Nirali Patel
University of Illinois at Chicago
7 Papers
Nirali Patel is an academic researcher from University of Illinois at Chicago. The author has contributed to research in topics: Medicine & Internal medicine. The author has an hindex of 1, co-authored 1 publications.
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Papers
Heparin impairs skeletal muscle glucose uptake by inhibiting insulin binding to insulin receptor
Canjun Zhu,Zhiyue Xu,Yexian Yuan,Tao Wang,Chang Xu,Cong Yin,Peipei Xie,Pingwen Xu,Hui Ye,Nirali Patel,Sarah Schaul,Lina Wang,Xiaotong Zhu,Songbo Wang,Ping Gao,Qianyun Xi,Yongliang Zhang,Gang Shu,Qingyan Jiang +18 more
- 05 May 2021
TL;DR: A novel role of heparin in glucose homeostasis is elucidated, suggesting an approach for developing heparIn‐targeted therapies for diabetes.
5
1313-P: Short-Chain Fatty Acids Decrease Food Intake through Free Fatty Acid Receptors in the Brain
Pei Luo,Pingwen Xu,Bing Feng,Hui Ye,Nirali Patel,Brian Hayden,Yanlin He,Maya Kota,Devin Dixit,Nimisha Antony,Leslie Carrillo‐Saenz,Valeria C. Torres Irizarry,Lucas Ibrahimi,Sarah Schaul +13 more
TL;DR: A model that SCFAs inhibit food intake through FFA3 expressed by the cerebellar granule neurons is suggested, suggesting a mediating role of brain FFA2/3.
1
An intracerebral sporadic mixed cavernous angioma: An extremely rare entity with review of literature
Shirish S Chandanwale,Ruchi Randive,R. Rashmi,Rajeshwari Ravishankar,Shraddha Ramadhar Yadav,Nirali Patel +5 more
TL;DR: The case of an 18-year-old boy who presented with a history of seizures for 3 years is reported, due to the heterogeneity of this entity and ongoing debate about ontogenesis, diagnosis and management.
151-OR: 27-Hydroxycholesterol Inhibits Food Intake through ERa-Mediated Activation of POMC Neurons
Hui Ye,Bing Feng,Pei Luo,Lucas Ibrahimi,Nirali Patel,Maya Kota,Devin Dixit,Yanlin He,Pingwen Xu,Nimisha Antony,Leslie Carrillo‐Saenz,V. T. Irizarry,Sarah Schaul +12 more
TL;DR: Results support a model that 27HC acutely inhibits food intake by acting on ERα to stimulate POMCARH neuronal activity, which may serve as a critical defending mechanism against high-fat diet-induced obesity.
1390-P: FOXO1 Promotes Sexually Dimorphic Effects on Energy Balance in the Preoptic Anterior Hypothalamus
Pei Luo,V. T. Irizarry,Hui-Chu Ye,Lucas Ibrahimi,Sarah Schaul,Nirali Patel,Leslie Carrillo‐Saenz,Nimisha Antony,Devin Dixit,Maya Kota,Terry G. Unterman,Pingwen Xu +11 more
TL;DR: It is found that FoxO1 specific deletion in the POAH neurons (FoxO1POAH-KO) prevented high fat diet-induced obesity (DIO) in female but not male mice, indicating that FoxW1 is a crucial transcription factor that directs and coordinates control of energy balance, thermogenesis, and glucose homeostasis in female mice.