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The World Journal of Biological Psychiatry Volume 20, 2019 - Issue 3
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Original Investigation

The relevance of hippocampal subfield integrity and clock drawing test performance for the diagnosis of Alzheimer’s disease and mild cognitive impairment

Dusan HirjakDepartment of Psychiatry and Psychotherapy, Central Institute of Mental Health, Medical Faculty Mannheim, Heidelberg University, Mannheim, Germany; ;Center for Psychosocial Medicine, Department of General Psychiatry, Heidelberg University, Mannheim, Germany; Correspondence[email protected]
View further author information
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Fabio SambataroDepartment of Medicine (DAME), Udine University, Udine, Italy; View further author information
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Barbara RemmeleCenter for Psychosocial Medicine, Department of General Psychiatry, Heidelberg University, Mannheim, Germany; View further author information
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Katharina M. KuberaCenter for Psychosocial Medicine, Department of General Psychiatry, Heidelberg University, Mannheim, Germany; View further author information
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Johannes SchröderSection of Geriatric Psychiatry, Heidelberg University, Mannheim, Germany; View further author information
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Ulrich SeidlDepartment of Psychiatry, Center for Mental Health, Stuttgart, Germany; View further author information
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Anne K. ThomannDepartment of Internal Medicine II, Medical Faculty Mannheim, Heidelberg University, Mannheim, Germany; View further author information
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Klaus H. Maier-HeinMedical Image Computing Group, Div. Medical and Biological Informatics, German Cancer Research Center (DKFZ), Heidelberg, Germany; View further author information
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Robert C. WolfCenter for Psychosocial Medicine, Department of General Psychiatry, Heidelberg University, Mannheim, Germany; View further author information
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Philipp A. ThomannCenter for Psychosocial Medicine, Department of General Psychiatry, Heidelberg University, Mannheim, Germany; ;Center for Mental Health, Odenwald District Healthcare Center, Erbach, GermanyView further author information
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Pages 197-208 | Received 07 Apr 2017, Accepted 11 Jul 2017, Published online: 31 Aug 2017

References

  • Amodeo S, Mainland BJ, Herrmann N, Shulman KI. 2015. The times they are a-changin’: clock drawing and prediction of dementia. J Geriatr Psychiatry Neurol. 28:145–155.
  • Apostolova LG, Dinov ID, Dutton RA, Hayashi KM, Toga AW, Cummings JL, Thompson PM. 2006. 3D comparison of hippocampal atrophy in amnestic mild cognitive impairment and Alzheimer’s disease. Brain. 129:2867–2873.
  • Apostolova LG, Mosconi L, Thompson PM, Green AE, Hwang KS, Ramirez A, Mistur R, Tsui WH, de Leon MJ. 2010. Subregional hippocampal atrophy predicts Alzheimer’s dementia in the cognitively normal. Neurobiol Aging. 31:1077–1088.
  • Baker S, Vieweg P, Gao F, Gilboa A, Wolbers T, Black SE, Rosenbaum RS. 2016. The Human Dentate Gyrus plays a necessary role in discriminating new memories. Curr Biol. 26:2629–2634.
  • Bandopadhyay R, Liu JY, Sisodiya SM, Thom M. 2014. A comparative study of the dentate gyrus in hippocampal sclerosis in epilepsy and dementia. Neuropathol Appl Neurobiol. 40:177–190.
  • Bastos-Leite AJ, van Waesberghe JH, Oen AL, van der Flier WM, Scheltens P, Barkhof F. 2006. Hippocampal sulcus width and cavities: comparison between patients with Alzheimer disease and nondemented elderly subjects. AJNR Am J Neuroradiol. 27:2141–2145.
  • Becker JT, Davis SW, Hayashi KM, Meltzer CC, Toga AW, Lopez OL, Thompson PM. 2006. Three-dimensional patterns of hippocampal atrophy in mild cognitive impairment. Arch Neurol. 63:97–101.
  • Blaizot X, Martinez-Marcos A, Arroyo-Jimenez Md Mdel M, Marcos P, Artacho-Perula E, Munoz M, Chavoix C, Insausti R. 2004. The parahippocampal gyrus in the baboon: anatomical, cytoarchitectonic and magnetic resonance imaging (MRI) studies. Cereb Cortex. 14:231–246.
