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Items: 1 to 50 of 248

1.

The Anatomical Boundary of the Rat Claustrum.

Dillingham CM, Mathiasen ML, Frost BE, Lambert MAC, Bubb EJ, Jankowski MM, Aggleton JP, O'Mara SM.

Front Neuroanat. 2019 May 31;13:53. doi: 10.3389/fnana.2019.00053. eCollection 2019.

2.

Proximal perimeter encoding in the rat rostral thalamus.

Matulewicz P, Ulrich K, Islam MN, Mathiasen ML, Aggleton JP, O'Mara SM.

Sci Rep. 2019 Feb 27;9(1):2865. doi: 10.1038/s41598-019-39396-8.

3.

Fornix white matter glia damage causes hippocampal gray matter damage during age-dependent limbic decline.

Metzler-Baddeley C, Mole JP, Sims R, Fasano F, Evans J, Jones DK, Aggleton JP, Baddeley RJ.

Sci Rep. 2019 Jan 31;9(1):1060. doi: 10.1038/s41598-018-37658-5.

4.

A Key Role for Subiculum-Fornix Connectivity in Recollection in Older Age.

Hartopp N, Wright P, Ray NJ, Evans TE, Metzler-Baddeley C, Aggleton JP, O'Sullivan MJ.

Front Syst Neurosci. 2019 Jan 10;12:70. doi: 10.3389/fnsys.2018.00070. eCollection 2018.

5.

Separate cortical and hippocampal cell populations target the rat nucleus reuniens and mammillary bodies.

Mathiasen ML, Amin E, Nelson AJD, Dillingham CM, O'Mara SM, Aggleton JP.

Eur J Neurosci. 2019 Jun;49(12):1649-1672. doi: 10.1111/ejn.14341. Epub 2019 Feb 21.

PMID:
30633830
6.

Anterior thalamic nuclei, but not retrosplenial cortex, lesions abolish latent inhibition in rats.

Nelson AJD, Powell AL, Kinnavane L, Aggleton JP.

Behav Neurosci. 2018 Oct;132(5):378-387. doi: 10.1037/bne0000265.

7.

When is the rat retrosplenial cortex required for stimulus integration?

Nelson AJD, Hindley EL, Vann SD, Aggleton JP.

Behav Neurosci. 2018 Oct;132(5):366-377. doi: 10.1037/bne0000267.

8.

Do the rat anterior thalamic nuclei contribute to behavioural flexibility?

Kinnavane L, Amin E, Aggleton JP, Nelson AJD.

Behav Brain Res. 2019 Feb 1;359:536-549. doi: 10.1016/j.bbr.2018.10.012. Epub 2018 Oct 7.

9.

The cingulum bundle: Anatomy, function, and dysfunction.

Bubb EJ, Metzler-Baddeley C, Aggleton JP.

Neurosci Biobehav Rev. 2018 Sep;92:104-127. doi: 10.1016/j.neubiorev.2018.05.008. Epub 2018 May 16. Review.

10.

Collateral Projections Innervate the Mammillary Bodies and Retrosplenial Cortex: A New Category of Hippocampal Cells.

Kinnavane L, Vann SD, Nelson AJD, O'Mara SM, Aggleton JP.

eNeuro. 2018 Mar 8;5(1). pii: ENEURO.0383-17.2018. doi: 10.1523/ENEURO.0383-17.2018. eCollection 2018 Jan-Feb.

11.

Hippocampal - diencephalic - cingulate networks for memory and emotion: An anatomical guide.

Bubb EJ, Kinnavane L, Aggleton JP.

Brain Neurosci Adv. 2017 Aug 4;1(1). pii: 2398212817723443. doi: 10.1177/2398212817723443.

12.

The rat retrosplenial cortex as a link for frontal functions: A lesion analysis.

Powell AL, Nelson AJD, Hindley E, Davies M, Aggleton JP, Vann SD.

Behav Brain Res. 2017 Sep 29;335:88-102. doi: 10.1016/j.bbr.2017.08.010. Epub 2017 Aug 8.

13.

