UMLS:C0038454 - FACTA Search

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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We herein report a rare case of MELAS (mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes) and diabetes mellitus with ketoacidosis. An 18-year-old female patient was diagnosed to have diabetes mellitus and insulin therapy was thereafter initiated. At 26 years of age, she was hospitalized for diabetic ketoacidosis, soon followed by a loss of consciousness, left-sided dysmetria, and ataxic speech. MELAS was diagnosed because of the presence of ragged red fibers in a muscle biopsy. At 33 years of age, she was admitted to our hospital because of ketoacidosis and partial status epilepticus. A blood gas examination revealed as follows; arterial pH, 6.88; bicarbonate, 2.1 mmol/l; base excess - 29.8 mmol/l. The serum level of glucose had also increased to 30 mmol/l. The serum levels of lactate and B-hydroxybutyrate were elevated to 11.4 mmol/l and 1,990 micromol/l, respectively. Ketoacidosis improved by fluid replacement and continuous intravenous insulin infusion. A brain MRI demonstrated hyperintensity areas on FLAIR images in the bilateral temporal lobes and the cerebellum. A proton MRS demonstrated the abnormal lactate accumulation in the bilateral temporal and occipital lobes. Since epileptic seizures are rare in patients with diabetic ketoacidosis, such seizures may indicate the existence of MELAS syndrome.
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PMID:Ketoacidosis accompanied by epileptic seizures in a patient with diabetes mellitus and mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes (MELAS). 1111 21

This case report describes a follow up investigation of a patient with impaired word discrimination due to mitochondrial encephalopathy with lactic acidosis and stroke-like syndrome (MELAS) using proton magnetic resonance spectroscopy ((1)H MRS) and auditory evoked magnetic fields (AEFs). The initial (1)H MRS showed no N-acetyl aspartate (NAA) and marked accumulation of lactate (Lac) in the stroke-like lesion of MELAS, which was silent in neural activity according to AEFs. The follow up investigations, however, demonstrated that NAA reappeared, that the formerly increased Lac signal was significantly reduced, and that the magnitude of AEFs of the lesion was markedly increased. Metabolic and functional changes in (1)H MRS and AEFs reflected the neurological recovery very well. The stroke-like lesion was shown, using AEFs and (1)H MRS, to be able to function properly, although brain tissue of the lesion initially had severe damage due to mitochondrial dysfunction.
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PMID:Reversible brain dysfunction in MELAS: MEG, and (1)H MRS analysis. 1130 65

This study was done to determine the independent predictors of long-term survival and long-term functional outcome in geriatric stroke patients with a high level of co-morbidity. We prospectively recruited 302 consecutive patients transferred from local hospitals of acute care to inpatient geriatric rehabilitation with a median of 23 days after stroke. The cohort with a mean age of 75.1 (range 60-90) years was followed up for 2 years after discharge from rehabilitation. The 24 month survival rate was 71.2%. Urinary continence (p = 0.000), younger age (p = 0.000), and absence of coronary artery disease (CAD) (p = 0.039) were predictors of survival. Independence in activities of daily living (Barthel Index (BI) > or = 85) 24 months after discharge was 43.2% and predicted by an admission BI > or = 50 (p = 0.000), urinary continence (p = 0.007), and absence of CAD (p = 0.018). Good functional outcome by the Modified Rankin Scale (MRS < or = 3) 24 months after discharge was 38.4%. It was predicted by absence of CAD (p = 0.001), first-ever stroke (p = 0.014), admission BI > or = 50 (p = 0.024), urinary continence (p = 0.025), mild motor paresis (p = 0.032), and good sitting balance (p = 0.039). Our study of a relatively aged and co-morbid stroke cohort confirmed most of the well-known predictors of outcome. A new result is that CAD also seems to be an important determinant of long-term outcome.
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PMID:Predictors of favorable outcome in elderly stroke patients two years after discharge from geriatric rehabilitation. 1171 2

Changes in metabolites detected by proton magnetic resonance spectroscopy ((1)H MRS) of the brain have been demonstrated in Alzheimer's disease. Our objectives were, first, longitudinally to measure absolute concentrations of metabolites in both hippocampi, the sites of early Alzheimer's disease, in patients with clinical Alzheimer's disease and controls; secondly, to separate the relative contribution of atrophy and metabolite concentration change to overall signal change; and, thirdly, to determine whether metabolite concentrations in the hippocampus relate to cognitive scores. (1)H MR spectra were acquired from a single voxel (12 x 15 x 25 mm(3) = 4.5 ml) aligned to the long axis of each hippocampus in nine probable or possible Alzheimer's disease subjects diagnosed according to the National Institute of Neurologic and Cognitive Disorders and Stroke (NINCDS) compared with 14 age-matched NINCDS-negative Alzheimer's disease controls. Metabolite concentrations were corrected for the amount of CSF present in the voxel. Hippocampal volumes were measured at the same time. The same protocol was repeated approximately 1 year later. We found that atrophy-corrected hippocampal N-acetylaspartate (NAA) concentration was lower in cognitively impaired subjects compared with controls. This was significant for the left hippocampus (baseline 87% of control, P = 0.013; and at 1 year 76% of control, P = 0.020). Hippocampal volumes also differed significantly between the groups, and decreased significantly over 1 year in the Alzheimer's disease group (12%, P = 0.017). The decrease in [NAA] over 1 year was not significant in either group. Discriminant analysis revealed that the best classification of subjects was by including both left NAA concentration and left hippocampal volume. myo-Inositol signals from these small voxels had poor signal-to-noise and demonstrated no significant changes. We conclude that (1)HMRS-detectable metabolites can be quantified from the hippocampi of cognitively impaired individuals, and that hippocampal [NAA] is significantly reduced in Alzheimer's disease, in excess of atrophy. In our cohort, the differences were more significant for the left hippocampus.
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PMID:Longitudinal quantitative proton magnetic resonance spectroscopy of the hippocampus in Alzheimer's disease. 1224 89

