibers were markedly decreased in number throughout all segments; (2) thin-myelinated autonomic preganglionic fibers were almost completely preserved; (3) small-intermediate-myelinated fibers which are considered to correspond to gamma-motoneuron fibers were generally well preserved in
ALS
, but decreased by one-half to one-third in SPMA. However, all the components of the nerve roots of the oculomotor, trochlear, and abducent nerves were completely preserved in both
ALS
and SPMA. Moreover, the teased-fiber study showed that the regenerating-sprouting process rarely occurred in the VSR of
ALS
and SPMA. The present study suggested that the site of the primary lesion seems to be in the alpha-motoneuron fibers in motor neuron diseases, such as
ALS
or SPMA. However, the marked discrepancy in the pathologic change in the alpha-motoneuron fibers in the VSR and the nerve roots innervating the external ocular muscles was noteworthy.
...
PMID:Spinal and cranial motor nerve roots in amyotrophic lateral sclerosis and X-linked recessive bulbospinal muscular atrophy: morphometric and teased-fiber study. 689 50
X-linked recessive
bulbospinal neuronopathy is a motoneuron disorder to be distinguished from
amyotrophic lateral sclerosis
, Effective treatment is not known. Patients with
X-linked recessive
bulbospinal neuronopathy may show gynecomastia and testicular atrophy, and a mutation in the androgen receptor gene has been found associated with the disease. Intermediate steps leading from the androgen receptor abnormality to the clinical syndrome have not yet been elucidated. Therefore, binding of androgen ([3H]dihydrotestosterone) to its specific receptor by genital skin fibroblasts cultured from a patient with
X-linked recessive
bulbospinal neuronopathy and confirmed androgen receptor mutation was studied. Markedly decreased binding capacity was found. We treated the patient for 6 months with nandrolone-decanoate. No effect on his neuromuscular status was observed during 2 years of follow-up.
...
PMID:Decrease in androgen binding and effect of androgen treatment in a case of X-linked bulbospinal neuronopathy. 789 19
The ventral horn cells of the fourth lumbar segment were morphometrically analysed in six cases of
amyotrophic lateral sclerosis
(
ALS
; there common forms and three pseudopolyneuritic forms), six of multiple system atrophy (MSA) with autonomic failure, four of
X-linked recessive
bulbospinal neuronopathy (X-BSNP), and seven age-matched autopsy cases of non-neurological disorders. In the common form of
ALS
, large and medium-sized neurons of the medial and lateral nuclei were markedly lost; small neurons in the intermediate zone were slightly diminished but fairly well preserved. In the pseudopolyneuritic form of
ALS
, marked loss was present in the large and medium-sized neurons, and in the small neurons located in the intermediate zone as well. In the MSA, in contrast to
ALS
, there was a marked reduction in small neurons in the intermediate zone, and large and medium-sized neurons of the medial and lateral nuclei tended to be preserved. In X-BSNP, large and medium-sized neurons were almost completely lost and small neurons were also markedly depopulated. These findings indicated that the pattern of neuron loss in the ventral horn is distinct among these diseases depending on size, location and function of the ventral horn cell population. These disease-specific patterns of neuron loss suggest a difference in the process of neuronal degeneration of ventral horn cells among the disease examined.
...
PMID:Disease-specific patterns of neuronal loss in the spinal ventral horn in amyotrophic lateral sclerosis, multiple system atrophy and X-linked recessive bulbospinal neuronopathy, with special reference to the loss of small neurons in the intermediate zone. 819 17
Two brothers with slowly progressive weakness and congenital nystagmus are presented. DNA analysis confirmed
X-linked recessive
bulbospinal muscular atrophy (XBSMA, Kennedy's disease) by demonstration of increased size of a CAG-triplet repeat on the androgen receptor gene on the X-chromosome. XBSMA is characterized by almost symmetrical muscular atrophy, weakness and fasciculations predominantly of bulbar, facial and proximal muscles of the extremities, with onset in the third to fifth decade. Tendon reflexes are depressed and pyramidal signs are absent. Sensory symptoms are clinically rare, but sensory nerve action potentials are frequently abnormal. Additional symptoms are important for differential diagnosis, and include postural tremor, gynecomastia, diabetes mellitus, testicular atrophy and impotence. Differentiation of this hereditary disorder from treatable conditions such as multifocal motor neuropathy or
amyotrophic lateral sclerosis
is essential. Though life expectancy is normal, patients become disabled in the course of the disease and need supportive care. Periodic testing for diabetes is recommended, and genetic counseling should be provided for patients and their relatives.