Medial temporal pathways for contextual learning: Network c-fos mapping in rats with or without perirhinal cortex lesions.

Kinnavane L, Amin E, Olarte-Sánchez CM, Aggleton JP.

Brain Neurosci Adv. 2017 Mar 14;1. pii: 2398212817694167. doi: 10.1177/2398212817694167.

14.

The retrosplenial cortex and object recency memory in the rat.

Powell AL, Vann SD, Olarte-Sánchez CM, Kinnavane L, Davies M, Amin E, Aggleton JP, Nelson AJD.

Eur J Neurosci. 2017 Jun;45(11):1451-1464. doi: 10.1111/ejn.13577. Epub 2017 May 4.

15.

Asymmetric cross-hemispheric connections link the rat anterior thalamic nuclei with the cortex and hippocampal formation.

Mathiasen ML, Dillingham CM, Kinnavane L, Powell AL, Aggleton JP.

Neuroscience. 2017 May 4;349:128-143. doi: 10.1016/j.neuroscience.2017.02.026. Epub 2017 Feb 22.

16.

Topographic separation of fornical fibers associated with the anterior and posterior hippocampus in the human brain: An MRI-diffusion study.

Christiansen K, Metzler-Baddeley C, Parker GD, Muhlert N, Jones DK, Aggleton JP, Vann SD.

Brain Behav. 2016 Nov 22;7(1):e00604. doi: 10.1002/brb3.604. eCollection 2017 Jan.

17.

Detecting and discriminating novel objects: The impact of perirhinal cortex disconnection on hippocampal activity patterns.

Kinnavane L, Amin E, Olarte-Sánchez CM, Aggleton JP.

Hippocampus. 2016 Nov;26(11):1393-1413. doi: 10.1002/hipo.22615. Epub 2016 Jul 22.

18.

Perirhinal cortex lesions that impair object recognition memory spare landmark discriminations.

Nelson AJD, Olarte-Sánchez CM, Amin E, Aggleton JP.

Behav Brain Res. 2016 Oct 15;313:255-259. doi: 10.1016/j.bbr.2016.07.031. Epub 2016 Jul 20.

19.

Thalamic pathology and memory loss in early Alzheimer's disease: moving the focus from the medial temporal lobe to Papez circuit.

Aggleton JP, Pralus A, Nelson AJ, Hornberger M.

Brain. 2016 Jul;139(Pt 7):1877-90. doi: 10.1093/brain/aww083. Epub 2016 Apr 28. Review.

20.

Complementary subicular pathways to the anterior thalamic nuclei and mammillary bodies in the rat and macaque monkey brain.

Christiansen K, Dillingham CM, Wright NF, Saunders RC, Vann SD, Aggleton JP.

Eur J Neurosci. 2016 Apr;43(8):1044-61. doi: 10.1111/ejn.13208. Epub 2016 Mar 6.

21.

The status of the precommissural and postcommissural fornix in normal ageing and mild cognitive impairment: An MRI tractography study.

Christiansen K, Aggleton JP, Parker GD, O'Sullivan MJ, Vann SD, Metzler-Baddeley C.

Neuroimage. 2016 Apr 15;130:35-47. doi: 10.1016/j.neuroimage.2015.12.055. Epub 2016 Jan 9.

22.

Evidence for spatially-responsive neurons in the rostral thalamus.

Jankowski MM, Passecker J, Islam MN, Vann S, Erichsen JT, Aggleton JP, O'Mara SM.

Front Behav Neurosci. 2015 Oct 13;9:256. doi: 10.3389/fnbeh.2015.00256. eCollection 2015.

23.

Perirhinal cortex lesions impair tests of object recognition memory but spare novelty detection.

Olarte-Sánchez CM, Amin E, Warburton EC, Aggleton JP.

Eur J Neurosci. 2015 Dec;42(12):3117-27. doi: 10.1111/ejn.13106. Epub 2015 Nov 24.

24.

Calcium-binding protein immunoreactivity in Gudden's tegmental nuclei and the hippocampal formation: differential co-localization in neurons projecting to the mammillary bodies.

