HAI 2025 POSTER SESSIONS
Click the “+” to open each module; tables can be sorted by clicking on each item of the header row (board number, poster title, authors and presenter, respectively). Additionally, each table is searchable (use the search field located at the top right of each module).
Please note that we reserve the right to re-arrange the poster allocation.
POSTER SESSIONS: 1A - Wednesday, January 15 - 10:40 am - 12:35 pm; 1B - Wednesday, January 15, 4:30 - 5:25 pm
| Board # | Title | Authors | Presenter |
|---|---|---|---|
| 01 | Decline in everyday functioning over time relates to amyloid and tau in cognitively unimpaired older adults | Dubbelman | Liu | Donohue | Langford | Raman | Rentz | Amariglio | Sperling | Aisen | Marshall | Dubbelman, Mark |
| 02 | From the clinical utility of a-synuclein PET imaging in Multiple System Atrophy to the possible diagnosis of Parkinson’s disease | Vokali | Molette | Rodriguez | Changizi2 | Kuzkina | Ravache | Dimitrakopoulos | Delgado | Kocher | Pittet | Vallet | Hliva | Pfeifer | Kosco-Vilbois | Derouazi | Khurana | Capotosti | Capotosti, Francesca |
| 03 | Unraveling the impact of amyloid-β and tau pathology on brain structure and cognitive function during preclinical and prodromal Alzheimer’s disease | Qiu | Liu | Gallego-Rudolf | Edde | Caron | Zhang | Soucy | Spreng | Descoteaux | Villeneuve | Qiu, Ting |
| 04 | Astrogliosis, a potential non-Aβ pathway to tau | Villemagne | Cohen | Lopresti | Saeed | Tudorascu | Gogola | Matan | Reese | Snitz | Ikonomovic | Reis | Launer | Lopez | Villemagne, Victor L |
| 05 | APOE ε4 carriers exhibit attenuated habituation in pupil size and practice effects on a repeated auditory oddball task | Grube | Rodríguez Alonso | Engels-Domínguez | Jacobs | Riphagen | Grube, Jill |
| 06 | Baseline tau burden and performance on a digital clock drawing test uniquely contributes to predicting future tau accumulation in preclinical AD | Fu | Robinson | Farrell | Jutten | Thibault | Rodriguez Alonso | Thompson | Lois | Tiss | Gong | Chen | Penney | Davis | Sperling | Johnson | Rentz | Price | Fu, Jessie Fang-Lu |
| 07 | Molecular correlates of apraxia in Alzheimer's disease: A PET imaging study | Bischof | Jaeger | Giehl | jessen | Onur | O'Bryant | Kara | Weiss | Drzezga | Bischof, Gerard |
| 08 | Understanding the impact of race on white matter hyperintensities in Alzheimer’s disease: Findings from the ADNI Study | Ekuta | Ahn | Tripodis | Hamilton | Ekuta, Victor |
| 09 | Characterization of a limbic-predominant amnestic neurodegenerative syndrome | Corriveau-Lecavalier | Waniger | Stricker | Machulda | Fields | Botha | Graff-Radford | Ramanan | McCarter | Nguyen | Reichard | Boeve | Knopman | Lowe | Dickson | Murray | Graff-Radford | Petersen | Jack | Jones | Corriveau-Lecavalier, Nick |
| 10 | Positron emission tomography analysis with the dynamicpet Python package | Bilgel | Amer | Bae | Bouhrara | Gong | Guo | Uriarte-Lopez | Singh | Matheson | Nørgaard | Bilgel, Murat |
| 11 | Targeted plasma eQTL and pQTL to identify potential novel biomarker for Alzheimer's Disease in African Americans | Colón-Badillo | Reddy | Jin | Lincoln | Ho | Crook | Wang | Malphrus | Nguyen | Marrero-Polanco | Tamvaka | Lucas | Graff-Radford | Ertekin-Taner | Carrasquillo | Colón-Badillo, Vanessa |
| 12 | Pathological and clinical trajectories of preclinical Alzheimer’s disease patients with divergent cortical tau patterns | Young | Carlson | Cody | Winer | Schultz | Mormino | Mormino, Elizabeth |
| 13 | Evaluation of a label-free X-ray based method for estimating amyloid load in the human brain | Geremia | Amer | Dahal | Badano | Geremia, Danielle |
| 14 | Proteomic analyses of A-T-N reveal plasma mediators of neurodegeneration and dementia risk | Duggan | Bilgel | Chen | Moghekar | Davatzikos | Coresh | Resnick | Walker | Duggan, Michael |