Previous nonhuman primate stroke models have employed temporary occlusion of arteries, had limited behavioral testing and imaging, and focused on the short-term outcome. Our goals were 1. to develop a stable model of chronic stroke in the nonhuman primate, 2. to study in vivo the long-term biochemical changes in the area adjacent to the infarct, using proton magnetic resonance spectroscopy (H MRS), and 3. evaluate these changes in relation to the histopathological effects of stroke. Four adult cynomologous monkeys had an occlusion of the M1 segment of the right MCA. Behavioral tests included a clinical rating scale, motor planning task, fine motor task, and activity monitoring. Eight months afterwards, MRI and 1H MRS were performed. Following the imaging studies the monkeys were perfused transcardially, their brains extracted and processed. Nissl staining and immunohistochemistry for neuronal markers (NeuN) were performed and used to measure the lesion volume and neuronal optical density (OD). All animals developed a left hemiparesis and were unable to perform a fine motor task with the left hand. There was a significant (31%) decline in the motor planning ability with the nonparetic extremity. Monkeys displayed a stooped posture, episodes of rotation to the side of the lesion, partial left hemianopsia, and transient changes in activity. The clinical signs improved over the first 6-8 weeks but the deficits remained stable for the remaining six months of follow up. MRI demonstrated a subcortical and cortical infarction in the right MCA distribution. 1H MRS data detected a significant decrease in the N-acetyl-aspartate (NAA)/creatine (Cr) ratio in the area adjacent to the infarction (VOl-St) compared to a mirror area in the contralateral hemisphere (VOl-Co). Histopathological measurements revealed a significant decline in neuronal cross-sectional area and neuronal optical density in the region of the VOl-St. We established a stable and reproducible model of chronic stroke in the MCA distribution, in the macaque monkey. Our data indicate that NAA detected by 1H MRS can be used to measure neuronal loss in vivo and help target this area for intervention. Our model may be particularly suitable for studies testing the effects of therapeutic strategies involving neural or stem cell transplantation, trophic factors or gene therapy.
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PMID:Chronic ischemic stroke model in cynomolgus monkeys: behavioral, neuroimaging and anatomical study. 1256 29

A(3) Adenosine receptors (ARs) exhibit large species differences. Potent, selective agonists for rat (e.g. Cl-IB-MECA, 5) and human A(3) ARs (e.g. PENECA, 17, and analogs) have been developed during the past years. Potent, selective antagonists for human A(3) ARs include the imidazopurinones PSB-10 (28) and PSB-11 (29), the pyrazolotriazolopyrimidines MRE-3005F20 (38) and analogs, and the dihydropyridines (e.g. MRS-1334, 50). For rat A(3) ARs only moderately potent antagonists have been identified, such as the pyridine derivative MRS-1523 (51) and the flavonoid MRS-1067 (52), both of which exhibit only a low degree of selectivity versus the other AR subtypes. Selective antagonist radioligands for the human A(3) receptor, [(3)H]MRE-3008F20 and [(3)H]PSB-11, have been prepared, while A(3)-selective agonist radioligands are still lacking. Recent developments also include allosteric modulators, irreversibly binding antagonists, fluorescence-labelled agonists, partial agonists and inverse agonists for A(3)ARs. Site-directed mutagenesis and molecular modeling studies have been performed in order to obtain information about the ligand binding site and the process of receptor activation. A(3)Adenosine receptors have recently attracted considerable interest as novel drug targets. A(3) Agonists may have potential as cardioprotective and cerebroprotective agents, for the treatment of asthma, as antiinflammatory and immunosuppressive agents, and in cancer therapy as cytostatics and chemoprotective compounds. A(3) AR antagonists might be therapeutically useful for the acute treatment of stroke, for glaucoma, and also as antiasthmatic and antiallergic drugs, since A(3)receptors cannot only mediate antiinflammatory, but also proinflammatory responses. The future development of further pharmacological tools, including potent, selective antagonists for rat A(3) receptors and selective agonist radioligands for rat and human receptors will facilitate the evaluation of the (patho)physiological roles of A(3) receptors and the pharmacological potential of their ligands.
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PMID:Medicinal chemistry of adenosine A3 receptor ligands. 1257 Jul 61