Dillingham CM, Holmes JD, Wright NF, Erichsen JT, Aggleton JP, Vann SD.

Front Neuroanat. 2015 Aug 4;9:103. doi: 10.3389/fnana.2015.00103. eCollection 2015.

25.

The subiculum: the heart of the extended hippocampal system.

Aggleton JP, Christiansen K.

Prog Brain Res. 2015;219:65-82. doi: 10.1016/bs.pbr.2015.03.003. Epub 2015 May 14. Review.

PMID:
26072234
26.

What does spatial alternation tell us about retrosplenial cortex function?

Nelson AJ, Powell AL, Holmes JD, Vann SD, Aggleton JP.

Front Behav Neurosci. 2015 May 18;9:126. doi: 10.3389/fnbeh.2015.00126. eCollection 2015.

27.

Perirhinal cortex lesions in rats: Novelty detection and sensitivity to interference.

Albasser MM, Olarte-Sánchez CM, Amin E, Brown MW, Kinnavane L, Aggleton JP.

Behav Neurosci. 2015 Jun;129(3):227-43. doi: 10.1037/bne0000049.

28.

A critical role for the anterior thalamus in directing attention to task-relevant stimuli.

Wright NF, Vann SD, Aggleton JP, Nelson AJ.

J Neurosci. 2015 Apr 8;35(14):5480-8. doi: 10.1523/JNEUROSCI.4945-14.2015.

29.

Complementary Patterns of Direct Amygdala and Hippocampal Projections to the Macaque Prefrontal Cortex.

Aggleton JP, Wright NF, Rosene DL, Saunders RC.

Cereb Cortex. 2015 Nov;25(11):4351-73. doi: 10.1093/cercor/bhv019. Epub 2015 Feb 24.

30.

The effect of retrosplenial cortex lesions in rats on incidental and active spatial learning.

Nelson AJ, Hindley EL, Pearce JM, Vann SD, Aggleton JP.

Front Behav Neurosci. 2015 Feb 6;9:11. doi: 10.3389/fnbeh.2015.00011. eCollection 2015.

31.

Fornical and nonfornical projections from the rat hippocampal formation to the anterior thalamic nuclei.

Dillingham CM, Erichsen JT, O'Mara SM, Aggleton JP, Vann SD.

Hippocampus. 2015 Sep;25(9):977-92. doi: 10.1002/hipo.22421. Epub 2015 Mar 3.

32.

Cholinergic basal forebrain structure influences the reconfiguration of white matter connections to support residual memory in mild cognitive impairment.

Ray NJ, Metzler-Baddeley C, Khondoker MR, Grothe MJ, Teipel S, Wright P, Heinsen H, Jones DK, Aggleton JP, O'Sullivan MJ.

J Neurosci. 2015 Jan 14;35(2):739-47. doi: 10.1523/JNEUROSCI.3617-14.2015.

33.

The impact of fornix lesions in rats on spatial learning tasks sensitive to anterior thalamic and hippocampal damage.

Dumont JR, Amin E, Wright NF, Dillingham CM, Aggleton JP.

Behav Brain Res. 2015 Feb 1;278:360-74. doi: 10.1016/j.bbr.2014.10.016. Epub 2014 Oct 18.

34.

Mapping parahippocampal systems for recognition and recency memory in the absence of the rat hippocampus.

Kinnavane L, Amin E, Horne M, Aggleton JP.

Eur J Neurosci. 2014 Dec;40(12):3720-34. doi: 10.1111/ejn.12740. Epub 2014 Sep 29.

35.

Why do lesions in the rodent anterior thalamic nuclei cause such severe spatial deficits?

Aggleton JP, Nelson AJ.

Neurosci Biobehav Rev. 2015 Jul;54:131-44. doi: 10.1016/j.neubiorev.2014.08.013. Epub 2014 Sep 6. Review.

36.

The irregular firing properties of thalamic head direction cells mediate turn-specific modulation of the directional tuning curve.

Tsanov M, Chah E, Noor MS, Egan C, Reilly RB, Aggleton JP, Erichsen JT, Vann SD, O'Mara SM.