  • Buckner RL, Head D, Parker J, Fotenos AF, Marcus D, Morris JC, Snyder AZ. 2004. A unified approach for morphometric and functional data analysis in young, old, and demented adults using automated atlas-based head size normalization: reliability and validation against manual measurement of total intracranial volume. Neuroimage. 23:724–738.
  • Cahn-Weiner DA, Sullivan EV, Shear PK, Fama R, Lim KO, Yesavage JA, Tinklenberg JR, Pfefferbaum A. 1999. Brain structural and cognitive correlates of clock drawing performance in Alzheimer’s disease. J Int Neuropsychol Soc. 5:502–509.
  • Colombo M, Vaccaro R, Vitali SF, Malnati M, Guaita A. 2009. Clock drawing interpretation scale (CDIS) and neuro-psychological functions in older adults with mild and moderate cognitive impairments. Arch Gerontol Geriatr. 49(Suppl 1):39–48.
  • Dale AM, Fischl B, Sereno MI. 1999. Cortical surface-based analysis. I. Segmentation and surface reconstruction. NeuroImage. 9:179–194.
  • Davis KE, Fox S, Gigg J. 2014. Increased hippocampal excitability in the 3xTgAD mouse model for Alzheimer’s disease in vivo. PLoS One. 9:e91203.
  • de Flores R, La Joie R, Chetelat G. 2015. Structural imaging of hippocampal subfields in healthy aging and Alzheimer’s disease. Neuroscience. 309:29–50.
  • Delli Pizzi S, Franciotti R, Bubbico G, Thomas A, Onofrj M, Bonanni L. 2016. Atrophy of hippocampal subfields and adjacent extrahippocampal structures in dementia with Lewy bodies and Alzheimer’s disease. Neurobiol Aging. 40:103–109.
  • Desikan RS, Segonne F, Fischl B, Quinn BT, Dickerson BC, Blacker D, Buckner RL, Dale AM, Maguire RP, Hyman BT, et al. 2006. An automated labeling system for subdividing the human cerebral cortex on MRI scans into gyral based regions of interest. NeuroImage. 31:968–980.
  • Dos Santos V, Thomann PA, Wustenberg T, Seidl U, Essig M, Schroder J. 2011. Morphological cerebral correlates of CERAD test performance in mild cognitive impairment and Alzheimer’s disease. J Alzheimer’s Dis. 23:411–420.
  • Fischl B, Dale AM. 2000. Measuring the thickness of the human cerebral cortex from magnetic resonance images. Proc Natl Acad Sci USA. 97:11050–11055.
  • Fischl B, Sereno MI, Dale AM. 1999. Cortical surface-based analysis. II: inflation, flattening, and a surface-based coordinate system. NeuroImage. 9:195–207.
  • Fischl B, van der Kouwe A, Destrieux C, Halgren E, Segonne F, Salat DH, Busa E, Seidman LJ, Goldstein J, Kennedy D, et al. 2004. Automatically parcellating the human cerebral cortex. Cereb Cortex. 14:11–22.
  • Friedman J, Hastie T, Tibshirani R. 2010. Regularization paths for generalized linear models via coordinate descent. J Statis Software. 33:22.
  • Frisoni GB, Fox NC, Jack CR Jr, Scheltens P, Thompson PM. 2010. The clinical use of structural MRI in Alzheimer disease. Nature Rev Neurol. 6:67–77.
  • Frisoni GB, Sabattoli F, Lee AD, Dutton RA, Toga AW, Thompson PM. 2006. In vivo neuropathology of the hippocampal formation in AD: a radial mapping MR-based study. Neuroimage. 32:104–110.
  • Germeyan SC, Kalikhman D, Jones L, Theodore WH. 2014. Automated versus manual hippocampal segmentation in preoperative and postoperative patients with epilepsy. Epilepsia. 55:1374–1379.
  • Gertje EC, Pluta J, Das S, Mancuso L, Kliot D, Yushkevich P, Wolk D. 2016. Clinical application of automatic segmentation of medial temporal lobe subregions in prodromal and dementia-level Alzheimer’s disease. J Alzheimer’s Dis. 54:1027–1037.
