Predicting the progression of MCI and Alzheimer’s disease on structural brain integrity and other features with machine learning

for the Alzheimer's Disease Neuroimaging Initiative; Marthe Mieling; Mushfa Yousuf; Nico Bunzeck; Kenneth Spicer; Crystal Flynn Longmire; Jacobo Mintzer; Yaneicy Gonazalez Rojas; V. Sotelo; William Hu; Floyd Jones; Amy Saklad; Sudha Seshadri; Amy Boegel; Sydni Jenee Hill; Paul Newhouse; Rebecca Long; Campbell Long; Arthur Williams; Allison Acree; Olga Brawman-Mintzer; Chelsea Reichert; Vita Pomara; Raymundo Hernando; Nunzio Pomara; Skieff Acothley; Nadeen Elayan; Micah Ellis Slaughter; Angelica Garcia; Marwan Sabbagh; Maushami Gurung; Richard Le; Joseph Masdeu; Christina Rosario; Caroline Smith; Teresa Kalowsky; Edgardo Rivera; Hamid Okhravi; Rebecca Devine; Meagan Yong; Emily Roglaski; Juris Janavs; Jenny Echevarria; Ijeoma Mba; Amanda Smith; Bruce L. Miller; Howard J. Rosen; Morgan Blackburn; Charles Windon; Stephen Correia; Paul Malloy; Stephen Salloway; Meghan Riddle; Victoria Sanborn; Terry Fogerty; Scott Warren; Ronald Bailey; Mauro Veras Acosta; Marie Amoyaw; Kerstin Doyon; Jennifer Davis; Jan Clark; Daniel Arcuri; Ava Stipanovich; Alexis DeMarco; Chuang Kuo Wu; William Harrison; Wendy Baker; Samantha Rogers; Michael Shannon; Bevan Hoover; Lena Moretz; Joseph Bottoms; Susan Henkle; Sarah Bohlman; Phillip Hunter Ledford; Mikell White; Jennifer Rowell; Eboni Walker; Deb Thompson; Freda Crawford; James Bateman; Ezequiel Zamora; Karen Gagnon; Abigail O’Connell; Crystal Duncan; Andrea Williams; Alicia Jessup; Jeff Williamson; Eben S. Schwartz; Robert B. Santulli; Karen Anderson; Karen Blank; Godfrey D. Pearlson; Wendy Stewart; Tuba Ahmed; Steven Presto; Michael Reposa; Katlynn Patterson; Heather Bauerle; Chris Figueroa; Alicia Leader; Dzintra Celmins; Brendan Kelley; Rawan Tarawneh; Maria Kataki; Soumya Bouchachi; Arun Ramamurthy; Douglas W. Scharre; Wisam Elmalik; Violet Wenner; Vernice Bates; Traci Aladeen; Todd Peehler; Tatiana Jimenez-Knight; Stephanie O’Malley; Scott Wisniewski; Richard Zawislak; Michelle Rainka; Michael Asbach; Megan King; Laszlo Mechtler; Joseph Hirtreiter; Jonathan Falletta; Heather Macnamara; Erin Fransen; Delaney Fragale; Daryn Slazyk; Bennett Myers; Benjamin Wagner; Bela Ajtai; Anna Mattle; Allison Emborsky; Horacio Capote; Stephanie Reeder; Adam Fleisher; Pierre Tariot; Allison Perrin; Cynthia M. Carlsson; Sanjay Asthana; Sterling Johnson; Rob Bartha; T. Y. Lee; Michael Borrie; Talia Hamm; Sandra Calderon; Richard Isip; Queennie Majorie S. Kahulugan; Meghan Sinn; Martha Forloines; Maria Gallegos; Kristi Ayers; Kelly Wallace; Hongzheng Zhang; Hitesh Patel; Heather Russell; Hafsanoor Vanya; David Bissig; Costin Tanase; Andres Soto; Doris Chen; Stacy Pot; Sarah Ash; Paula Ogrocki; Parianne Fatica; Melissa Hamski; Martin Ayres; Marianne Sanders; Maria Toth; Katherine Stapleton; Ariana Moss; Charles Duffy; Oshoze Kadiri; Kyliah Hughes; Jillian Turner; Javed Khan; Immaculata Okonkwo; Ifreke Udodong; Debra Ordor; Andrew Stone; Thomas Obisesan; Ycar Devis; Wendy Qiu; Steven Lenio; Sarab Singh; Ronald Killiany; Ridiane Denis; Eric Steinberg; Mona Lauture; Olivia Schultz; Michael Alosco; Alexa Puleio; Jane Mwicigi; Gregory Day; Robert Swarm; Lesley Rao; Cyrus Raji; Justin Long; Ronald Petersen; John Morris; Richard J. Perrin

