BACKGROUND: Mutations in the presenilin (PSEN1, PSEN2) and amyloid precursor protein (APP) genes cause familial Alzheimer's disease (FAD) in a nearly fully penetrant, autosomal dominant manner, providing a unique opportunity to study presymptomatic individuals who can be predicted to develop Alzheimer's disease (AD) with essentially 100% certainty. Using tensor-based morphometry (TBM), we examined brain volume differences between presymptomatic and symptomatic FAD mutation carriers and non-carrier (NC) relatives. METHODS: Twenty-five mutation carriers and 10 NC relatives underwent brain MRI and clinical assessment. Four mutation carriers had dementia (MUT-Dem), 12 had amnestic mild cognitive impairment (MUT-aMCI) and nine were cognitively normal (MUT-Norm). TBM brain volume maps of MUT-Norm, MUT-aMCI and MUT-Dem subjects were compared to NC subjects. RESULTS: MUT-Norm subjects exhibited significantly smaller volumes in the thalamus, caudate and putamen. MUT-aMCI subjects had smaller volumes in the thalamus, splenium and pons, but not in the caudate or putamen. MUT-Dem subjects demonstrated smaller volumes in temporal, parietal and left frontal regions. As non-demented carriers approached the expected age of dementia diagnosis, this was associated with larger ventricular and caudate volumes and a trend towards smaller temporal lobe volume. CONCLUSIONS: Cognitively intact FAD mutation carriers had lower thalamic, caudate and putamen volumes, and we found preliminary evidence for increasing caudate size during the predementia stage. These regions may be affected earliest during prodromal stages of FAD, while cortical atrophy may occur in later stages, when carriers show cognitive deficits. Further studies of this population will help us understand the progression of neurobiological changes in AD.
BACKGROUND: Mutations in the presenilin (PSEN1, PSEN2) and amyloid precursor protein (APP) genes cause familial Alzheimer's disease (FAD) in a nearly fully penetrant, autosomal dominant manner, providing a unique opportunity to study presymptomatic individuals who can be predicted to develop Alzheimer's disease (AD) with essentially 100% certainty. Using tensor-based morphometry (TBM), we examined brain volume differences between presymptomatic and symptomatic FAD mutation carriers and non-carrier (NC) relatives. METHODS: Twenty-five mutation carriers and 10 NC relatives underwent brain MRI and clinical assessment. Four mutation carriers had dementia (MUT-Dem), 12 had amnestic mild cognitive impairment (MUT-aMCI) and nine were cognitively normal (MUT-Norm). TBM brain volume maps of MUT-Norm, MUT-aMCI and MUT-Dem subjects were compared to NC subjects. RESULTS: MUT-Norm subjects exhibited significantly smaller volumes in the thalamus, caudate and putamen. MUT-aMCI subjects had smaller volumes in the thalamus, splenium and pons, but not in the caudate or putamen. MUT-Dem subjects demonstrated smaller volumes in temporal, parietal and left frontal regions. As non-demented carriers approached the expected age of dementia diagnosis, this was associated with larger ventricular and caudate volumes and a trend towards smaller temporal lobe volume. CONCLUSIONS: Cognitively intact FAD mutation carriers had lower thalamic, caudate and putamen volumes, and we found preliminary evidence for increasing caudate size during the predementia stage. These regions may be affected earliest during prodromal stages of FAD, while cortical atrophy may occur in later stages, when carriers show cognitive deficits. Further studies of this population will help us understand the progression of neurobiological changes in AD.