| 15 | The spatial spread of tauopathy precedes the increase in tau-PET load in Alzheimer’s disease | Cassa Macedo | Therriault | Rahmouni | Tissot | Aumont | Wang | Servaes | Trudel | Hall | Hosseini | Fernandez-Arias | Bezgin | Chan | Zheng | Ferrari-Souza | Ferreira | Bellaver | Lussier | Pascoal | Rosa-Neto | Cassa Macedo, Arthur |
| 16 | Distinct patterns of Iron distribution in the entorhinal cortex-hippocampus system for characterization of mild cognitive impairment | Kagerer | Vionnet | van Bergen | Meyer | Gietl | Prüssmann | Hock | Unschuld | Unschuld, Paul |
| 17 | Pathological asymmetry in early onset AD reflects heterogenous disease trajectories | Ziontz | Maiti | Zhang | Chiotis | Blazhenets | Rocha | Shankar | Amuiri | Schonhaut | Hammers | Eloyan | Koeppe | Carrillo | Dickerson | Apostolova | Rabinovici | La Joie | Ziontz, Jacob |
| 18 | Characterizing amyloid-positive with low Tau (A+T-) profiles and their association with cognitive trajectories in the Longitudinal Early-Onset Alzheimer’s Disease Study (LEADS): A multi-method approach | Abu Raya | Soleimani-Meigooni | Schonhaut | Blazhenets | Chiotis | Lagarde | Vrillon | Maiti | Windon | Zeltzer | Zhang | Yballa | Shankar | Amuiri | Rocha | Hammers | Eloyan | Carrillo | Koeppe | Dickerson | Apostolova | Rabinovici | La Joie | Abu Raya, Maison |
| 19 | The association between amyloid and physical activity in a racially diverse cohort of older adults | Dong | Wu | Minhas | Laymon | Villemagne | Lopez | Snitz | Gogniat | Glynn | Tudorascu | Cohen | Dong, Yiwen |
| 20 | Whole blood gene expression is associated with plasma p-tau217 levels via amyloid-PET and sex | Buckley | Janve | Seto | Klinger | Brown | Birkenbihl | Coughlan | Townsend | Properzi | Zyski | Wang | Clifton | Hanseeuw | Chhatwal | Yang | Rissman | Aisen | Cuppels | Donohue | Raman | Johnson | Sperling | Dumitrescu | Hohman | Buckley, Rachel |
| 21 | Plasma Aβ as predictor of Aβ accumulation in non-demented participants | Gogola | Cohen | Lopresti | Snitz | Ikonomovic | Tudorascu | Minhas | Kofler | Matan | Aizentein | Lopez | Karikari | Villemagne | Gogola, Alexandra |
| 22 | The relative prevalence of tau severity stages is related to amyloid burden, clinical diagnosis and age | Cody | Sokolowski | Carlson | Medina | Winer | Young | Younes | Durant | Dumitrescu | Archer | Tosun-Turgut | Johnson | Harrison | Hohman | Mormino | Cody, Karly |
| 23 | Head-to-head trajectories of tau PET and plasma p-tau217 as a function of Aβ | Bellaver | Povala | L. Ferreira | Bauer-Negrini | Lussier | Amaral | Soares | Rocha | Masdeu | Tudorascu | Soleimani-Meigooni | Fortea | Lowe | Oh | Pascual | A. Gordon | Rosa-Neto | Baker | A. Pascoal | Bellaver, Bruna |
| 24 | Functional submodules in the human locus coeruleus are differentially susceptible to tau pathology | Lawn | Prokopiou | Van Egroo | Ashton | Janelidze | Blennow | Hansson | Zetterberg | Jacobs | Lawn, Timothy |
| 25 | Sex-specific associations of BMI, amyloid, and regional tau deposition in community-dwelling cognitively normal older adults | Gills | Cesar | Dominguez | Sogade | Browne | Weisgerber | McBride | Valkanova | Mbah | Figueredo | Jean-Louis | Masurkar | Osorio | Bubu | Gills, Joshua |
| 26 | Assessment of ATN with a single dynamic [18]F-PI-2620 recording | Gnörich | Kusche-Palenga | Kling | Zatcepin | Dehsarvi | Bronte | Zaganjori | Frontzkowski | Roemer | Groß | Schöberl | Scheifele | Bauer | Bernhardt | Jäck | van Eimeren | Drzezga | Perneczky | Bürger | Levin | Bartenstein | Sabri | Barthel | Rullmann | Stöcklein | Höglinger | Franzmeier | Brendel | Gnörich, Johannes |
| 27 | Tau-PET detects advanced primary age-related tauopathy mimicking early-stage AD | Grothe | Moscoso | Labrador-Espinosa | Silva-Rodríguez | Heeman | Costoya-Sánchez | Camacho | van Essen | Mainta | Perissinotti | Rodríguez-Fonseca | Ribaldi | Devous, Sr. | Pontecorvo | Frisoni | Garibotto | Schöll | Grothe, Michel |