...
PMID:[X-chromosomal bulbospinal muscular atrophy (Kennedy syndrome)]. 964 48
The Kennedy-Syndrome is a
X-linked recessive
bulbospinal muscular atrophy, in some cases associated with endocrinological disturbances such as androgen resistance and diabetes mellitus. The age of onset is usually between 20 and 40. Presenting symptoms are proximal flaccid weakness, fasciculations, cramps or tremor. Disease progression is usually slow and live expectancy is normal. It is important to distinguish the Kennedy-Syndrome from
amyotrophic lateral sclerosis
, spinal muscular atrophy, muscular dystrophies and other types of motor neuron disease. Kennedy disease is caused by an expanded trinucleotide repeat in the androgen receptor gene. Genetic analysis allows a precise-diagnosis on an individual basis and reliable genetic counselling. An effective medical treatment does not yet exist.
...
PMID:[X-chromosomal recessive spinobulbar muscular atrophy (Kennedy type). Description of a family, clinical aspects, molecular genetics, differential diagnosis and therapy]. 975 16
Kennedy syndrome is a late-onset, bulbar-spinal type of muscular atrophy, with
X-linked recessive
inheritance. The characteristic features of the disease become prominent in the 4-5th decades: proximal muscle wasting and weakness, bulbar signs, fasciculations in skeletal muscles, subtle signs of endocrine dysfunction, such as gynaecomastia or testicular atrophy. The electrophysiological examinations are the keypoint to the diagnosis. Electroneurography shows normal conduction velocity in peripheral nerves, but the sensory nerves usually show axonal degeneration, which causes only very mild or subclinical neurological deficits. Electromyography shows chronic anterior horn cell degeneration in skeletal muscles. Molecular genetic diagnosis was introduced in 1991, when on abnormal expansion of CAG repeat was found in the first exon of the androgen receptor gene on chromosome X with a frequency of 100% in the affected population. Since the progression is very slow and these patients can expect a normal life span, it is essential to distinguish this syndrome from other, often more severe diseases, such as
ALS
. There is no proven therapy for Kennedy's disease yet. This is the first case of Kennedy's disease published in Hungary.
...
PMID:[Kennedy syndrome--bulbo-spinal muscular atrophy]. 1250 46
In the last nineteenth century, Japan produced two pioneers in the neurological field. Perhaps Prof. Hiroshi Kawahara's most monumental contribution was the first publication of the textbook of neurology in Japan. He first reported the two-brother cases of bulbar and spinal muscular atrophy of
X-linked recessive
trait Kinnosuke Miura, the professor of the University of Tokyo, described the endemic disease of the "kubisagari" (head-dropping). He published a paper of clinical and pathological study on
amyotrophic lateral sclerosis
. In 1902, Miura founded the "Japanese Society of Neurology" together with Shuzo Kure, the professor of Psychiatry of the University of Tokyo. This Society underwent a metamorphosis to an organization mainly composed of psychiatrists, because of a steady increase in membership of psychiatrists. In the mid-nineteenth century, neurological activities were restricted within the departments of internal medicine, psychiatry or neurosurgery. After the end of World War II, neurology came to receive recognition of the identity. In 1960, Seizo Katsunuma, the professor of Nagoya University, and Shigeo Okinaka, the professor of the University of Tokyo, started anew "the Japanese Society of Neurology", which was independent of the former Society founded in 1902. In this paper, the outlines of the history and development of the former and the present Japanese Societies of Neurology for these one hundred years are presented.
...
PMID:[The Japanese Society of Neurology. In commemoration of the 50th anniversary of the founding]. 2003 Jan 95