doi:10.1007/s11357-025-01626-5

Predicting the progression of MCI and Alzheimer’s disease on structural brain integrity and other features with machine learning

for the Alzheimer's Disease Neuroimaging Initiative
, Marthe Mieling
, Mushfa Yousuf
, Nico Bunzeck
, Kenneth Spicer
, Crystal Flynn Longmire
, Jacobo Mintzer
, Yaneicy Gonazalez Rojas
, V. Sotelo
, William Hu
, Floyd Jones
, Amy Saklad
, Sudha Seshadri
, Amy Boegel
, Sydni Jenee Hill
, Paul Newhouse
, Rebecca Long
, Campbell Long
, Arthur Williams
, Allison Acree

Olga Brawman-Mintzer, Chelsea Reichert, Vita Pomara, Raymundo Hernando, Nunzio Pomara, Skieff Acothley, Nadeen Elayan, Micah Ellis Slaughter, Angelica Garcia, Marwan Sabbagh, Maushami Gurung, Richard Le, Joseph Masdeu, Christina Rosario, Caroline Smith, Teresa Kalowsky, Edgardo Rivera, Hamid Okhravi, Rebecca Devine, Meagan Yong, Emily Roglaski, Juris Janavs, Jenny Echevarria, Ijeoma Mba, Amanda Smith, Bruce L. Miller, Howard J. Rosen, Morgan Blackburn, Charles Windon, Stephen Correia, Paul Malloy, Stephen Salloway, Meghan Riddle, Victoria Sanborn, Terry Fogerty, Scott Warren, Ronald Bailey, Mauro Veras Acosta, Marie Amoyaw, Kerstin Doyon, Jennifer Davis, Jan Clark, Daniel Arcuri, Ava Stipanovich, Alexis DeMarco, Chuang Kuo Wu, William Harrison, Wendy Baker, Samantha Rogers, Michael Shannon, Bevan Hoover, Lena Moretz, Joseph Bottoms, Susan Henkle, Sarah Bohlman, Phillip Hunter Ledford, Mikell White, Jennifer Rowell, Eboni Walker, Deb Thompson, Freda Crawford, James Bateman, Ezequiel Zamora, Karen Gagnon, Abigail O’Connell, Crystal Duncan, Andrea Williams, Alicia Jessup, Jeff Williamson, Eben S. Schwartz, Robert B. Santulli, Karen Anderson, Karen Blank, Godfrey D. Pearlson, Wendy Stewart, Tuba Ahmed, Steven Presto, Michael Reposa, Katlynn Patterson, Heather Bauerle, Chris Figueroa, Alicia Leader, Dzintra Celmins, Brendan Kelley, Rawan Tarawneh, Maria Kataki, Soumya Bouchachi, Arun Ramamurthy, Douglas W. Scharre, Wisam Elmalik, Violet Wenner, Vernice Bates, Traci Aladeen, Todd Peehler, Tatiana Jimenez-Knight, Stephanie O’Malley, Scott Wisniewski, Richard Zawislak, Michelle Rainka, Michael Asbach, Megan King, Laszlo Mechtler, Joseph Hirtreiter, Jonathan Falletta, Heather Macnamara, Erin Fransen, Delaney Fragale, Daryn Slazyk, Bennett Myers, Benjamin Wagner, Bela Ajtai, Anna Mattle, Allison Emborsky, Horacio Capote, Stephanie Reeder, Adam Fleisher, Pierre Tariot, Allison Perrin, Cynthia M. Carlsson, Sanjay Asthana, Sterling Johnson, Rob Bartha, T. Y. Lee, Michael Borrie, Talia Hamm, Sandra Calderon, Richard Isip, Queennie Majorie S. Kahulugan, Meghan Sinn, Martha Forloines, Maria Gallegos, Kristi Ayers, Kelly Wallace, Hongzheng Zhang, Hitesh Patel, Heather Russell, Hafsanoor Vanya, David Bissig, Costin Tanase, Andres Soto, Doris Chen, Stacy Pot, Sarah Ash, Paula Ogrocki, Parianne Fatica, Melissa Hamski, Martin Ayres, Marianne Sanders, Maria Toth, Katherine Stapleton, Ariana Moss, Charles Duffy, Oshoze Kadiri, Kyliah Hughes, Jillian Turner, Javed Khan, Immaculata Okonkwo, Ifreke Udodong, Debra Ordor, Andrew Stone, Thomas Obisesan, Ycar Devis, Wendy Qiu, Steven Lenio, Sarab Singh, Ronald Killiany, Ridiane Denis, Eric Steinberg, Mona Lauture, Olivia Schultz, Michael Alosco, Alexa Puleio, Jane Mwicigi, Gregory Day, Robert Swarm, Lesley Rao, Cyrus Raji, Justin Long, Ronald Petersen, John Morris, Richard J. Perrin

