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For: Elson AE, Simerly RB. Developmental specification of metabolic circuitry. Front Neuroendocrinol 2015;39:38-51. [PMID: 26407637 DOI: 10.1016/j.yfrne.2015.09.003] [Cited by in Crossref: 12] [Cited by in F6Publishing: 9] [Article Influence: 1.7] [Reference Citation Analysis]
Number Citing Articles
1 Koshko L, Scofield S, Mor G, Sadagurski M. Prenatal Pollutant Exposures and Hypothalamic Development: Early Life Disruption of Metabolic Programming. Front Endocrinol 2022;13:938094. [DOI: 10.3389/fendo.2022.938094] [Reference Citation Analysis]
2 Kobrzycka AT, Stankiewicz AM, Goscik J, Gora M, Burzynska B, Iwanicka-nowicka R, Pierzchala-koziec K, Wieczorek M. Hypothalamic Neurochemical Changes in Long-Term Recovered Bilateral Subdiaphragmatic Vagotomized Rats. Front Behav Neurosci 2022;16:869526. [DOI: 10.3389/fnbeh.2022.869526] [Reference Citation Analysis]
3 Rasmussen JM, Thompson PM, Entringer S, Buss C, Wadhwa PD. Fetal programming of human energy homeostasis brain networks: Issues and considerations. Obes Rev 2021;:e13392. [PMID: 34845821 DOI: 10.1111/obr.13392] [Reference Citation Analysis]
4 Biddinger JE, Lazarenko RM, Scott MM, Simerly R. Leptin suppresses development of GLP-1 inputs to the paraventricular nucleus of the hypothalamus. Elife 2020;9:e59857. [PMID: 33206596 DOI: 10.7554/eLife.59857] [Cited by in Crossref: 4] [Cited by in F6Publishing: 3] [Article Influence: 2.0] [Reference Citation Analysis]
5 Tian B, Fu H, Liu B, Zhu J, Zheng X, Ge C. Effects of Amifostine Pre-treatment on MIRNA, LNCRNA, and MRNA Profiles in the Hypothalamus of Mice Exposed to 60Co Gamma Radiation. Health Phys 2020;119:297-305. [PMID: 32384371 DOI: 10.1097/HP.0000000000001233] [Cited by in Crossref: 1] [Cited by in F6Publishing: 1] [Article Influence: 0.5] [Reference Citation Analysis]
6 Zeltser LM. Feeding circuit development and early-life influences on future feeding behaviour. Nat Rev Neurosci 2018;19:302-16. [PMID: 29662204 DOI: 10.1038/nrn.2018.23] [Cited by in Crossref: 19] [Cited by in F6Publishing: 21] [Article Influence: 6.3] [Reference Citation Analysis]
7 Xie Y, Dorsky RI. Development of the hypothalamus: conservation, modification and innovation. Development 2017;144:1588-99. [PMID: 28465334 DOI: 10.1242/dev.139055] [Cited by in Crossref: 65] [Cited by in F6Publishing: 51] [Article Influence: 13.0] [Reference Citation Analysis]
8 Lima-Ojeda JM, Rupprecht R, Baghai TC. Neurobiology of depression: A neurodevelopmental approach. World J Biol Psychiatry 2018;19:349-59. [PMID: 28155577 DOI: 10.1080/15622975.2017.1289240] [Cited by in Crossref: 29] [Cited by in F6Publishing: 25] [Article Influence: 5.8] [Reference Citation Analysis]
9 Guo L, Costanzo-Garvey DL, Smith DR, Neilsen BK, MacDonald RG, Lewis RE. Kinase Suppressor of Ras 2 (KSR2) expression in the brain regulates energy balance and glucose homeostasis. Mol Metab 2017;6:194-205. [PMID: 28180061 DOI: 10.1016/j.molmet.2016.12.004] [Cited by in Crossref: 9] [Cited by in F6Publishing: 8] [Article Influence: 1.5] [Reference Citation Analysis]
10 Jaimes-Hoy L, Gutiérrez-Mariscal M, Vargas Y, Pérez-Maldonado A, Romero F, Sánchez-Jaramillo E, Charli JL, Joseph-Bravo P. Neonatal Maternal Separation Alters, in a Sex-Specific Manner, the Expression of TRH, of TRH-Degrading Ectoenzyme in the Rat Hypothalamus, and the Response of the Thyroid Axis to Starvation. Endocrinology 2016;157:3253-65. [PMID: 27323240 DOI: 10.1210/en.2016-1239] [Cited by in Crossref: 16] [Cited by in F6Publishing: 15] [Article Influence: 2.7] [Reference Citation Analysis]
11 Sokolowski K, Tran T, Esumi S, Kamal Y, Oboti L, Lischinsky J, Goodrich M, Lam A, Carter M, Nakagawa Y, Corbin JG. Molecular and behavioral profiling of Dbx1-derived neurons in the arcuate, lateral and ventromedial hypothalamic nuclei. Neural Dev 2016;11:12. [PMID: 27209204 DOI: 10.1186/s13064-016-0067-9] [Cited by in Crossref: 8] [Cited by in F6Publishing: 6] [Article Influence: 1.3] [Reference Citation Analysis]
12 Holmes AP, Wong SQ, Pulix M, Johnson K, Horton NS, Thomas P, de Magalhães JP, Plagge A. Reductions in hypothalamic Gfap expression, glial cells and α-tanycytes in lean and hypermetabolic Gnasxl-deficient mice. Mol Brain 2016;9:39. [PMID: 27080240 DOI: 10.1186/s13041-016-0219-1] [Cited by in Crossref: 5] [Cited by in F6Publishing: 4] [Article Influence: 0.8] [Reference Citation Analysis]