OBJECTIVE: To evaluate the spatial pattern and regional rates of neocortical atrophy from normal aging to early Alzheimer disease (AD). METHODS: Longitudinal MRI data were analyzed using high-throughput image analysis procedures for 472 individuals diagnosed as normal, mild cognitive impairment (MCI), or AD. Participants were divided into 4 groups based on Clinical Dementia Rating Sum of Boxes score (CDR-SB). Annual atrophy rates were derived by calculating percent cortical volume loss between baseline and 12-month scans. Repeated-measures analyses of covariance were used to evaluate group differences in atrophy rates across regions as a function of impairment. Planned comparisons were used to evaluate the change in atrophy rates across levels of disease severity. RESULTS: In patients with MCI-CDR-SB 0.5-1, annual atrophy rates were greatest in medial temporal, middle and inferior lateral temporal, inferior parietal, and posterior cingulate. With increased impairment (MCI-CDR-SB 1.5-2.5), atrophy spread to parietal, frontal, and lateral occipital cortex, followed by anterior cingulate cortex. Analysis of regional trajectories revealed increasing rates of atrophy across all neocortical regions with clinical impairment. However, increases in atrophy rates were greater in early disease within medial temporal cortex, whereas increases in atrophy rates were greater at later stages in prefrontal, parietal, posterior temporal, parietal, and cingulate cortex. CONCLUSIONS: Atrophy is not uniform across regions, nor does it follow a linear trajectory. Knowledge of the spatial pattern and rate of decline across the spectrum from normal aging to Alzheimer disease can provide valuable information for detecting early disease and monitoring treatment effects at different stages of disease progression.
OBJECTIVE: To evaluate the spatial pattern and regional rates of neocortical atrophy from normal aging to early Alzheimer disease (AD). METHODS: Longitudinal MRI data were analyzed using high-throughput image analysis procedures for 472 individuals diagnosed as normal, mild cognitive impairment (MCI), or AD. Participants were divided into 4 groups based on Clinical Dementia Rating Sum of Boxes score (CDR-SB). Annual atrophy rates were derived by calculating percent cortical volume loss between baseline and 12-month scans. Repeated-measures analyses of covariance were used to evaluate group differences in atrophy rates across regions as a function of impairment. Planned comparisons were used to evaluate the change in atrophy rates across levels of disease severity. RESULTS: In patients with MCI-CDR-SB 0.5-1, annual atrophy rates were greatest in medial temporal, middle and inferior lateral temporal, inferior parietal, and posterior cingulate. With increased impairment (MCI-CDR-SB 1.5-2.5), atrophy spread to parietal, frontal, and lateral occipital cortex, followed by anterior cingulate cortex. Analysis of regional trajectories revealed increasing rates of atrophy across all neocortical regions with clinical impairment. However, increases in atrophy rates were greater in early disease within medial temporal cortex, whereas increases in atrophy rates were greater at later stages in prefrontal, parietal, posterior temporal, parietal, and cingulate cortex. CONCLUSIONS:Atrophy is not uniform across regions, nor does it follow a linear trajectory. Knowledge of the spatial pattern and rate of decline across the spectrum from normal aging to Alzheimer disease can provide valuable information for detecting early disease and monitoring treatment effects at different stages of disease progression.