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Machine learning (ML) on structural MRI data shows high potential for classifying Alzheimer’s disease (AD) progression, but the specific contribution of brain regions, demographics, and proteinopathy remains unclear. Using Alzheimer’s Disease Neuroimaging Initiative (ADNI) data, we applied an extreme gradient-boosting algorithm and SHAP (SHapley Additive exPlanations) values to classify cognitively normal (CN) older adults, those with mild cognitive impairment (MCI) and AD dementia patients. Features included structural MRI, CSF status, demographics, and genetic data. Analyses comprised one cross-sectional multi-class classification (CN vs. MCI vs. AD dementia, n = 568) and two longitudinal binary-class classifications (CN-to-MCI converters vs. CN stable, n = 92; MCI-to-AD converters vs. MCI stable, n = 378). All classifications achieved 70–77% accuracy and 61–83% precision. Key features were CSF status, hippocampal volume, entorhinal thickness, and amygdala volume, with a clear dissociation: hippocampal properties contributed to the conversion to MCI, while the entorhinal cortex characterized the conversion to AD dementia. The findings highlight explainable, trajectory-specific insights into AD progression.

Original language	English
Journal	GeroScience
DOIs	https://doi.org/10.1007/s11357-025-01626-5
State	Accepted/In press - 2025

Keywords

Alzheimer’s disease
Classification
Machine learning
Magnetic resonance imaging
Structural degeneration

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10.1007/s11357-025-01626-5

Cite this

for the Alzheimer's Disease Neuroimaging Initiative, Mieling, M., Yousuf, M., Bunzeck, N., Spicer, K., Longmire, C. F., Mintzer, J., Rojas, Y. G., Sotelo, V., Hu, W., Jones, F., Saklad, A., Seshadri, S., Boegel, A., Hill, S. J., Newhouse, P., Long, R., Long, C., Williams, A., ... Perrin, R. J. (Accepted/In press). Predicting the progression of MCI and Alzheimer’s disease on structural brain integrity and other features with machine learning. GeroScience. https://doi.org/10.1007/s11357-025-01626-5