| 28 | Amyloid status moderates associations between hippocampal microstructure, PET tau burden, and memory in dementia-free older adults | Callow | Rani | Alm | Pettigrew | Soldan | Miller | Albert | Bakker | Callow, Daniel |
| 29 | Performance of an MR-independent analysis pipeline for quantification of tau abnormality using [18F]flortaucipir PET | DelBene | Gogola | Reese | Matan | Chiang | Snitz | Cohen | Lopez | Villemagne | Lopresti | DelBene, Alexander |
| 30 | Functional and structural connectivity patterns predict longitudinal tau spreading in asymptomatic individuals expressing Aβ pathology | Gallego-Rudolf | Qiu | Javanray | Wiesman | St-Onge | Fajardo-Valdez | Baillet | Villeneuve | Gallego-Rudolf, Jonathan |
| 31 | Plasma phospho-tau 217, neurofilament-light, and glial fibrillary acidic protein are differentially associated with longitudinal neuropsychiatric symptoms across the early cognitive spectrum | Gatchel | Yu | Palmer | Wu | Beltran | Munro | Webb | Blacker | Arnold | Marshall | Dodge | Gatchel, Jennifer R |
| 32 | An assessment of the utility of flortaucipir PET to detect four-repeat tau pathology in a globular glia tauopathy case-series | Gatto | Youssef | Ghatamaneni | Uruk | Min | Fu | Reichard | Lowe | Dickson | Whitwell | Josephs | Gatto, Rodolfo |
| 33 | Molecular imaging of neurodegeneration – mitochondria, associated proteins and synapses (MIND-MAPS) in frontotemporal dementia | Clarke | Whittington | Passchier | Lewis | Passamonti | Chen | Salinas | Tsukada | Cash | Rabiner | Rohrer | Clarke, Mica |
| 34 | Evaluating tVNS effects on cognitive outcomes and modulating factors in asymptomatic older adults: study design of the WALLe Trial | Engels-Domínguez | Grube | Fenlon | Wiklund | Heinrich | Baillet | van Egroo | Papp | Riphagen | Garcia | Sclocco | Johnson | Napadow | Jacobs | Engels-Domínguez, Nina |
| 35 | Cerebral perfusion indices from early-phase [18F]-MK6240 dynamic Tau PET imaging in brain regions associated with Alzheimer’s Disease progression in an aging population. | Dhaynaut | Lois | Tiss | Thibault | Fanglu Fu | Ouyang | Johnson | El Fakhri | Normandin | Guehl | Dhaynaut, Maeva |
| 36 | Transcutaneous auricular vagus nerve stimulation improves learning and sleep-wake quality in older APOE-ε4 carriers | Baillet | Van Egroo | Engels-Domínguez | Grube | Fenlon | Wiklund | Heinrich | Riphagen | Papp | Garcia | Sclocco | Napadow | Jacobs | Baillet, Marion |
| 37 | Biological-clinical mismatch reflects co-pathology and vulnerability to neurodegeneration | Brown | Das | Xie | Nasrallah | Detre | Yushkevich | McMillan | Wolk | Brown, Christopher |
| 38 | Validation of PET spatial extent as sensitive amyloid biomarker in early stages of amyloidosis | Del Carmen Montenegro | Thibault | Fanglu Fu | Price | Hanseeuw | Jacobs | Sperling | Johnson | Farrell | Del Carmen Montenegro, Grace |
| 39 | Developing a novel reference region for PI-2620-PET imaging to facilitate assessment of 4-repeat tauopathies | L. Frontzkowski*; M. Gross*; J. Gnörich, A. Dewenter; A. Desharvi; M. Malpetti; S. Roemer; A. Steward; F. Wagner; M. Brendel*; N. Franzmeier* | Frontzkowski, Lukas |
| 40 | P-TAU217, GFAP, and NFL plasma biomarker associations with demographic, medical and neurocognitive features from middle-aged through older adulthood | Arnold | Kivisakk | Fatima | Gentsch | Cruchaga | Wu | Dodge | Ances | Salat | Arnold, Steven |
| 41 | DeepSUVR: Using temporal constraints to improve tau quantification | Bourgeat | Fripp | Gillman | Feizpour | Schwarz | Jack | Lowe | Weiner | Masters | Villemagne | Rowe | Dore | Bourgeat, Pierrick |
| 42 | Increasing the granularity of tau-PET Braak staging using medial temporal lobe segmentations to detect early memory impairment | Aumont | Hall | Trudel | Chan | Hosseini | Macedo | Fernandez Arias | Rahmouni | Therriault | Servaes | Bezgin | Stevenson | Rosa-Neto | Aumont, Etienne |
