References
1. Martin, JH. Lymbic system and cerebral circuits for emotions, learning, and memory. Neuroanatomy: text and atlas (2003); McGraw-Hill Companies. p. 382
2. Amaral D and Lavenex P. Hippocampal Neuroanatomy. The Hippocampus Book. (2006); Oxford University Press.
3. Moser MB, Moser EI. "Functional differentiation in the hippocampus". Hippocampus (1998); 8 (6): 608–619
4. Diana RA, Yonelinas AP and Ranganath C. Imaging recollection and familiarity in the medial temporal lobe: a three-component model. Trends in Cognitive Sciences (2007); 11 (9): 379–386
5. Chiu YC, Algase D, Whall A, Liang J, Liu HC, Lin KN and Wang PN. Getting lost: directed attention and executive functions in early Alzheimer's disease patients. Dementia and Geriatric Cognitive Disorders (2004); 17 (3): 174–180
6. Solstad T, Boccara CN, Kropff E, Moser MB and Moser EI. Representation of geometric borders in the entorhinal cortex. Science (2008); 322 (5909): 1865–1868
7. Campbell S and MacQueen G. The role of the hippocampus in the pathophysiology of major depression. Journal of Psychiatry Neuroscience (2004); 29: 417–426
8. deKloet ER, Vreugdenhil E, Oitzl MS and Joëls M. Brain corticosteroid receptor balance in health and disease. Endocrinology Reviews (1998); 19: 269–301
9. Ulrich-Lai YM and Herman JP. Neural regulation of endocrine and autonomic stress responses. Nature Reviews Neuroscience (2009); 10: 397–409
10. Monya B. Neurons from reprogrammed cells. Nature Methods (2011); 8: 905–909
11. Heckers S and C. Konradi C. Hippocampal neurons in Schizophrenia. Journal of Neural Transmission (2002); 109(0): 891–905
12. Sommer W. Erkrankungdes Ammonshornesalsaetiologisches Moment der Epilepsie. ArchPsychiatrNervenkr (1880); 361–375
13. Thom M. Hippocampal sclerosis: progress since Sommer. Brain Pathology (2009); 19: 565–572
14. Maria T, Review: Hippocampal Sclerosis in epilepsy: a neuropathology review. Journal of Neuropathology Applied Neurobiology. (2014); 40(5): 520–543
15. Padurariu M, Ciobica A, Mavroudis I, Fotiou D, Baloyannis S. Hippocampal neuronal loss in CA1 and CA3 areas of Alzheimer’s disease patients. Psychiatria Danubina (2012); 24(2): 152-158
16. Jenny K. Method development for siRNA silencing in primary hippocampus culture by means of Cellaxess electroporation. Molecular Biotechnology Programme, Uppsala University School of Engineering (2009).
17. Sang JY, Jongmin K, Chang-Soo L, and Yoonkey N. Simple and novel three dimensional neuronal cell culture using a mesh scaffold. Experimental Neurobiology (2011); 20(2): 110–115
18. Ren M, CDE, Tang-Schomer MD and Özkucur N. A biofidelic 3D culture model to study the development of brain cellular systems. Scientific Reports (2016); 6: 2495
19. Narayanan, NS, Cavanagh, JF, Frank, MJ. & Laubach M. Common medial frontal mechanisms of adaptive control in humans and rodents. Nature Neuroscience (2013); 16: 1888–1895
20. Sauvageot CM. & Stiles CD. Molecular mechanisms controlling cortical gliogenesis. Current Opinion in Neurobiology (2002); 12: 244–249
21. Tang-Schomer MD. Et al. Bioengineered functional brain-like cortical tissue. Proceedings of National Academy of Sciences (2014); 111; 13811–13816
22. http://www.lonza.com/products-services/bio-research/primary-cells/raft-3d-cell-culture-system/raft-3d-kits-applications.aspx
23. Galina D, Martin H, Corinna T, Mika OR, Markus D, Gregor S and Michael Nix AD. Rapid and efficient electroporation-based gene transfer into primary dissociated neurons. Journal of Neuroscience Methods (2003); 130: 65-73
24. Manuel Z, Sabine T, Markus Z and Fabian T. High Throughput Nucleofection® of Primary Rat Hippocampal Neurons. (2009); Lonza Whitepaper.
25. Pereira DG, Hollywood R, Bevilaqua MC, da Luz AC, Hindges R, Nardi AE and Thuret S. Consequences of cancer treatments on adult hippocampal neurogenesis: implications for cognitive function and depressive symptoms. Neuro Oncology (2014); 16(4): 476-92
26. Miyoung Y and Changjong Moon. Neurotoxicity of cancer chemotherapy. Neural Regenerative Research (2013); 8(17): 1606–1614
27. Johnstone AF, Gross GW, Weiss DG, Schroeder OH, Gramowski A and Shafer TJ. Microelectrode arrays: a physiologically based neurotoxicity testing platform for the 21st century. Neurotoxicology (2010); 31(4): 331-350
28. Mark N, Raluca D, Angela MM, Yuli W, Benjamin D. Philpot Nancy LA, and Anne MT. Transferable neuronal mini-cultures to accelerate screening in primary and induced pluripotent stem cell-derived neurons. Science Reports (2015); 5: 8353