Authors: John M Ringman; Karen H Gylys; Luis D Medina; Michelle Fox; Vladimir Kepe; Deborah L Flores; Liana G Apostolova; Jorge R Barrio; Gary Small; Daniel H Silverman; Erin Siu; Stephen Cederbaum; Silva Hecimovic; Martina Malnar; Suma Chakraverty; Alison M Goate; Thomas D Bird; James B Leverenz Journal: Neurosci Lett Date: 2010-11-19 Impact factor: 3.046
Authors: M H Tabert; S M Albert; L Borukhova-Milov; Y Camacho; G Pelton; X Liu; Y Stern; D P Devanand Journal: Neurology Date: 2002-03-12 Impact factor: 9.910
Authors: C F Lippa; J M Swearer; K J Kane; D Nochlin; T D Bird; B Ghetti; L E Nee; P St George-Hyslop; D A Pollen; D A Drachman Journal: Ann Neurol Date: 2000-09 Impact factor: 10.422
Authors: T H Lampe; T D Bird; D Nochlin; E Nemens; S C Risse; S M Sumi; R Koerker; B Leaird; M Wier; M A Raskind Journal: Ann Neurol Date: 1994-09 Impact factor: 10.422
Authors: William E Klunk; Julie C Price; Chester A Mathis; Nicholas D Tsopelas; Brian J Lopresti; Scott K Ziolko; Wenzhu Bi; Jessica A Hoge; Ann D Cohen; Milos D Ikonomovic; Judith A Saxton; Beth E Snitz; Daniel A Pollen; Majaz Moonis; Carol F Lippa; Joan M Swearer; Keith A Johnson; Dorene M Rentz; Alan J Fischman; Howard J Aizenstein; Steven T DeKosky Journal: J Neurosci Date: 2007-06-06 Impact factor: 6.167
Authors: Rachael I Scahill; Jonathan M Schott; John M Stevens; Martin N Rossor; Nick C Fox Journal: Proc Natl Acad Sci U S A Date: 2002-04-02 Impact factor: 11.205
Authors: Randall J Bateman; Paul S Aisen; Bart De Strooper; Nick C Fox; Cynthia A Lemere; John M Ringman; Stephen Salloway; Reisa A Sperling; Manfred Windisch; Chengjie Xiong Journal: Alzheimers Res Ther Date: 2011-01-06 Impact factor: 6.982
Authors: Grace J Lee; Po H Lu; Michelle J Mather; Jill Shapira; Elvira Jimenez; Alex D Leow; Paul M Thompson; Mario F Mendez Journal: J Alzheimers Dis Date: 2014 Impact factor: 4.472
Authors: Debra A Fleischman; Sue Leurgans; Konstantinos Arfanakis; Zoe Arvanitakis; Lisa L Barnes; Patricia A Boyle; S Duke Han; David A Bennett Journal: Brain Struct Funct Date: 2013-08-17 Impact factor: 3.270
Authors: Li Juan Zheng; Yun Yan Su; Yun Fei Wang; U Joseph Schoepf; Akos Varga-Szemes; Jonathan Pannell; Xue Liang; Gang Zheng; Guang Ming Lu; Gui Fen Yang; Long Jiang Zhang Journal: Mol Neurobiol Date: 2017-05-13 Impact factor: 5.590
Authors: Adam S Fleisher; Kewei Chen; Yakeel T Quiroz; Laura J Jakimovich; Madelyn Gutierrez Gomez; Carolyn M Langois; Jessica B S Langbaum; Auttawut Roontiva; Pradeep Thiyyagura; Wendy Lee; Napatkamon Ayutyanont; Liliana Lopez; Sonia Moreno; Claudia Muñoz; Victoria Tirado; Natalia Acosta-Baena; Anne M Fagan; Margarita Giraldo; Gloria Garcia; Matthew J Huentelman; Pierre N Tariot; Francisco Lopera; Eric M Reiman Journal: JAMA Neurol Date: 2015-03 Impact factor: 18.302
Authors: Mitsuru Shinohara; Shinsuke Fujioka; Melissa E Murray; Aleksandra Wojtas; Matthew Baker; Anne Rovelet-Lecrux; Rosa Rademakers; Pritam Das; Joseph E Parisi; Neill R Graff-Radford; Ronald C Petersen; Dennis W Dickson; Guojun Bu Journal: Brain Date: 2014-03-12 Impact factor: 13.501
Authors: Enmanuelle Pardilla-Delgado; Heirangi Torrico-Teave; Justin S Sanchez; Liliana A Ramirez-Gomez; Ana Baena; Yamile Bocanegra; Clara Vila-Castelar; Joshua T Fox-Fuller; Edmarie Guzmán-Vélez; Jairo Martínez; Sergio Alvarez; Martin Ochoa-Escudero; Francisco Lopera; Yakeel T Quiroz Journal: Brain Commun Date: 2021-05-10
Authors: Tammie L S Benzinger; Tyler Blazey; Clifford R Jack; Robert A Koeppe; Yi Su; Chengjie Xiong; Marcus E Raichle; Abraham Z Snyder; Beau M Ances; Randall J Bateman; Nigel J Cairns; Anne M Fagan; Alison Goate; Daniel S Marcus; Paul S Aisen; Jon J Christensen; Lindsay Ercole; Russ C Hornbeck; Angela M Farrar; Patricia Aldea; Mateusz S Jasielec; Christopher J Owen; Xianyun Xie; Richard Mayeux; Adam Brickman; Eric McDade; William Klunk; Chester A Mathis; John Ringman; Paul M Thompson; Bernardino Ghetti; Andrew J Saykin; Reisa A Sperling; Keith A Johnson; Stephen Salloway; Stephen Correia; Peter R Schofield; Colin L Masters; Christopher Rowe; Victor L Villemagne; Ralph Martins; Sebastien Ourselin; Martin N Rossor; Nick C Fox; David M Cash; Michael W Weiner; David M Holtzman; Virginia D Buckles; Krista Moulder; John C Morris Journal: Proc Natl Acad Sci U S A Date: 2013-11-05 Impact factor: 11.205