@article{a6d91362598d415ca9325f707daad9f0,

title = "Predicting the progression of MCI and Alzheimer{\textquoteright}s disease on structural brain integrity and other features with machine learning",

abstract = "Machine learning (ML) on structural MRI data shows high potential for classifying Alzheimer{\textquoteright}s disease (AD) progression, but the specific contribution of brain regions, demographics, and proteinopathy remains unclear. Using Alzheimer{\textquoteright}s Disease Neuroimaging Initiative (ADNI) data, we applied an extreme gradient-boosting algorithm and SHAP (SHapley Additive exPlanations) values to classify cognitively normal (CN) older adults, those with mild cognitive impairment (MCI) and AD dementia patients. Features included structural MRI, CSF status, demographics, and genetic data. Analyses comprised one cross-sectional multi-class classification (CN vs. MCI vs. AD dementia, n = 568) and two longitudinal binary-class classifications (CN-to-MCI converters vs. CN stable, n = 92; MCI-to-AD converters vs. MCI stable, n = 378). All classifications achieved 70–77\% accuracy and 61–83\% precision. Key features were CSF status, hippocampal volume, entorhinal thickness, and amygdala volume, with a clear dissociation: hippocampal properties contributed to the conversion to MCI, while the entorhinal cortex characterized the conversion to AD dementia. The findings highlight explainable, trajectory-specific insights into AD progression.",

keywords = "Alzheimer{\textquoteright}s disease, Classification, Machine learning, Magnetic resonance imaging, Structural degeneration",

author = "\{for the Alzheimer's Disease Neuroimaging Initiative\} and Marthe Mieling and Mushfa Yousuf and Nico Bunzeck and Kenneth Spicer and Longmire, \{Crystal Flynn\} and Jacobo Mintzer and Rojas, \{Yaneicy Gonazalez\} and V. Sotelo and William Hu and Floyd Jones and Amy Saklad and Sudha Seshadri and Amy Boegel and Hill, \{Sydni Jenee\} and Paul Newhouse and Rebecca Long and Campbell Long and Arthur Williams and Allison Acree and Olga Brawman-Mintzer and Chelsea Reichert and Vita Pomara and Raymundo Hernando and Nunzio Pomara and Skieff Acothley and Nadeen Elayan and Slaughter, \{Micah Ellis\} and Angelica Garcia and Marwan Sabbagh and Maushami Gurung and Richard Le and Joseph Masdeu and Christina Rosario and Caroline Smith and Teresa Kalowsky and Edgardo Rivera and Hamid Okhravi and Rebecca Devine and Meagan Yong and Emily Roglaski and Juris Janavs and Jenny Echevarria and Ijeoma Mba and Amanda Smith and Miller, \{Bruce L.\} and Rosen, \{Howard J.