| 43 | The universal tau PET scale (Uni𝜏) for Flortaucipir, MK6240, PI2620 and RO948 harmonization | Povala | Bauer-Negrini | Bellaver | Z. Lussier | Amaral | Lukasewicz Ferreira | L. Tudorascu | Finn | Masdeu | Soleimani-Meigooni | Fortea | Lowe | Oh | Pascual | A. Gordon | Rosa-Neto | Baker | A. Pascoal | Povala, Guilherme |
| 44 | Assessing the relationship between neuropsychiatric symptoms, amyloid and tau pathology, and white matter hyperintensity volume across sexes in preclinical Alzheimer’s disease | Garrone | Yakoub | Fajardo-Valdez | Qiu | Ourry | Villeneuve | Garrone, Aurélie |
| 45 | Unveiling the heterogeneity of tau spreading in aging and Alzheimer's disease using polygenic combinations: Towards personalized models | Diez | Lois | Garcia Condado | Farrell | Thibault | Jacobs | Buckley | Hanseeuw | Properzi | Yang | Sperling | Cortes | Quiroz | Sepulcre | Johnson | Gomez-Isla | Diez, Ibai |
| 46 | Regional amyloid and tau: Exploring regional sex-based differences in a middle-aged community-based cohort | Guzmán | Aziz | Smith | Houlihan | Sanchez | Luchsinger | Lao | Guzmán, Diana S |
| 47 | Comparison of topographical patterns of abnormalities of the tau PET tracers [18F]Flortaucipir, [18F]MK6240, [18F]PI2620, and [18F]RO948 | Amaral | Povala | Bauer-Negrini | Ruppert | Bellaver | Lussier | L. Ferreira | Masdeu | Tudorascu | Soleimani-Meigooni | Fortea | Lowe | Oh | Pascual | Gordon | Rosa-Neto | Baker | Pascoal | Amaral, Livia |
| 48 | Subtle cognitive deficits detected through routine in-office tests are associated with global Aβ and temporal tau in cognitively unimpaired individuals | Felix | Rebok | Kollasserry | Snitz | Ferreira | Tudorascu | Povala | Saha | Amaral | Lussier | Masdeu | Soleimani-Meigooni | Fortea | Lowe | Oh | Gordon | Rosa-Nato | Baker | Nasreddine | Pascoal | Felix, Cynthia |
| 49 | Estradiol-dependent associations between sleep complaints and tau deposition in women at elevated AD risk | Lui | Wang | Deyong | Malhotra | Sundermann | Banks | Banks, Sarah |
| 50 | Impact of age and sex on extra-cerebral off-target binding in tau PET scans (18F-FTP) | Ghatamaneni | Kim | Nycklemoe | Lundt | Schwarz | Kandimalla | Jacobson | Albertson | Jack | Gunter | Peterson | kung | sharma | seokbeen | Lowe | Min | Ghatamaneni, Sujala |
| 51 | Metabolic inefficiency is associated with regional vulnerability to tau deposition | Adams | Parker | Zhao | Yassa | Adams, Jenna |
| 52 | Relationship between Polygenetic Risk Score of BrainAge and plasma biomarkers in the A4/Elearn Study | Garcia Condado | Birkenbihl | Cortes | Buckley | Diez | Garcia Condado, Jorge |
| 53 | Combined impact of plasma phospho-tau 217 and NfL on longitudinal domain-specific cognitive decline | Dodge | Wu | Chen | Gatchel | Das | Kivisäkk | Arnold | Dodge, Hiroko |
| 54 | Comparison of distribution volume and standardized uptake value ratio for a MAO-B tracer in mild cognitive impairment | Bezgin | Rahmouni | Harada | Okamura | Benedet | Ashton | Zetterberg | Blennow | Rosa-Neto | Bezgin, Gleb |
| 55 | Association between early and late tau aggregation across tau imaging agents: The HEAD Study | Rahmouni | Tissot | Therriault | Hosseini | Macedo | Servaes | Lussier | Trudel | Hall | Fernandez-Arias | Wang | Stevenson | Gauthier | Baker | Pascoal | Rosa-Neto | Rahmouni, Nesrine |
| 56 | The impact of spatial smoothing on the accuracy of Centiloid thresholds | Fajardo-Valdez | Qiu | Gallego-Rudolf | Javanray | Villeneuve | Fajardo-Valdez, Alfonso |
| 57 | Longitudinal amyloid PET trajectories in the HABS-HD cohort | Betthauser | Morse | Heston | Langhough | Carey | Wisch | Ances | Cohen | Toga | Braskie | Zuelsdorff | O'Bryant | Meeker | Betthauser, Tobey |