Authors: Bruce Fischl; David H Salat; Evelina Busa; Marilyn Albert; Megan Dieterich; Christian Haselgrove; Andre van der Kouwe; Ron Killiany; David Kennedy; Shuna Klaveness; Albert Montillo; Nikos Makris; Bruce Rosen; Anders M Dale Journal: Neuron Date: 2002-01-31 Impact factor: 17.173
Authors: Rahul S Desikan; Florent Ségonne; Bruce Fischl; Brian T Quinn; Bradford C Dickerson; Deborah Blacker; Randy L Buckner; Anders M Dale; R Paul Maguire; Bradley T Hyman; Marilyn S Albert; Ronald J Killiany Journal: Neuroimage Date: 2006-03-10 Impact factor: 6.556
Authors: Jonathan H Morra; Zhuowen Tu; Liana G Apostolova; Amity E Green; Christina Avedissian; Sarah K Madsen; Neelroop Parikshak; Arthur W Toga; Clifford R Jack; Norbert Schuff; Michael W Weiner; Paul M Thompson Journal: Neuroimage Date: 2008-11-08 Impact factor: 6.556
Authors: Frank Ezekiel; Linda Chao; John Kornak; An-Tao Du; Valerie Cardenas; Diana Truran; William Jagust; Helena Chui; Bruce Miller; Kristine Yaffe; Norbert Schuff; Michael Weiner Journal: Alzheimer Dis Assoc Disord Date: 2004 Oct-Dec Impact factor: 2.703
Authors: C A Lynch; C Walsh; A Blanco; M Moran; R F Coen; J B Walsh; B A Lawlor Journal: Dement Geriatr Cogn Disord Date: 2005-10-25 Impact factor: 2.959
Authors: J L Whitwell; M M Shiung; S A Przybelski; S D Weigand; D S Knopman; B F Boeve; R C Petersen; C R Jack Journal: Neurology Date: 2007-09-26 Impact factor: 9.910
Authors: Dennis Chan; John C Janssen; Jennifer L Whitwell; Hilary C Watt; Rhian Jenkins; Chris Frost; Martin N Rossor; Nick C Fox Journal: Lancet Date: 2003-10-04 Impact factor: 79.321
Authors: Clifford R Jack; Matt A Bernstein; Bret J Borowski; Jeffrey L Gunter; Nick C Fox; Paul M Thompson; Norbert Schuff; Gunnar Krueger; Ronald J Killiany; Charles S Decarli; Anders M Dale; Owen W Carmichael; Duygu Tosun; Michael W Weiner Journal: Alzheimers Dement Date: 2010-05 Impact factor: 21.566
Authors: Michael W Weiner; Paul S Aisen; Clifford R Jack; William J Jagust; John Q Trojanowski; Leslie Shaw; Andrew J Saykin; John C Morris; Nigel Cairns; Laurel A Beckett; Arthur Toga; Robert Green; Sarah Walter; Holly Soares; Peter Snyder; Eric Siemers; William Potter; Patricia E Cole; Mark Schmidt Journal: Alzheimers Dement Date: 2010-05 Impact factor: 21.566
Authors: Michael W Weiner; Dallas P Veitch; Paul S Aisen; Laurel A Beckett; Nigel J Cairns; Robert C Green; Danielle Harvey; Clifford R Jack; William Jagust; Enchi Liu; John C Morris; Ronald C Petersen; Andrew J Saykin; Mark E Schmidt; Leslie Shaw; Judith A Siuciak; Holly Soares; Arthur W Toga; John Q Trojanowski Journal: Alzheimers Dement Date: 2011-11-02 Impact factor: 21.566
Authors: Katherine Reiter; Kathryn I Alpert; Derin J Cobia; Mary J Kwasny; John C Morris; John C Csernansky; Lei Wang Journal: Neuroimage Date: 2012-04-05 Impact factor: 6.556
Authors: Shannon L Risacher; Li Shen; John D West; Sungeun Kim; Brenna C McDonald; Laurel A Beckett; Danielle J Harvey; Clifford R Jack; Michael W Weiner; Andrew J Saykin Journal: Neurobiol Aging Date: 2010-08 Impact factor: 4.673
Authors: Philip S Insel; Niklas Mattsson; Michael C Donohue; R Scott Mackin; Paul S Aisen; Clifford R Jack; Leslie M Shaw; John Q Trojanowski; Michael W Weiner Journal: Alzheimers Dement Date: 2014-12-09 Impact factor: 21.566
Authors: Noll L Campbell; Fred Unverzagt; Michael A LaMantia; Babar A Khan; Malaz A Boustani Journal: Clin Geriatr Med Date: 2013-11 Impact factor: 3.076
Authors: Anders M Fjell; Kristine B Walhovd; Christine Fennema-Notestine; Linda K McEvoy; Donald J Hagler; Dominic Holland; James B Brewer; Anders M Dale Journal: J Neurosci Date: 2009-12-02 Impact factor: 6.167