  • Heinik J, Solomesh I, Raikher B, Lin R. 2002. Can clock drawing test help to differentiate between dementia of the Alzheimer’s type and vascular dementia? A preliminary study. Int J Geriatr Psychiatry. 17:699–703.
  • Hirjak D, Wolf RC, Pfeifer B, Kubera KM, Thomann AK, Seidl U, Maier-Hein KH, Schroder J, Thomann PA. 2017. Cortical signature of clock drawing performance in Alzheimer’s disease and mild cognitive impairment. J Psychiatr Res. 90:133–142.
  • Hirjak D, Wolf RC, Remmele B, Seidl U, Thomann AK, Kubera KM, Schroder J, Maier-Hein KH, Thomann PA. 2017. Hippocampal formation alterations differently contribute to autobiographic memory deficits in mild cognitive impairment and Alzheimer’s disease. Hippocampus. 27:702–715.
  • Hirjak D, Wolf RC, Traeger TV, Seidl U, Thomann PA. 2013. Brain correlates of impaired clock drawing performance in mild cognitive impairment and Alzheimer’s disease: evidence from structural and functional neuroimaging. In: Mild Cognitive Impairment (MCI): symptoms, causes, risk factors and clinical outcomes. New York (NY): Nova Science Publishers.
  • Kesner RP, Rolls ET. 2015. A computational theory of hippocampal function, and tests of the theory: new developments. Neurosci Biobehav Rev. 48:92–147.
  • Khan W, Westman E, Jones N, Wahlund LO, Mecocci P, Vellas B, Tsolaki M, Kloszewska I, Soininen H, Spenger C, et al. 2015. Automated hippocampal subfield measures as predictors of conversion from mild cognitive impairment to Alzheimer’s disease in two independent cohorts. Brain Topography. 28:746–759.
  • Kim YS, Lee KM, Choi BH, Sohn EH, Lee AY. 2009. Relation between the clock drawing test (CDT) and structural changes of brain in dementia. Arch Gerontol Geriatr. 48:218–221.
  • Levy R. 1994. Aging-associated cognitive decline. Working Party of the International Psychogeriatric Association in collaboration with the World Health Organization. Int Psychogeriatr. 6:63–68.
  • Li S, Shi F, Pu F, Li X, Jiang T, Xie S, Wang Y. 2007. Hippocampal shape analysis of Alzheimer disease based on machine learning methods. AJNR Am J Neuroradiol. 28:1339–1345.
  • Lim HK, Hong SC, Jung WS, Ahn KJ, Won WY, Hahn C, Kim IS, Lee CU. 2013. Automated segmentation of hippocampal subfields in drug-naïve patients with Alzheimer disease. AJNR Am J Neuroradiol. 34:747–751.
  • Malkova L, Mishkin M. 2003. One-trial memory for object-place associations after separate lesions of hippocampus and posterior parahippocampal region in the monkey. J Neurosci. 23:1956–1965.
  • McGarrity S, Mason R, Fone KC, Pezze M, Bast T. 2016. Hippocampal neural disinhibition causes attentional and memory deficits. Cereb Cortex. doi:10.1093/cercor/bhw247
  • McKhann G, Drachman D, Folstein M, Katzman R, Price D, Stadlan EM. 1984. Clinical diagnosis of Alzheimer’s disease: report of the NINCDS-ADRDA work group under the auspices of department of health and human services task force on Alzheimer’s Disease. Neurology. 34:939–944.
  • Mendez MF, Ala T, Underwood KL. 1992. Development of scoring criteria for the clock drawing task in Alzheimer’s disease. J Am Geriatr Soc. 40:1095–1099.
  • Molnar K, Keri S. 2014. Bigger is better and worse: on the intricate relationship between hippocampal size and memory. Neuropsychologia. 56:73–78.
  • Morris JC, Heyman A, Mohs RC, Hughes JP, van Belle G, Fillenbaum G, Mellits ED, Clark C. 1989. The consortium to establish a registry for Alzheimer’s disease (CERAD). Part I. Clinical and neuropsychological assessment of Alzheimer’s disease. Neurology. 39:1159–1165.
  • Mueller SG, Schuff N, Yaffe K, Madison C, Miller B, Weiner MW. 2010. Hippocampal atrophy patterns in mild cognitive impairment and Alzheimer’s disease. Hum Brain Map. 31:1339–1347.