| 58 | Lower microstructural integrity of the locus coeruleus to entorhinal cortex pathway is related to elevated astrocyte reactivity and tau burden in cognitively unimpaired individuals: a 7T dMRI study | Patsyuk | Van Egroo | Beckers | Ashton | Janelidze | Blennow | Hansson | Zetterberg | Poser | Jacobs | Patsyuk, Yuliya |
POSTER SESSIONS: 2A - Thursday, January 16 - 10:05 - 11:00 am; 2B - Thursday, January 16, 3:55 - 4:50 pm
| Board # | Title | Authors | Presenter |
|---|---|---|---|
| 59 | Interpretable prediction of amyloid PET positivity using non-negative matrix factorization | Zhang | Barnard | Gogineni | Corriveau-Lecavalier | Botha | Burkett | Johnson | Lowe | McCarter | Ramanan | Graff-Radford | Knopman | Petersen | Jones | Jones, David |
| 60 | Data-driven biomarker discovery nominates novel diagnostic plasma biomarkers and provides insights into Alzheimer’s disease pathophysiology in an African American cohort | Kuchenbecker | Thompson | Hurst | Opdenbosch | Heckman | Reddy | Nguyen | Casellas | Sotelo | Redy | Lucas | Day | Willis | Graff-Radford | Ertekin-Taner | Kalari | Carrasquillo | Kuchenbecker, Lindsey |
| 62 | Longitudinal multicenter head-to-head harmonization of tau PET tracers: an overview of the HEAD study cohort | Lussier | Povala | Bauer-Negrini | Silva do Amaral | Lukasewicz Ferreira | Bellaver | Masdeu | Tudorascu | Soleimani-Meigooni | Fortea | Lowe | Oh | Pascual | Gordon | Rosa-Neto | Baker | Pascoal | Lussier, Firoza |
| 63 | Higher time varying brain functional connectivity is associated with slower tau accumulation at the preclinical stage of Alzheimer’s disease | Javanray | St-Onge | Bellec | Misic | Soucy | Villenueve | Javanray, Mohammadali |
| 64 | Graph convolutional networks to predict cognitive decline at the individual level in Alzheimer’s disease | Kang | Heaton | Nyman | Biparva | McSweeney | Ottoy | Masellis | Shirzadi | Johnson | Sperling | Schultz | Jasmeer | Swardfager | Lipsman | Black | Rabin | Goubran | Kang, Min Su |
| 65 | Low tau in Aβ-positive cognitively impaired individuals: Alzheimer’s disease or something more? | Ioannou | Abdullaieva | J. Perrin | Bluma | Poulakis | Leuzy | Religa | Rodriguez-Vieitez | Chiotis | Ioannou, Konstantinos |
| 66 | A plasma clock for Alzheimer disease based on %p-tau217 | Petersen | Milà-Alomà | Tosun | Li | Shaw | Dage | Zetterberg | Saef | Holtzman | Morris | Xiong | Bateman | Bannon | Potter | Schindler | Petersen, Kellen K. |
| 67 | Network-based amyloid-β pathology predicts subsequent cognitive decline in cognitively normal older adults | He | Razlighi | Gazes | Habeck | Stern | He, Hengda |
| 68 | Associations between APOE-TOMM40 ‘523 haplotype variants and limbic system white matter microstructure in Black and White individuals | Mooney | Archer | Sathe | Hohman | Kadiri | Lamar | Arfanakis | Yu | Barnes | Deters | Mooney, Katelyn |
| 69 | Multi element MRI template method for analysis of Down syndrome PET | Laymon | Minhas | Heffley | Gilmore | Kondaveeti | Gogola | Royse | Joshi | Lopresti | Luo | Davuluri | Matan | Tudorascu | Christian | Zaman | Beau | Cohen | Handen | Laymon, Charles |
| 70 | Whole-blood gene expression associations with Aβ-PET accumulation and cognitive decline | Klinger | Janve | Seto | Brown | Birkenbihl | Coughlan | Townsend | Zyski | Wang | Amariglio | Papp | Rentz | Yang | Chhatwal | Clifton | Donohue | Raman | Rissman | Aisen | Johnson | Sperling | Dumitrescu | Hohman | Buckley | Klinger, Hannah |
| 71 | Longitudinal change in five dominant dimensions of brain aging in relation to brain amyloid status and Alzheimer’s-related plasma biomarkers | Bilgel | Shah | Cooper | An | Walker | Moghekar | Yang | Erus | Davatzikos | Resnick | Bilgel, Murat |
| 72 | Enrichment of patients with concomitant LATE on the Alzheimer’s disease continuum using hippocampal volume | Mundada | Lyu | Sadeghpour | Brown | McCrew | Xie | Yushkevich | Das | Wolk | Mundada, Nidhi |
