Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P50583 (
asymmetrical
)
12,197
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We describe a patient with Huntington's disease (HD) who showed
asymmetrical
upper limb amyotrophy as a main manifestation.
Chorea
and psychiatric symptoms were not prominent. Electromyography revealed generalized active and chronic denervation and fasciculations. A genetic test showed 46 CAG repeats in the huntingtin gene. Asymmetrical amyotrophy restricted to the upper limb has been reported in some patients with progressive chorea and amyotrophy without acanthocytosis, but genetically proven cases of HD have rarely been reported. It is not known why only a few HD patients show the motor neuronal loss; however, certain as-yet-unidentified genetic factors combined with some environment factors and the underlying cellular dysfunctions by polyglutamine aggregation could be responsible for the motor neuronal loss similar to that in amyotrophic lateral sclerosis.
...
PMID:Genetically confirmed Huntington's disease masquerading as motor neuron disease. 1818 18
Bipedal locomotion and fine motility of hand and larynx of humans introduced musculoskeletal adaptations, new pyramidal, corticostriatal, corticobulbar, nigrostriatal, and cerebellar pathways and expansions of prefrontal, cingular, parieto-temporal and occipital cortices with derived new brain capabilities. All selectively degenerate in aged homo sapiens following 16 syndromic presentations: (1) Parkinsonism: nigrostriatal control for fast automatic movements of hand, larynx, bipedal posture and gait ("simian gait and hand"). (2) Frontal (highest level) gait disorders (lower body parkinsonism, gait apraxia, retropulsion): prefrontostriatal executive control of bipedal locomotion. (3) ataxia: new synergistic coordination of bipedal gait and fine motility. (4) Dyskinesias (
chorea
, dystonia, tremor...): intrusions of simian basal ganglia motor subroutines. (5) motoneuron diseases: new proximo-distal and bulbar motoneurones, preserving older ones (oculomotor, abdominal...). (6) Archaic reflexes: prefrontal disinhibition of old mother/tree-climbing-oriented reflexes (sucking, grasping, Babinski/triple retraction, gegenhalten), group alarms (laughter, crying, yawning, grunting...) or grooming (tremor=scratching). (7) Dysautonomia: contextual regulation (orthostatism...). (8) REM sleep disorders of new cortical functions. (9) Corticobasal syndrome: melokinetic control of hand prehension-manipulation and language (retrocession to simian patterns). (10) Frontal/temporal lobe degeneration: medial-orbitofrontal behavioural variant: self monitoring of internal needs and social context: apathy, loss of personal hygiene, stereotypia, disinhibition, loss of concern for consequences of acts, social rules, danger and empathy; dorsolateral executive variant: inadequacy to the context of action (goal, environmental changes...); progressive non-fluent aphasia: executive and praxic processing of speech; temporal variant: abstract concepts for speech, gestures and vision (semantic dementia, progressive nonfluent aphasia) (11) Temporomesial-limbic-paralimbic-associative cortical dementias (Alzheimer's disease, Lewy body, progressive amnesia): processing of explicit cognition: amnesic syndrome, processing of hand, larynx and eye: disorientation, ideomotor apraxia, agnosia, visuospatial processing, transcortical aphasia. (12) Focal posterior atrophy (Benson, progressive apraxia): visuomotor processing of what and where. (13) Macular degeneration: retinal "spot" for explicit symbols. (14) "Psychiatric syndromes": metacognition, self monitoring and regulation of hierarchical processing of metacognition: hallucinations, delusions, magic and mystic logic, delusions, confabulations; drive: impulsivity, obsessive-compulsive disorders, mental automatisms; social interactions: theory of mind, autism, Asperger. (15) Mood disorders: control on emotions: anxio-depressive and bipolar disorders, moria, emotional lability. (16) Musculoskeletal: inclusion body myositis: muscles for bipedal gait and fine motility. Paget's disease: bones for bipedal gait and cranium. Understanding of the genetic mechanisms underlying the evolution of these recent human brain regions and paleoneurology my be the key to the focal,
asymmetrical
or systemic character of neurodegeneration, the pathologic heterogeneity/overlap of syndromic presentations associating gait, hand, language, cognition, mood and behaviour disorders.
...
PMID:Paleoneurology: neurodegenerative diseases are age-related diseases of specific brain regions recently developed by Homo sapiens. 1870 90
We report on a 12-year-old patient from Congo who presented acute chorea following cardiac surgery for poststreptococcal mitral valvulopathy. She showed severe and
asymmetrical
chorea
, associated with motor impersistence and agitation. Biological investigations disclosed inflammatory signs and brain MRI was normal. Due to the negative results of the biological and morphological investigations, the diagnosis of Sydenham
chorea
was suspected. High doses of oral steroids resulted in a dramatic improvement of the
chorea
as well as the behavior disturbance within 1 month. Sydenham
chorea
is not an unusual complication of rheumatic fever. Usually, patients develop
chorea
a few weeks after beta-hemolytic streptococcal pharyngitis. Details on its pathophysiology remain to be determined. Our case highlights its possible onset in the postoperative period if alternative etiologies of infantile
chorea
have been excluded.
