98 research outputs found

    Modeling genetic epilepsies in a dish

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    Human pluripotent stem cells (hPSCs), including embryonic and induced pluripotent stem cells, provide a powerful platform for mechanistic studies of disorders of neurodevelopment and neural networks. hPSC models of autism, epilepsy, and other neurological disorders are also advancing the path toward designing and testing precision therapies. The field is evolving rapidly with the addition of genome‐editing approaches, expanding protocols for the two‐dimensional (2D) differentiation of different neuronal subtypes, and three‐dimensional (3D) human brain organoid cultures. However, the application of these techniques to study complex neurological disorders, including the epilepsies, remains a challenge. Here, we review previous work using both 2D and 3D hPSC models of genetic epilepsies, as well as recent advances in the field. We also describe new strategies for applying these technologies to disease modeling of genetic epilepsies, and discuss current challenges and future directions.Key FindingsZebrafish post‐embryonic intestinal development is slow during the first two weeks due to proliferation pattern.Transformation to the juvenile intestine is preceded by increased proliferation and changes in mitotic pattern.cells integrate between proliferating fold base epithelial cells and may regulate proliferation.Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/153080/1/dvdy79.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/153080/2/dvdy79_am.pd

    Metabolically Favorable Remodeling of Human Adipose Tissue by Human Adenovirus Type 36

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    OBJECTIVE—Experimental infection of rats with human adenovirus type 36 (Ad-36) promotes adipogenesis and improves insulin sensitivity in a manner reminiscent of the pharmacologic effect of thiozolinediones. To exploit the potential of the viral proteins as a therapeutic target for treating insulin resistance, this study investigated the ability of Ad-36 to induce metabolically favorable changes in human adipose tissue

    The dynamics of human body weight change

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    An imbalance between energy intake and energy expenditure will lead to a change in body weight (mass) and body composition (fat and lean masses). A quantitative understanding of the processes involved, which currently remains lacking, will be useful in determining the etiology and treatment of obesity and other conditions resulting from prolonged energy imbalance. Here, we show that the long-term dynamics of human weight change can be captured by a mathematical model of the macronutrient flux balances and all previous models are special cases of this model. We show that the generic dynamical behavior of body composition for a clamped diet can be divided into two classes. In the first class, the body composition and mass are determined uniquely. In the second class, the body composition can exist at an infinite number of possible states. Surprisingly, perturbations of dietary energy intake or energy expenditure can give identical responses in both model classes and existing data are insufficient to distinguish between these two possibilities. However, this distinction is important for the efficacy of clinical interventions that alter body composition and mass

    Sting to the heart – Acute pulmonary edema following hymenoptera sting

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    Hymenoptera stings have been reported earlier to cause mild local reactions to severe systemic reactions such as anaphylactic shock. Myocardial infarction following insect stings has been widely described. In this case, we describe a 64-year-old male patient who presented with pulmonary edema 4 h after the initial insult followed by a new onset myocardial infarction which was considered to be a variant of Kounis syndrome. The patient was managed in intensive care with diuretics, positive pressure ventilation, and glucocorticoids and made a complete recovery

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