  • Mulder ER, de Jong RA, Knol DL, van Schijndel RA, Cover KS, Visser PJ, Barkhof F, Vrenken H. Alzheimer’s Disease Neuroimaging Initiative. 2014. Hippocampal volume change measurement: quantitative assessment of the reproducibility of expert manual outlining and the automated methods FreeSurfer and FIRST. NeuroImage. 92:169–181.
  • Nagahama Y, Okina T, Suzuki N, Nabatame H, Matsuda M. 2005. Neural correlates of impaired performance on the clock drawing test in Alzheimer’s disease. Dement Geriatr Cogn Disord. 19:390–396.
  • O'Mara S. 2006a. Controlling hippocampal output: the central role of subiculum in hippocampal information processing. Behav Brain Res. 174:304–312.
  • O'Mara S. 2006b. Integrating the subiculum into hippocampal formation circuitry and the control of instrumental behavior: theoretical comment on Andrzejewski, Spencer, and Kelley (2006). Behav Neurosci. 120:739–743.
  • O'Mara S. 2006c. The mammalian subiculum: contrasting and complementary in vivo and in vitro approaches to subicular function. Behav Brain Res. 174:197.
  • Park S, Chun MM. 2009. Different roles of the parahippocampal place area (PPA) and retrosplenial cortex (RSC) in panoramic scene perception. NeuroImage. 47:1747–1756.
  • Perrotin A, de Flores R, Lamberton F, Poisnel G, La Joie R, de la Sayette V, Mezenge F, Tomadesso C, Landeau B, Desgranges B, et al. 2015. Hippocampal subfield volumetry and 3D surface mapping in subjective cognitive decline. J Alzheimers Dis. 48(Suppl 1):S141–S150.
  • R Development Core Team. 2016. R: a language and environment for statistical computing. Vienna (Austria): R Foundation for Statistical Computing.
  • Ranganath C, Hsieh LT. 2016. The hippocampus: a special place for time. Ann NY Acad Sci. 1369:93–110.
  • Ritchie K, Artero S, Touchon J. 2001. Classification criteria for mild cognitive impairment: a population-based validation study. Neurology. 56:37–42.
  • Royall DR, Cordes JA, Polk M. 1998. CLOX: an executive clock drawing task. J Neurol Neurosurg Psychiatry. 64:588–594.
  • Scher AI, Xu Y, Korf ES, White LR, Scheltens P, Toga AW, Thompson PM, Hartley SW, Witter MP, Valentino DJ, et al. 2007. Hippocampal shape analysis in Alzheimer’s disease: a population-based study. NeuroImage. 36:8–18.
  • Schonknecht P, Pantel J, Kruse A, Schroder J. 2005. Prevalence and natural course of aging-associated cognitive decline in a population-based sample of young-old subjects. Am J Psychiatry. 162:2071–2077.
  • Schouten TM, Koini M, de Vos F, Seiler S, van der Grond J, Lechner A, Hafkemeijer A, Moller C, Schmidt R, de Rooij M, et al. 2016. Combining anatomical, diffusion, and resting state functional magnetic resonance imaging for individual classification of mild and moderate Alzheimer’s disease. NeuroImage Clin. 11:46–51.
  • Schroder J, Kratz B, Pantel J, Minnemann E, Lehr U, Sauer H. 1998. Prevalence of mild cognitive impairment in an elderly community sample. J Neural Transm Suppl. 54:51–59.
  • Seidl U, Traeger TV, Hirjak D, Remmele B, Wolf RC, Kaiser E, Stieltjes B, Essig M, Schroder J, Thomann PA. 2012. Subcortical morphological correlates of impaired clock drawing performance. Neurosci Lett. 512:28–32.
  • Shulman KI. 2000. Clock-drawing: is it the ideal cognitive screening test? Int J Geriatr Psychiatry. 15:548–561.
  • Shulman KI, Gold DP, Cohen CA, Zucchero CA. 1993. Clock-drawing and dementia in the community: a longitudinal study. Int J Geriatr Psychiatry. 8:487–496.