\} and Morgan Blackburn and Charles Windon and Stephen Correia and Paul Malloy and Stephen Salloway and Meghan Riddle and Victoria Sanborn and Terry Fogerty and Scott Warren and Ronald Bailey and Acosta, \{Mauro Veras\} and Marie Amoyaw and Kerstin Doyon and Jennifer Davis and Jan Clark and Daniel Arcuri and Ava Stipanovich and Alexis DeMarco and Wu, \{Chuang Kuo\} and William Harrison and Wendy Baker and Samantha Rogers and Michael Shannon and Bevan Hoover and Lena Moretz and Joseph Bottoms and Susan Henkle and Sarah Bohlman and Ledford, \{Phillip Hunter\} and Mikell White and Jennifer Rowell and Eboni Walker and Deb Thompson and Freda Crawford and James Bateman and Ezequiel Zamora and Karen Gagnon and Abigail O{\textquoteright}Connell and Crystal Duncan and Andrea Williams and Alicia Jessup and Jeff Williamson and Schwartz, \{Eben S.\} and Santulli, \{Robert B.\} and Karen Anderson and Karen Blank and Pearlson, \{Godfrey D.\} and Wendy Stewart and Tuba Ahmed and Steven Presto and Michael Reposa and Katlynn Patterson and Heather Bauerle and Chris Figueroa and Alicia Leader and Dzintra Celmins and Brendan Kelley and Rawan Tarawneh and Maria Kataki and Soumya Bouchachi and Arun Ramamurthy and Scharre, \{Douglas W.\} and Wisam Elmalik and Violet Wenner and Vernice Bates and Traci Aladeen and Todd Peehler and Tatiana Jimenez-Knight and Stephanie O{\textquoteright}Malley and Scott Wisniewski and Richard Zawislak and Michelle Rainka and Michael Asbach and Megan King and Laszlo Mechtler and Joseph Hirtreiter and Jonathan Falletta and Heather Macnamara and Erin Fransen and Delaney Fragale and Daryn Slazyk and Bennett Myers and Benjamin Wagner and Bela Ajtai and Anna Mattle and Allison Emborsky and Horacio Capote and Stephanie Reeder and Adam Fleisher and Pierre Tariot and Allison Perrin and Carlsson, \{Cynthia M.\} and Sanjay Asthana and Sterling Johnson and Rob Bartha and Lee, \{T. Y.\} and Michael Borrie and Talia Hamm and Sandra Calderon and Richard Isip and Kahulugan, \{Queennie Majorie S.\} and Meghan Sinn and Martha Forloines and Maria Gallegos and Kristi Ayers and Kelly Wallace and Hongzheng Zhang and Hitesh Patel and Heather Russell and Hafsanoor Vanya and David Bissig and Costin Tanase and Andres Soto and Doris Chen and Stacy Pot and Sarah Ash and Paula Ogrocki and Parianne Fatica and Melissa Hamski and Martin Ayres and Marianne Sanders and Maria Toth and Katherine Stapleton and Ariana Moss and Charles Duffy and Oshoze Kadiri and Kyliah Hughes and Jillian Turner and Javed Khan and Immaculata Okonkwo and Ifreke Udodong and Debra Ordor and Andrew Stone and Thomas Obisesan and Ycar Devis and Wendy Qiu and Steven Lenio and Sarab Singh and Ronald Killiany and Ridiane Denis and Eric Steinberg and Mona Lauture and Olivia Schultz and Michael Alosco and Alexa Puleio and Jane Mwicigi and Gregory Day and Robert Swarm and Lesley Rao and Cyrus Raji and Justin Long and Ronald Petersen and John Morris and Perrin, \{Richard J.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

