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Query: UMLS:C0240066 (
iron deficiency
)
7,156
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The Restless Legs Syndrome (RLS) is a heterogeneous disease. Symptomatic or secondary forms encompass
iron deficiency
, uremia, pregnancy, polyneuropathy, and other causes. The so-called idiopathic RLS syndrome preferentially affects patients with a younger onset before the age of 30. Here we summarize pathophysiological results along the anatomical route, beginning at the cortex and followed by the basal ganglia, thalamus, A11 neurones, substantia nigra, brainstem nuclei, and spinal cord. Genetic risk variants for RLS have recently been identified in two genes, one of them the homeobox gene MEIS1, known to be involved in embryonic development and variants in a second locus containing the genes encoding mitogen-activated protein kinase MAP2K5, and the transcription factor
LBXCOR1
. A third one, the BTBD9 gene with unknown function encodes a BTB(POZ) domain. Accordingly, new concepts on pathophysiology have to bridge conventional knowledge with possible consequences deriving from these findings. Furthermore, this may create a framework to help understand why dopamine, opioid, and some anticonvulsant therapies are effective in RLS patients.
...
PMID:Update of the pathophysiology of the restless-legs-syndrome. 1808 Nov 64
Restless legs syndrome (RLS) is a sensorimotor disorder that is frequently associated with periodic leg movements (PLMS). RLS is generally considered to be a central nervous system (CNS)-related disorder although no specific lesion has been found to be associated with the syndrome. Reduced intracortical inhibition has been demonstrated in RLS by transcranial magnetic stimulation. Some MRI studies have revealed the presence of morphologic changes in the somatosensory cortex, motor cortex and thalamic gray matter. The results of SPECT and PET studies showed that the limbic and opioid systems also play important roles in the pathophysiology of RLS. A functional MRI study revealed abnormal bilateral cerebellar and thalamic activation during the manifestation of sensory symptoms, with additional red nucleus and reticular formation activity during PLMS. PLMS is likely to occur in patients with spinal cord lesions, and some patients with sensory polyneuropathy may exhibit RLS symptoms. RLS symptoms seem to depend on abnormal spinal sensorimotor integration at the spinal cord level and abnormal central somatosensory processing. PLMS appears to depend on increased excitability of the spinal cord and a decreased supraspinal inhibitory mechanism from the All diencephalic dopaminergic system. RLS symptoms respond very dramatically to dopaminergic therapy. The results of analysis by PET and SPECT studies of striatal D2 receptor binding in humans are inconclusive. However, studies in animal models suggest that the participation of the All dopaminergic system and the D3 receptor in RLS symptoms. The symptoms of RLS are aggravated in those with
iron deficiency
, and iron treatment ameliorates the symptoms in some patients. Neuroimaging studies, analysis of the cerebrospinal fluid, and studies on postmortem tissue and use of animal models have indicated that low brain iron concentrations and dysfunction of iron metabolism and intracellular iron may play key roles in the pathogenesis of RLS. The "iron-dopamine model" explains that
iron deficiency
in the brain causes an abnormality in the dopaminergic system leading to manifestation of RLS. Genetic factors are also important in the development of RLS. A positive family history for RLS has been reported by 40% to 60% of RLS patients. Five loci (RLS 1: 12q, RLS 2: 14q, RLS 3: 9p, RLS 4: 2q, RLS 5: 20p) have been described. Genome-wide association studies have identified variants within the intronic or intergenetic regions of MEIS1 (2p),
LBXCOR1
/MAP2K5 (15q), BTBD9 (6p), neuronal nitric oxide synthase (NOS1) (12q) and protein tyrosine phosphatase receptor type delta (9p) genes. In conclusion, disturbances in the central dopaminergic system, disturbances in iron metabolism, and genetics seem to be the primary factors in the pathophysiology of RLS.
...
PMID:[Pathophysiology of restless legs syndrome]. 1951 12