  • Shulman KI, Shedletsky R, Silver IL. 1986. The challenge of time: clock-drawing and cognitive function in the elderly. Int J Geriatr Psychiatry. 1:135–140.
  • Simon N, Friedman J, Hastie T, Tibshirani R. 2011. Regularization paths for Cox's proportional hazards model via coordinate descent. J Statis Software. 39:1–13.
  • Sing T, Sander O, Beerenwinkel N, Lengauer T. 2005. ROCR: visualizing classifier performance in R. Bioinformatics. 21:3940–3941.
  • Tan LP, Herrmann N, Mainland BJ, Shulman K. 2015. Can clock drawing differentiate Alzheimer’s disease from other dementias? Int Psychogeriatr. 27:1649–1660.
  • Teipel SJ, Kurth J, Krause B, Grothe MJ, Alzheimer’s Disease Neuroimaging Initiative. 2015. The relative importance of imaging markers for the prediction of Alzheimer’s disease dementia in mild cognitive impairment: beyond classical regression. NeuroImage Clin. 8:583–593.
  • Tepest R, Wang L, Csernansky JG, Neubert P, Heun R, Scheef L, Jessen F. 2008. Hippocampal surface analysis in subjective memory impairment, mild cognitive impairment and Alzheimer’s dementia. Dementia Geriatr Cogn Disord. 26:323–329.
  • Thomann PA, Seidl U, Brinkmann J, Hirjak D, Traeger T, Wolf RC, Essig M, Schroder J. 2012. Hippocampal morphology and autobiographic memory in mild cognitive impairment and Alzheimer’s disease. Curr Alzheimer Res. 9:507–515.
  • Thomann PA, Toro P, Dos Santos V, Essig M, Schroder J. 2008. Clock drawing performance and brain morphology in mild cognitive impairment and Alzheimer’s disease. Brain Cogn. 67:88–93.
  • Van Leemput K, Bakkour A, Benner T, Wiggins G, Wald LL, Augustinack J, Dickerson BC, Golland P, Fischl B. 2009. Automated segmentation of hippocampal subfields from ultra-high resolution in vivo MRI. Hippocampus. 19:549–557.
  • Van Petten C. 2004. Relationship between hippocampal volume and memory ability in healthy individuals across the lifespan: review and meta-analysis. Neuropsychologia. 42:1394–1413.
  • Van Petten C, Plante E, Davidson PS, Kuo TY, Bajuscak L, Glisky EL. 2004. Memory and executive function in older adults: relationships with temporal and prefrontal gray matter volumes and white matter hyperintensities. Neuropsychologia. 42:1313–1335.
  • Whelan CD, Hibar DP, van Velzen LS, Zannas AS, Carrillo-Roa T, McMahon K, Prasad G, Kelly S, Faskowitz J, deZubiracay G, et al. 2016. Heritability and reliability of automatically segmented human hippocampal formation subregions. NeuroImage. 128:125–137.
  • Wisniewski HM, Sadowski M, Jakubowska-Sadowska K, Tarnawski M, Wegiel J. 1998. Diffuse, lake-like amyloid-beta deposits in the parvopyramidal layer of the presubiculum in Alzheimer disease. J Neuropathol Exp Neurol. 57:674–683.
  • Wisse LE, Biessels GJ, Geerlings MI. 2014. A critical appraisal of the hippocampal subfield segmentation package in freesurfer. Front Aging Neurosci. 6:261.
  • Wisse LE, Reijmer YD, ter Telgte A, Kuijf HJ, Leemans A, Luijten PR, Koek HL, Geerlings MI, Biessels GJ. Utrecht Vascular Cognitive Impairment Study Group. 2015. Hippocampal disconnection in early Alzheimer’s disease: a 7 tesla MRI study. J Alzheimers Dis. 45:1247–1256.
  • Witter MP, Groenewegen HJ. 1990. The subiculum: cytoarchitectonically a simple structure, but hodologically complex. In: Understanding the brain through the hip- pocampus progress in brain research. Amsterdam (The Netherlands): Elsevier. p. 47–58.
  • Yesavage JA, Brink TL, Rose TL, Lum O, Huang V, Adey M, Leirer VO. 1982. Development and validation of a geriatric depression screening scale: a preliminary report. J Psychiatr Res. 17:37–49.

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