...
PMID:[Acute poststreptoccocal chorea: an atypical postoperative reaction following cardiac surgery for mitral valvulopathy]. 1957 9
Chorea
is an involuntary movement disorder characterized by irregular, brief movements that flow from one body part to another in a non-stereotyped fashion. In rare instances,
chorea
is associated with autoimmune thyroid disease. Most of them have been related with Hashimoto's encephalopathy and few cases have been related with Graves' disease. Most reported cases have been in women with Graves' disease. We describe a 16-year-old male patient with asymmetric
chorea
as presenting symptom in Graves' disease. He had no family history of neurological disease. Brain imaging, laboratory findings and electroencephalogram demonstrated no abnormality except for thyroid dysfunction which was proved by thyroid function test, sonography and radioiodine uptake scan. Asymmetric
chorea
improved over months after anti-thyroid medications. This asymmetry could be explained by difference in increased hypersensitivity or by the difference in the number of dopamine receptors, and an
asymmetrical
breakdown of blood-brain barrier due to their genetic differences.
...
PMID:Asymmetric chorea as presenting symptom in Graves' disease. 2179 31
We observed characteristic involuntary movements in premature babies during early infancy. These movements consisted of
asymmetrical
irregular banging of the extremities, similar to
chorea
, ballisms, or jitteriness. We investigated the clinical characteristics and neuroimaging findings of the patients with these peculiar involuntary movements to clarify their pathophysiological mechanisms and to find a treatment. In our sequential follow-up study on 90 premature infants with various pre-and perinatal brain insults, we found various types of cerebellar injuries in 28 patients. In 19 of these, the prominent injuries were observed in the inferior cerebellar hemispheres. These cerebellar injuries were often observed in patients born before the gestational age of 27 weeks. Fourteen of the 28 patients with cerebellar injuries displayed the above-mentioned characteristic involuntary movements. Twelve of these 14 patients with both cerebellar injury and involuntary movements were born before the gestational age of 27 weeks. On the contrary, 10 patients with cerebellar injury born after the gestational age of 27 weeks did not display these peculiar involuntary movements. It is noteworthy that cerebral injuries were not associated with the occurrence of these involuntary movements. Two patients with
asymmetrical
cerebellar deformity caused by compression due to a cystic lesion did not show these involuntary movements. The movements appeared around the corrected age of 3 months, and they disturbed the patients' acquisition of sitting ability. Nine patients with these involuntary movements developed severe athetotic cerebral palsy. These movements showed drug resistance, however, benzodiazepines had a partial effect in some patients. Recently, cerebellar injury in premature infants has received a lot of attention. We believe that the peculiar involuntary movements we observed in the present patient group may be caused by a particular type of cerebellar damage specific to premature infants born before 27 weeks of gestational age.
...
PMID:[Peculiar involuntary movements in premature babies with specific cerebellar injuries]. 2271 28
SLE (systemic lupus erythematosus) is a multisystem autoimmune disorder of unknown aetiology which can present with myriad clinical presentation. The neurological manifestations of SLE consist of central nervous system (CNS) and peripheral nervous system manifestations (PNS). The CNS manifestations are aseptic meningitis, cerebrovascular accidents (stroke), demyelinating disorders, headache, involuntary movements like
chorea
, myelopathy, acute confusional states, cognitive dysfunction, mood disorder, seizures, psychosis and cranial nerve palsies.1 The PNS manifestations are Guillain Barre syndrome (GBS), autonomic disorder, mononeuropathy, polyneuropathy and plexopathy.1 Neuropathy in SLE can be clinically classified as mononeuritis multiplex and symmetrical and
asymmetrical
polyneuropathy. Symmetrical polyneuropathy being the most commonly seen clinical entity amongst the neuropathies in SLE. The neuropathy can be slowly progressive or acute in onset. Electrophysiologically, neuropathy is classified as axonal neuropathy, small fibre neuropathy, demyelinating neuropathy, mixed axonal-demyelinating sensorimotor polyneuropathy and plexopathy. Axonal neuropathy is further divided into sensory, sensorimotor and mononeuritis multiplex. Demyelinating neuropathy can be of two types: acute inflammatory demyelinating polyneuropathy (AIDP) and sensory demyelinating polyneuropathy. Anecdotal case reports also suggest that CIDP can occur as part of SLE neuropathy.2.
...
PMID:SLE Neuropathy-Anything New? 2766 98