| 73 | AT(N) staging of Alzheimer’s disease: Comparison of visual interpretation and automated quantification pipelines | Lopresti | Cohen | DelBene | Reese | Matan | Gogola | Chiang | Snitz | Royse | Lopez | Villemagne | Lopresti, Brian |
| 74 | MK-6240 off-target binding patterns in relation to microglia density, measured through TSPO PET | Heuer | Johnson | Smith | Guzman | Houlihan | Okafor | Sanchez | Talmasov | Dass | Chikwem | Provenzano | Kreisl | Noble | Small | Lao | Heuer, Lauren |
| 75 | Association between medication use and [18F]MK6240 and [18F]Flortaucipir uptake across the Alzheimer's disease spectrum | Mroué | Lukasewicz Ferreira | Povala | Bellaver | Bauer-Negrini | Lussier | Amaral | Scop Medeiros | Ruppert | Silva da Rocha | Scarpatto Rodrigues | Silva Oliveira | Soares Katz | Teixeira Leffa | Saha | Felix | Masdeu | Soleimani-Meigooni | Fortea | Lowe | Oh | Pascual | Gordon | Rosa-Neto | Baker | Pascoal | Mroué, Rayan |
| 76 | Lower LC-EC tract integrity is associated with entorhinal tau in autosomal-dominant Alzheimer’s disease | Koops | Giudicessi | Bonillas-Felix | Medrano | Martinez | Gonzalez | Alvarez | Aguillon | Quiroz | Jacobs | Koops, Elouise |
| 77 | APOE4 associated with higher off-target meninges signal with [F-18]MK6240 PET | McVea | DiFilippo | McLachlan | Bettcher | Tudorascu | Johnson | Zammit | Betthauser | Christian | McVea, Andrew |
| 78 | An accurate and automated technique for removing spill-over contamination and off-target retention from a cerebellar reference region for tau PET | Minhas | DelBene | Gogola | Reese | Luo | Laymon | Lopresti | Dore | Pascoal | Baker | Tudorascu | Villemagne | Minhas, Davneet |
| 79 | Updated public CenTauR pipelines to measure CenTauR, CenTauRZ, and SUVR tau PET units | Schwarz | Leuzy | Doré | Villemagne | Xiao | Pappas | Przybelski | Prakaashana | Senjem | Lowe | Gunter | Kantarci | Vemuri | Graff-Radford | Petersen | Knopman | Jack | Schwarz, Christopher |
| 80 | Predicting regional Alzheimer’s disease pathology with plasma p-tau217 in preclinical AD | Moon | Chen | Moon, Hasom |
| 81 | TSPO-PET before and after low-dose interleukin-2 in patients with mild to moderate Alzheimer's disease | Pascual | Faridar | Finn | Gamez | Appel | Masdeu | Pascual, Belen |
| 82 | In low neocortical tau individuals, high amygdala tau predicts faster cognitive decline | Hanseeuw | Thibault | Farell | Buckley | Properzi | Gatchel | Amariglio | Marshall | Beiser | Seshadri | De Carli | Sperling | Jacobs | Johnson | Hanseeuw, Bernard |
| 83 | EOAD-signature atrophy predicts progression to dementia in patients with early-onset MCI due to Alzheimer’s disease | Paranhos | Katsumi | Brickhouse | Eckbo | Zaitsev | Du | Eloyan | Nudelman | Foroud | Dage | Carrillo | Rabinovici | Apostolova | Dickerson | Touroutoglou | Consortium | Katsumi, Yuta |
| 84 | FDG reference region selection using PiB amyloid status-guided iterative normalization in a Down syndrome cohort | McLachlan | Keator | Price | Tudorascu | Laymon | Cohen | Lao | Handen | Fryer | Ances | Zaman | Head | Mapstone | Bettcher | Guerrero Gonzalez | LeMerise | McVea | DiFillipo | Zammit | Hartley | Christian | McLachlan, Max |
| 85 | Microscopic visualization of fluorescent MK-6240 | Kunach | S. Smith | I. Antczak | Gupta | Monistrol | Tripathi | Jalapati | Guiot | Stoddard | H. Shahmoradian | K. Shoichet | Vaquer-Alicea | Rosa-Neto | M. Ready | I. Diamond | Kunach, Peter |
| 86 | Conversion of Tau PET SUVR data to CenTauR units using the Joint Propagation Model | Leuzy | Raket | Villemagne | Klein | Tonietto | Olafson | Baker | Saad | Bullich | Lopresti | Sanabria Bohorquez | Lutz | Boada | Betthauser | Charil | Collins | Collins | Gunn | Higuchi | Hostetler | Hutchison | Iaccarino | Insel | Irizarry | Jack Jr | Jagust | Johnson | Johnson | Karten | Marquié | Mathotaarachchi | Mintun | Ossenkoppele | Pappas | Petersen | Rabinovici | Rosa-Neto | Schwarz | Smith | Stephens | Whittington | Carrillo | Pontecorvo | Haeberlein | Dunn | Kolb | Stephenson | Rowe | Hansson | Doré | Leuzy, Antoine |