doi = "10.1007/s11357-025-01626-5",

language = "English",

journal = "GeroScience",

issn = "2509-2715",

}

for the Alzheimer's Disease Neuroimaging Initiative, Mieling, M, Yousuf, M, Bunzeck, N, Spicer, K, Longmire, CF, Mintzer, J, Rojas, YG, Sotelo, V, Hu, W, Jones, F, Saklad, A, Seshadri, S, Boegel, A, Hill, SJ, Newhouse, P, Long, R, Long, C, Williams, A, Acree, A, Brawman-Mintzer, O, Reichert, C, Pomara, V, Hernando, R, Pomara, N, Acothley, S, Elayan, N, Slaughter, ME, Garcia, A, Sabbagh, M, Gurung, M, Le, R, Masdeu, J, Rosario, C, Smith, C, Kalowsky, T, Rivera, E, Okhravi, H, Devine, R, Yong, M, Roglaski, E, Janavs, J, Echevarria, J, Mba, I, Smith, A, Miller, BL, Rosen, HJ, Blackburn, M, Windon, C, Correia, S, Malloy, P, Salloway, S, Riddle, M, Sanborn, V, Fogerty, T, Warren, S, Bailey, R, Acosta, MV, Amoyaw, M, Doyon, K, Davis, J, Clark, J, Arcuri, D, Stipanovich, A, DeMarco, A, Wu, CK, Harrison, W, Baker, W, Rogers, S, Shannon, M, Hoover, B, Moretz, L, Bottoms, J, Henkle, S, Bohlman, S, Ledford, PH, White, M, Rowell, J, Walker, E, Thompson, D, Crawford, F, Bateman, J, Zamora, E, Gagnon, K, O’Connell, A, Duncan, C, Williams, A, Jessup, A, Williamson, J, Schwartz, ES, Santulli, RB, Anderson, K, Blank, K, Pearlson, GD, Stewart, W, Ahmed, T, Presto, S, Reposa, M, Patterson, K, Bauerle, H, Figueroa, C, Leader, A, Celmins, D, Kelley, B, Tarawneh, R, Kataki, M, Bouchachi, S, Ramamurthy, A, Scharre, DW, Elmalik, W, Wenner, V, Bates, V, Aladeen, T, Peehler, T, Jimenez-Knight, T, O’Malley, S, Wisniewski, S, Zawislak, R, Rainka, M, Asbach, M, King, M, Mechtler, L, Hirtreiter, J, Falletta, J, Macnamara, H, Fransen, E, Fragale, D, Slazyk, D, Myers, B, Wagner, B, Ajtai, B, Mattle, A, Emborsky, A, Capote, H, Reeder, S, Fleisher, A, Tariot, P, Perrin, A, Carlsson, CM, Asthana, S, Johnson, S, Bartha, R, Lee, TY, Borrie, M, Hamm, T, Calderon, S, Isip, R, Kahulugan, QMS, Sinn, M, Forloines, M, Gallegos, M, Ayers, K, Wallace, K, Zhang, H, Patel, H, Russell, H, Vanya, H, Bissig, D, Tanase, C, Soto, A, Chen, D, Pot, S, Ash, S, Ogrocki, P, Fatica, P, Hamski, M, Ayres, M, Sanders, M, Toth, M, Stapleton, K, Moss, A, Duffy, C, Kadiri, O, Hughes, K, Turner, J, Khan, J, Okonkwo, I, Udodong, I, Ordor, D, Stone, A, Obisesan, T, Devis, Y, Qiu, W, Lenio, S, Singh, S, Killiany, R, Denis, R, Steinberg, E, Lauture, M, Schultz, O, Alosco, M, Puleio, A, Mwicigi, J, Day, G, Swarm, R , Rao, L , Raji, C , Long, J, Petersen, R, Morris, J & Perrin, RJ 2025, 'Predicting the progression of MCI and Alzheimer’s disease on structural brain integrity and other features with machine learning', GeroScience. https://doi.org/10.1007/s11357-025-01626-5

TY - JOUR

T1 - Predicting the progression of MCI and Alzheimer’s disease on structural brain integrity and other features with machine learning

AU - for the Alzheimer's Disease Neuroimaging Initiative

AU - Mieling, Marthe

AU - Yousuf, Mushfa

AU - Bunzeck, Nico

AU - Spicer, Kenneth

AU - Longmire, Crystal Flynn

AU - Mintzer, Jacobo

AU - Rojas, Yaneicy Gonazalez

AU - Sotelo, V.

AU - Hu, William

AU - Jones, Floyd

AU - Saklad, Amy

AU - Seshadri, Sudha

AU - Boegel, Amy

AU - Hill, Sydni Jenee

AU - Newhouse, Paul

AU - Long, Rebecca

AU - Long, Campbell

AU - Williams, Arthur

AU - Acree, Allison

AU - Brawman-Mintzer, Olga

AU - Reichert, Chelsea

AU - Pomara, Vita

AU - Hernando, Raymundo

AU - Pomara, Nunzio

AU - Acothley, Skieff

AU - Elayan, Nadeen

AU - Slaughter, Micah Ellis

AU - Garcia, Angelica

AU - Sabbagh, Marwan

AU - Gurung, Maushami

AU - Le, Richard

AU - Masdeu, Joseph

AU - Rosario, Christina

AU - Smith, Caroline

AU - Kalowsky, Teresa

AU - Rivera, Edgardo

AU - Okhravi, Hamid

AU - Devine, Rebecca

AU - Yong, Meagan

AU - Roglaski, Emily

AU - Janavs, Juris

AU - Echevarria, Jenny

AU - Mba, Ijeoma

AU - Smith, Amanda

AU - Miller, Bruce L.

AU - Rosen, Howard J.