Using different models of focal cerebral ischemia, the temporal and spatial rules of metabolism and energy changes in the post-ischemia brain tissue were measured by proton magnetic resonance spectroscopy (1HMRS) to provide valuable information for judging the prognosis of acute focal cerebral ischemia and carrying out effective therapy. Nine healthy Sprague-Dawly rats (both sexes) were randomly divided into two groups: The rats in the group A (n = 4) were occluded with self-thrombus for 1 h; The rats in the group B (n = 5) were occluded with thread-emboli for 1 h. The 1H MRS at 30, 40, 50, 60 min respectively was examined and the metabolic changes of NAA, Cho and Lac in the regions of interest were semiquantitatively analyzed. The spectrum integral calculus area ratio of NAA, Cho, Lac to Pcr + Cr was set as the criterion. The values of NAA.Cho in the regions of interest were declined gradually within 1 h after ischemia, especially, the ratio of Cho/(Pcr + Cr), NAA/(Pcr + Cr) at 60 min had significant difference with that at 50 min (P < 0.05). The ratio of Lac/(Pcr + Cr) began to decrease at 40 min from initial increase of Lac in both A and B groups. MR proton spectrum analysis was a non-invasive, direct and comprehensive tool for the study of cellular metabolism and the status of the biochemical energy in acute ischemia stroke.
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PMID:An experimental proton magnetic resonance spectroscopy analysis on early stage of acute focal cerebral ischemia. 1267 80

In a 13-month-old boy with recurrent motor deterioration provoked by fever MRI and proton MRS detected a leukoencephalopathy with reduced cerebral metabolites and elevated lactate. At follow-up 6 and 16 months later these abnormalities improved gradually. Serial diffusion tensor imaging revealed a stroke-like pattern with an initial strong reduction of the apparent diffusion coefficient followed by elevated values 6 months later. The relative diffusion anisotropy remained reduced. Muscle biopsy confirmed a mitochondrial encephalomyopathy.
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PMID:Stroke-like pattern in DTI and MRS of childhood mitochondrial leukoencephalopathy. 1503 98

The pathophysiological basis of cognitive impairment in patients with cerebrovascular disease (CVD) is not well understood, particularly in relation to the role of non-infarction ischemic change and associated Alzheimer-type pathology. We used single voxel 1H MRS to determine the differences in brain neurometabolites in non-infarcted frontal white matter and occipito-parietal gray matter of 48 stroke patients with or without cognitive impairment and 60 elderly controls. The results showed that there were no significant neurometabolite differences between the stroke cohort and healthy elderly controls, but there was a difference in NAA/H2O between the stroke patients that had cognitive impairment (vascular dementia (VaD) and vascular cognitive impairment (VCI)) compared with those patients with no impairment. This was significant in the occipito-parietal gray matter, but not in the frontal white matter, although the results were in the same direction for the latter. This suggests that cognitive impairment in stroke patients may be related to cortical neuronal dysfunction rather than purely subcortical change. Moreover, cortical regions not obviously infarcted may have dysfunctional neurons, the pathophysiological basis for which needs further study.
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PMID:1H MRS in stroke patients with and without cognitive impairment. 1571 46

Although stem cell-based treatments for stroke and other neurodegenerative diseases have advanced rapidly, there are still few clinical treatments available. In this study, rats receiving intracerebral peripheral blood hematopoietic stem cell (CD34+) (PBSC) transplantation showed much more improvement in neurological function after chronic cerebral ischemia in comparison with vehicle-treated control rats. Using laser-scanning confocal microscopy, implanted PBSCs were seen to differentiate into glial cells [GFAP+ (glial fibrillary acidic protein-positive)], neurons [Nestin+, MAP-2+ (microtubule-associated protein 2-positive), Neu-N+ (neuronal nuclear antigen-positive)], and vascular endothelial cells [vWF+ (von Willebrand factor-positive)], thereby enhancing neuroplastic effects in the ischemic brain. Cortical neuronal activity, as evaluated by 1H-MRS (proton magnetic resonance spectroscopy), also increased considerably in PBSC-treated rats compared with a vehicle-treated control group. In addition, PBSC implantation promoted the formation of new vessels, thereby increasing the local cortical blood flow in the ischemic hemisphere. These observations may be explained by the involvement of stem cell-derived macrophage/microglial cells, and beta1 integrin expression, which might enhance this angiogenic architecture over the ischemic brain. Furthermore, quantitative reverse transcription-PCR analysis showed significantly increased modulation of neurotrophic factor expression in the ischemic hemisphere of the PBSC-transplanted rats compared with vehicle-treated control rats. Thus, intracerebral PBSC transplantation might have potential as a therapeutic strategy for treating cerebrovascular diseases.
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PMID:Intracerebral peripheral blood stem cell (CD34+) implantation induces neuroplasticity by enhancing beta1 integrin-mediated angiogenesis in chronic stroke rats. 1657 51

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