| 87 | The role of cohort heterogeneity in predicting AD/ADRD cognitive decline | Liu | Taggett | Harrison | Snyder | DeCarli | Vemuri | Harvey | Jagust | Baker | Landau | Liu, Peiwei |
| 88 | Differential tau accumulation in early-onset and late-onset Alzheimer's disease: Insights from [18F]-Florzolotau PET | Khurelbaatar | Huang | Lin | Huang | Hsu | Huang | Wu | Huang | Chang | Hsiao | Khurelbaatar, Bayarjargal |
| 89 | Heterogeneity of FDG-PET patterns among tau-negative amnestic patients | Silva-Rodríguez | Moscoso | Labrador-Espinosa | Sánchez-Juan | Scholl | Grothe | Silva-Rodríguez, Jesús |
| 90 | Predicting amyloid positivity and tau burden in dementia using a combination of different biomarkers | Huang | Lin | Huang | Huang | Wu | Chang | Hsiao | Huang, Shao-Yi |
| 91 | Evaluation of [³H]SynVesT - 1 binding in post-mortem brain tissue from control and Alzheimer’s Disease as a biomarker of synaptic loss | Kulagowska | Lemoine | King | Gladstein | Bevis | Bonsall | Finnema | Spires-Jones | Wells | SV2A project team | Kulagowska, Laura |
| 92 | Exploring the predictive power of graph-theoretic metrics for tau pathology in cognitively unimpaired older adults | Johns | Vin | Abuwarda | Fredericks | Johns, Emily |
| 93 | Tracking biomarkers accuracy for predicting progression to mild cognitive impairment | Gallego-Rudolf | Wiesman | Baillet | Villeneuve | Gallego-Rudolf, Jonathan |
| 94 | Tau burden across Braak stages is associated with regionally specific amyloid accumulation: insights from the BIOCARD cohort | Rani | Alm | Callow | Pettigrew | Soldan | Miller | Albert | Bakker | Rani, Nisha |
| 95 | Relationship between neuroinflammatory ER176-PET and functional connectivity in Progressive Apraxia of Speech | Singh-Reilly | Sintini | Satoh | Duffy | Utianski | Clark | Stephens | Lowe | Josephs | Whitwell | Singh-Reilly, Neha |
| 96 | Sex moderates the association between regional tau and longitudinal cognitive decline in A4 and LEARN studies | Li | Klinger | Seto | Birkenbihl | Farrell | Thibault | Rissman | Properzi | Schultz | Townsend | Yang | Johnson | Reman | Langford | Donohue | Sperling | Buckley | Coughlan | Li, Annie |
| 97 | Evaluation of the Uni-tau and CenTauR frameworks in new datasets for tau PET harmonization in Alzheimer’s disease | Lutz | Olafson | Tonietto | Klein | Pascoal | Negrini | Povala | Leuzy | Raket | Doren | Sanabria Bohorquez | Teng | Lutz, Olivia |
| 98 | Hemispheric lateralization of tau-related network dysfunction and its association with neuropsychiatric symptoms in preclinical Alzheimer’s disease | Moret | Vin | Fredericks | Moret, Sophia |
| 99 | Characterization and correction of extracerebral [18F]MK-6240 tau PET off-target signal in Alzheimer's disease | Olafson | Tonietto | Doren | Sanabria Bohórquez | Olafson, Emily |
| 100 | Investigation of optimal intensity threshold for tau-PET overlap index | Lim | Lee | Min | Moloney | Mester | Ghatamaneni | Senjem | Nguyen | Graff-Radford | Schwarz | Gunter | Kantarci | Boeve | Vemuri | Jones | Jack | Petersen | Murray | Lowe | Lim, Seokbeen |
| 101 | DeepSUVR: Towards redefining the Centiloid masks using a data-driven approach | Bourgeat | Fripp | Lebrat | Gillman | Cox | Goyal | Tosun-Turgut | LaMontagne | Benzinger | Weiner | Morris | Villemagne | Masters | Rowe | Dore | Bourgeat, Pierrick |
| 102 | Mechanical stress of the entorhinal cortex: A potential driver of tau pathology? | Zhang | Crary | Provenzano | Provenzano, Frank |
| 103 | Amyloid-Tau to neurodegeneration mismatch from inter-modality image translation using deep learning | Lyu | Yushkevich | Dong | Khandelwal | Brown | Duong | Li | Xie | Wisse | Das | Wolk | Lyu, Xueying |