AU - Blackburn, Morgan

AU - Windon, Charles

AU - Correia, Stephen

AU - Malloy, Paul

AU - Salloway, Stephen

AU - Riddle, Meghan

AU - Sanborn, Victoria

AU - Fogerty, Terry

AU - Warren, Scott

AU - Bailey, Ronald

AU - Acosta, Mauro Veras

AU - Amoyaw, Marie

AU - Doyon, Kerstin

AU - Davis, Jennifer

AU - Clark, Jan

AU - Arcuri, Daniel

AU - Stipanovich, Ava

AU - DeMarco, Alexis

AU - Wu, Chuang Kuo

AU - Harrison, William

AU - Baker, Wendy

AU - Rogers, Samantha

AU - Shannon, Michael

AU - Hoover, Bevan

AU - Moretz, Lena

AU - Bottoms, Joseph

AU - Henkle, Susan

AU - Bohlman, Sarah

AU - Ledford, Phillip Hunter

AU - White, Mikell

AU - Rowell, Jennifer

AU - Walker, Eboni

AU - Thompson, Deb

AU - Crawford, Freda

AU - Bateman, James

AU - Zamora, Ezequiel

AU - Gagnon, Karen

AU - O’Connell, Abigail

AU - Duncan, Crystal

AU - Williams, Andrea

AU - Jessup, Alicia

AU - Williamson, Jeff

AU - Schwartz, Eben S.

AU - Santulli, Robert B.

AU - Anderson, Karen

AU - Blank, Karen

AU - Pearlson, Godfrey D.

AU - Stewart, Wendy

AU - Ahmed, Tuba

AU - Presto, Steven

AU - Reposa, Michael

AU - Patterson, Katlynn

AU - Bauerle, Heather

AU - Figueroa, Chris

AU - Leader, Alicia

AU - Celmins, Dzintra

AU - Kelley, Brendan

AU - Tarawneh, Rawan

AU - Kataki, Maria

AU - Bouchachi, Soumya

AU - Ramamurthy, Arun

AU - Scharre, Douglas W.

AU - Elmalik, Wisam

AU - Wenner, Violet

AU - Bates, Vernice

AU - Aladeen, Traci

AU - Peehler, Todd

AU - Jimenez-Knight, Tatiana

AU - O’Malley, Stephanie

AU - Wisniewski, Scott

AU - Zawislak, Richard

AU - Rainka, Michelle

AU - Asbach, Michael

AU - King, Megan

AU - Mechtler, Laszlo

AU - Hirtreiter, Joseph

AU - Falletta, Jonathan

AU - Macnamara, Heather

AU - Fransen, Erin

AU - Fragale, Delaney

AU - Slazyk, Daryn

AU - Myers, Bennett

AU - Wagner, Benjamin

AU - Ajtai, Bela

AU - Mattle, Anna

AU - Emborsky, Allison

AU - Capote, Horacio

AU - Reeder, Stephanie

AU - Fleisher, Adam

AU - Tariot, Pierre

AU - Perrin, Allison

AU - Carlsson, Cynthia M.

AU - Asthana, Sanjay

AU - Johnson, Sterling

AU - Bartha, Rob

AU - Lee, T. Y.

AU - Borrie, Michael

AU - Hamm, Talia

AU - Calderon, Sandra

AU - Isip, Richard

AU - Kahulugan, Queennie Majorie S.

