The role of radionuclide brain imaging and computerized tomography in the early diagnosis of herpes simplex encephalitis
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Transfer coefficient defined as the ratio of radionuclide concentration in crops to that in soil is a key parameter to assess the concentration of the nuclide in crops in the fields. This coefficient fluctuates by several factors such as plant species, kinds of radionuclides, properties of soils and conditions of plant husbandary. In order to estimate the variations specifically by plant species and kinds of radionuclides, transfer rates of some radionuclides from culture solution to the edible parts were measured on crops such as rice plant, spinach, soybean, cucumber, eggplant and radish.Results obtained are summarized below;1) The orders of transfer rates are 65Zn>54Mn>137Cs-60Co>85Sr>131I.2) Differences of transfer rates are 2 to 3 orders of magunitude among crops and/or radionuclides.
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Neuroimaging should be performed on infants with seizure. However, there are economic limitations in performing neuroimaging in a resource-limited setting. The younger the age, the higher the risk of having abnormal neuroimaging. The aim was to determine frequency and predictors of abnormal neuroimaging in children with epilepsy aged 1 month to 2 years. History, physical examination, electroencephalogram (EEG), and neuroimaging were reviewed. Thirty-seven of 49 (76%) had neuroimaging studies; 19 computed tomography (CT), 14 magnetic resonance imaging (MRI), and 4 had both. Abnormal neuroimaging was found in 19 (51%). Predictors of abnormal neuroimages are developmental delay, abnormal head circumference, and abnormal neurologic examination. Eight children (21%) had lesions on neuroimaging studies that altered or influenced management. Of 8 patients with normal examination and EEG, 1 had a brain tumor and another had arteriovenous malformation. Neuroimaging should be considered as an essential aid in the evaluation of infants with epilepsy, even in a resource-limited setting.
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OBJECTIVES: We assessed the adherence to neuroimaging guidelines and the diagnostically relevant yield of neuroimaging in newly presenting early life epilepsy (ELE). METHODS: There were 775 children with a new diagnosis of epilepsy (<3 years old at onset) who were recruited through the ELE study at 17 US pediatric epilepsy centers (2012–2015) and managed prospectively for 1 year. The data were analyzed to assess the proportion of children who underwent neuroimaging, the type of neuroimaging, and abnormalities. RESULTS: Of 725 children (93.5%) with neuroimaging, 714 had an MRI (87% with seizure protocols) and 11 had computed tomography or ultrasound only. Etiologically relevant abnormalities were present in 290 individuals (40%) and included: an acquired injury in 97 (13.4%), malformations of cortical development in 56 (7.7%), and other diffuse disorders of brain development in 51 (7.0%). Neuroimaging was abnormal in 160 of 262 (61%) children with abnormal development at diagnosis versus 113 of 463 (24%) children with typical development. Neuroimaging abnormalities were most common in association with focal seizure semiology (40%), spasms (47%), or unclear semiology (42%). In children without spasms or focal semiology with typical development, 29 of 185 (16%) had imaging abnormalities. Pathogenic genetic variants were identified in 53 of 121 (44%) children with abnormal neuroimaging in whom genetic testing was performed. CONCLUSIONS: Structural abnormalities occur commonly in ELE, and adherence to neuroimaging guidelines is high at US pediatric epilepsy centers. These data support the universal adoption of imaging guidelines because the yield is substantially high, even in the lowest risk group.
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Sacred (or protected) values (SVs) constitute core beliefs that define primary reference groups. There is significant research on SVs at a behavioral level, but their neural underpinnings are just beginning to be discovered. In this paper, we highlight the current state of neuroimaging research concerning SVs. Given that SVs are considered to be strongly motivated by moral principles, we first provide an outline of the neural circuits that have been found to be involved in moral cognition. We then review various neuroimaging studies that have explored the notion of SVs. Specifically, we concentrate on neuroimaging studies dealing with intergroup bias and those that focus on social norms, since these are two basic dimensions of SVs that have been studied with neuroimaging techniques. Finally, we review two studies that have directly addressed SVs with neuroimaging techniques, and we offer suggestions for further avenues of study.
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Both genetics and neuroimaging have developed rapidly in the past few years. Recently the two methods have been combined in a new technique called genetic neuroimaging.To provide an overview of the backgrounds and the possibilities of genetic neuroimaging.In this review we first discuss genetic and neuroimaging research methods that are currently in use and then discuss their synergistic combination. Finally we analyse two recent cases in which genetic neuroimaging was used to study an individual's vulnerability to affective and psychotic symptoms. results Results are very promising, particularly with regard to research into vulnerability to psychiatric disorders. It is expected that the use of genetic neuroimaging procedures will increase. Genetic and neuroimaging methods are often exceedingly complex, which means they cannot be easily accessed by the general public.Genetic neuroimaging is an important method to study the relation between candidate genes and variations in cognitive and emotional functioning and the vulnerability to psychiatric disorders.
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Imaging genetics
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