AmaralD. G.LavenexP. (2007). Hippocampal neuroanatomy. In AmaralD. G.AndersenP.BlissT.MorrisR. G. M.O’KeefeJ. (Eds.), The hippocampus book (pp. 37–114). Oxford, UK: Oxford University Press.
2.
CoparaM. S.HassanA. S.KyleC. T.LibbyL. A.RanganathC.EkstromA. D. (2014). Complementary roles of human hippocampal subregions during retrieval of spatiotemporal context. The Journal of Neuroscience, 34
(20), 6834–6842.
3.
FavreG.Banta LavenexP.LavenexP. (2012a). Developmental regulation of expression of schizophrenia susceptibility genes in the primate hippocampal formation. Translational Psychiatry, 2, e173.
4.
FavreG.Banta LavenexP.LavenexP. (2012b). miRNA regulation of gene expression: A predictive bioinformatics analysis in the postnatally developing monkey hippocampus. PloS One, 7(8), e43435.
5.
JabèsA.Banta LavenexP.AmaralD. G.LavenexP. (2010). Quantitative analysis of postnatal neurogenesis and neuron number in the macaque monkey dentate gyrus. European Journal of Neuroscience, 31
(2), 273–285.
6.
JabèsA.Banta LavenexP.AmaralD. G.LavenexP. (2011). Postnatal development of the hippocampal formation: A stereological study in macaque monkeys. Journal of Comparative Neurology, 519
(6), 1051–1070.
7.
JabèsA.NelsonC. A. (2015). 20 years after “The ontogeny of human memory: A cognitive neuroscience perspective,” where are we?International Journal of Behavioral Development, 39, 293–303.
8.
KesnerR. P.LeeI.GilbertP. (2004). A behavioral assessment of hippocampal function based on a subregional analysis. Reviews in Neuroscience, 15
(5), 333–351.
9.
LavenexP.AmaralD. G. (2000). Hippocampal-neocortical interaction: A hierarchy of associativity. Hippocampus, 10
(4), 420–430.
10.
LavenexP.Banta LavenexP. (2013). Building hippocampal circuits to learn and remember: Insights into the development of human memory. Behavioural Brain Research, 254, 8–21.
11.
LavenexP.Banta LavenexP.AmaralD. G. (2007). Postnatal development of the primate hippocampal formation. Developmental Neuroscience, 29
(1–2), 179–192.
12.
LavenexP.SugdenS. G.DavisR. R.GreggJ. P.Banta LavenexP. (2011). Developmental regulation of gene expression and astrocytic processes may explain selective hippocampal vulnerability. Hippocampus, 21
(2), 142–149.
NelsonC. A. (1995). The ontogeny of human memory: A cognitive neuroscience perspective. Developmental Psychology, 31
(5), 723–738.
15.
OvermanW.BachevalierJ.TurnerM.PeusterA. (1992). Object recognition versus object discrimination – Comparison between human infants and infant monkeys. Behavioral Neuroscience, 106
(1), 15–29.
16.
PascalisO.de SchonenS. (1994). Recognition memory in 3- to 4-day-old human neonates. Neuroreport, 5
(14), 1721–1724.
17.
PascalisO.HunkinN. M.HoldstockJ. S.IsaacC. L.MayesA. R. (2004). Visual paired comparison performance is impaired in a patient with selective hippocampal lesions and relatively intact item recognition. Neuropsychologia, 42
(10), 1293–1300.
18.
RibordyF.JabesA.Banta LavenexP.LavenexP. (2013). Development of allocentric spatial memory abilities in children from 18 months to 5 years of age. Cognitive Psychology, 66
(1), 1–29.
19.
Ribordy LambertF.LavenexP.Banta LavenexP. (2015). Improvement of allocentric spatial memory resolution in children from 2 to 4 years of age. International Journal of Behavioral Development, 39, 318–331.
20.
ZeamerA.HeuerE.BachevalierJ. (2010). Developmental trajectory of object recognition memory in infant rhesus macaques with and without neonatal hippocampal lesions. The Journal of Neuroscience, 30
(27), 9157–9165.
21.
ZolaS. M.SquireL. R.TengE.StafanacciL.BuffaloE. A.ClarkR. E. (2000). Impaired recognition memory in monkeys after damage limited to the hippocampal region. The Journal of Neuroscience, 20
(1), 451–463.