AU - Sinn, Meghan

AU - Forloines, Martha

AU - Gallegos, Maria

AU - Ayers, Kristi

AU - Wallace, Kelly

AU - Zhang, Hongzheng

AU - Patel, Hitesh

AU - Russell, Heather

AU - Vanya, Hafsanoor

AU - Bissig, David

AU - Tanase, Costin

AU - Soto, Andres

AU - Chen, Doris

AU - Pot, Stacy

AU - Ash, Sarah

AU - Ogrocki, Paula

AU - Fatica, Parianne

AU - Hamski, Melissa

AU - Ayres, Martin

AU - Sanders, Marianne

AU - Toth, Maria

AU - Stapleton, Katherine

AU - Moss, Ariana

AU - Duffy, Charles

AU - Kadiri, Oshoze

AU - Hughes, Kyliah

AU - Turner, Jillian

AU - Khan, Javed

AU - Okonkwo, Immaculata

AU - Udodong, Ifreke

AU - Ordor, Debra

AU - Stone, Andrew

AU - Obisesan, Thomas

AU - Devis, Ycar

AU - Qiu, Wendy

AU - Lenio, Steven

AU - Singh, Sarab

AU - Killiany, Ronald

AU - Denis, Ridiane

AU - Steinberg, Eric

AU - Lauture, Mona

AU - Schultz, Olivia

AU - Alosco, Michael

AU - Puleio, Alexa

AU - Mwicigi, Jane

AU - Day, Gregory

AU - Swarm, Robert

AU - Rao, Lesley

AU - Raji, Cyrus

AU - Long, Justin

AU - Petersen, Ronald

AU - Morris, John

AU - Perrin, Richard J.

PY - 2025

Y1 - 2025

N2 - Machine learning (ML) on structural MRI data shows high potential for classifying Alzheimer’s disease (AD) progression, but the specific contribution of brain regions, demographics, and proteinopathy remains unclear. Using Alzheimer’s Disease Neuroimaging Initiative (ADNI) data, we applied an extreme gradient-boosting algorithm and SHAP (SHapley Additive exPlanations) values to classify cognitively normal (CN) older adults, those with mild cognitive impairment (MCI) and AD dementia patients. Features included structural MRI, CSF status, demographics, and genetic data. Analyses comprised one cross-sectional multi-class classification (CN vs. MCI vs. AD dementia, n = 568) and two longitudinal binary-class classifications (CN-to-MCI converters vs. CN stable, n = 92; MCI-to-AD converters vs. MCI stable, n = 378). All classifications achieved 70–77% accuracy and 61–83% precision. Key features were CSF status, hippocampal volume, entorhinal thickness, and amygdala volume, with a clear dissociation: hippocampal properties contributed to the conversion to MCI, while the entorhinal cortex characterized the conversion to AD dementia. The findings highlight explainable, trajectory-specific insights into AD progression.

AB - Machine learning (ML) on structural MRI data shows high potential for classifying Alzheimer’s disease (AD) progression, but the specific contribution of brain regions, demographics, and proteinopathy remains unclear. Using Alzheimer’s Disease Neuroimaging Initiative (ADNI) data, we applied an extreme gradient-boosting algorithm and SHAP (SHapley Additive exPlanations) values to classify cognitively normal (CN) older adults, those with mild cognitive impairment (MCI) and AD dementia patients. Features included structural MRI, CSF status, demographics, and genetic data. Analyses comprised one cross-sectional multi-class classification (CN vs. MCI vs. AD dementia, n = 568) and two longitudinal binary-class classifications (CN-to-MCI converters vs. CN stable, n = 92; MCI-to-AD converters vs. MCI stable, n = 378). All classifications achieved 70–77% accuracy and 61–83% precision. Key features were CSF status, hippocampal volume, entorhinal thickness, and amygdala volume, with a clear dissociation: hippocampal properties contributed to the conversion to MCI, while the entorhinal cortex characterized the conversion to AD dementia. The findings highlight explainable, trajectory-specific insights into AD progression.

KW - Alzheimer’s disease

KW - Classification

KW - Machine learning

KW - Magnetic resonance imaging

KW - Structural degeneration

UR - https://www.scopus.com/pages/publications/105003685601

U2 - 10.1007/s11357-025-01626-5

DO - 10.1007/s11357-025-01626-5

M3 - Article

C2 - 40285975

AN - SCOPUS:105003685601

SN - 2509-2715

JO - GeroScience

JF - GeroScience

ER -

Predicting the progression of MCI and Alzheimer’s disease on structural brain integrity and other features with machine learning

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