J Neurophysiol. 2014 Nov 1;112(9):2316-31. doi: 10.1152/jn.00583.2013. Epub 2014 Aug 13.

37.

Advances in the behavioural testing and network imaging of rodent recognition memory.

Kinnavane L, Albasser MM, Aggleton JP.

Behav Brain Res. 2015 May 15;285:67-78. doi: 10.1016/j.bbr.2014.07.049. Epub 2014 Aug 11. Review.

38.

Nucleus reuniens of the thalamus contains head direction cells.

Jankowski MM, Islam MN, Wright NF, Vann SD, Erichsen JT, Aggleton JP, O'Mara SM.

Elife. 2014 Jul 14;3. doi: 10.7554/eLife.03075.

39.

Contrasting networks for recognition memory and recency memory revealed by immediate-early gene imaging in the rat.

Olarte-Sánchez CM, Kinnavane L, Amin E, Aggleton JP.

Behav Neurosci. 2014 Aug;128(4):504-22. doi: 10.1037/a0037055. Epub 2014 Jun 16.

40.

Looking beyond the hippocampus: old and new neurological targets for understanding memory disorders.

Aggleton JP.

Proc Biol Sci. 2014 Jul 7;281(1786). pii: 20140565. doi: 10.1098/rspb.2014.0565. Review.

41.
42.

Dysgranular retrosplenial cortex lesions in rats disrupt cross-modal object recognition.

Hindley EL, Nelson AJ, Aggleton JP, Vann SD.

Learn Mem. 2014 Feb 19;21(3):171-9. doi: 10.1101/lm.032516.113.

43.

The rat retrosplenial cortex is required when visual cues are used flexibly to determine location.

Hindley EL, Nelson AJ, Aggleton JP, Vann SD.

Behav Brain Res. 2014 Apr 15;263:98-107. doi: 10.1016/j.bbr.2014.01.028. Epub 2014 Jan 29.

44.

A novel role for the rat retrosplenial cortex in cognitive control.

Nelson AJ, Hindley EL, Haddon JE, Vann SD, Aggleton JP.

Learn Mem. 2014 Jan 16;21(2):90-7. doi: 10.1101/lm.032136.113.

45.

Selective importance of the rat anterior thalamic nuclei for configural learning involving distal spatial cues.

Dumont JR, Amin E, Aggleton JP.

Eur J Neurosci. 2014 Jan;39(2):241-56. doi: 10.1111/ejn.12409. Epub 2013 Nov 11.

46.

The origin of projections from the posterior cingulate and retrosplenial cortices to the anterior, medial dorsal and laterodorsal thalamic nuclei of macaque monkeys.

Aggleton JP, Saunders RC, Wright NF, Vann SD.

Eur J Neurosci. 2014 Jan;39(1):107-23. doi: 10.1111/ejn.12389. Epub 2013 Oct 18.

47.

The anterior thalamus provides a subcortical circuit supporting memory and spatial navigation.

Jankowski MM, Ronnqvist KC, Tsanov M, Vann SD, Wright NF, Erichsen JT, Aggleton JP, O'Mara SM.

Front Syst Neurosci. 2013 Aug 30;7:45. doi: 10.3389/fnsys.2013.00045. Review.

48.

Association rules for rat spatial learning: the importance of the hippocampus for binding item identity with item location.

Albasser MM, Dumont JR, Amin E, Holmes JD, Horne MR, Pearce JM, Aggleton JP.

Hippocampus. 2013 Dec;23(12):1162-78. doi: 10.1002/hipo.22154. Epub 2013 Jul 10.

49.

Dissociation of recognition and recency memory judgments after anterior thalamic nuclei lesions in rats.

Dumont JR, Aggleton JP.

Behav Neurosci. 2013 Jun;127(3):415-31. doi: 10.1037/a0032750.

50.

Individual differences in fornix microstructure and body mass index.

Metzler-Baddeley C, Baddeley RJ, Jones DK, Aggleton JP, O'Sullivan MJ.

PLoS One. 2013;8(3):e59849. doi: 10.1371/journal.pone.0059849. Epub 2013 Mar 28.

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