| 104 | Tau PET subgroups differ in network patterns of functional connectivity and amyloid PET | Millar | Doering | Adeyemo | McKay | Metcalf | Roman | Canfield | Jindal | Flores | Strain | Wisch | Hassenstab | Schindler | Morris | Gordon | Ances | Benzinger | Millar, Peter |
| 105 | Cortical freewater increases with tau tangle aggregation | Hall | Aumont | Rahmouni | Therriault | Hosseini | Trudel | Fernandez-Arias | Macedo | Servaes | Bezgin | Wang | Zheng | Stevenson | Sanjeewa | Benedet | Triana-Baltzer | Kolb | Ashton | Zetterberg | Blennow | Pascoal | Klostranec | Rosa-Neto | Hall, Brandon |
| 106 | Distinct spatiotemporal patterns of vascular disease in Alzheimer’s disease subtypes | Ottoy | Yin | Kang | Gibson | Clappison | Yang | Carver | Rahmouni | Stevenson | Servaes | Therriault | Pascoal | Soucy | Gauthier | Black | Rosa-Neto | Goubran | Ottoy, Julie |
| 107 | Annual percent change of microglia density in relation to tau accumulation in older adults | Houlihan | Johnson | Smith | Guzman | Okafor | Heuer | Sanchez | Talmasov | Chikwem | Dass | Noble | Kreisl | Small | Lao | Houlihan, Hannah |
| 108 | Physical frailty as a risk factor for increased tau accumulation and cognitive decline in cognitively unimpaired older adults | Palmgren | Matos | Kirn | Robinson | Pintucci | Properzi | Schultz | Amariglio | Rentz | Johnson | Sperling | Chhatwal | Yau | Palmgren, Kailee |
| 109 | Assessing neuroinflammation in Alzheimer's disease: A TSPO-PET study using ER176 and its correlation with amyloid and tau pathology | Kandimalla | Jacobson | Lim | Lee | Min | Botha | Graff-Radford | Jones | Vemuri | Kantarci | Knopmam | Jack | Petersen | Lowe | Jacobson, David |
| 110 | Two distinct sources of 18F-MK-6240 off-target signal identified by individualized head modeling and PET kinetics | Chen | Fu | Puonti | Thibault | Johnson | Price | Chen, Charles |
| 112 | TSPO PET mediates tau-associated neurodegeneration in limbic and temporal regions across clinical variants of Alzheimer’s disease | Lao | Johnson | Smith | Guzman | Houlihan | Okafor | Heuer | Sanchez | Talmasov | Chikwem | Dass | Noble | Kreisl | Small | Lao, Patrick |
| 114 | Tracking plasma biomarker abnormalities with amyloid time accumulation | Bluma | Chiotis | Bucci | Savitcheva | Matton | Kivipelto | Jeromin | De Santis | Di Molfetta | Ashton | Blennow | Zetterberg | Nordberg | Bluma, Marina |
| 115 | Advancing antibody-based pretargeted PET imaging of protein aggregates in the brain | Gustavsson | Honer | Hvass | Shalgunov | Clausen | Stotz | Wünsche | Lopes van den Broek | Knudsen | Aldana | Niewoehner | Gobbi | Kustermann | Battisti | Kjær | Herth | Honer, Michael |
| 116 | Longitudinal change in mnemonic discrimination and influence of Aβ burden | Kraft | Nair | Gonen | Skotnicki | Rodrigue | Kennedy | Kraft, Jessica |
POSTER SESSIONS: 3A - Friday, January 17, 10:45 - 11:40 am; 3B - Friday, January 17, 2:55 - 3:50 pm
| Board # | Title | Authors | Presenter |
|---|---|---|---|
| 117 | Concordance between visual and quantitative amyloid PET and CSF biomarkers in the ADNI-DOD cohort | Vrillon | Blazhenets | Lagarde | Chiotis | Abu Raya | Soleimani-Meigooni | Rabinovici | Weiner | Silbert | Hantke | Schwartz | Livny Ezer | Lesman Segev | Yaffe | Shaw | Landau | La Joie | Gardner | Vrillon, Agathe |
| 118 | Calibration of multi-site raters for prospective visual read of amyloid PET scans acquired across the ADRC Consortium for Clarity in ADRD Research Through Imaging (CLARiTI) | Soleimani-Meigooni | Blazhenets | La Joie | Lin | Soppe | Johnson | Koran | McConathy | Nasrallah | Tanner | Villemagne | Windon | Zeineh | Mormino | Johnson | Rabinovici | Soleimani-Meigooni, David |
| 119 | Evaluating the effect of APOE genotype in real-world clinical settings: results from the IDEAS-ANGI study | Pezzoli | Jonson | Blazhenets | Schonhaut | Perez | Oddi | Castruita | Casaletto | Hanna | March | Gatsonis | Carrillo | Foroud | La Joie | Yokoyama | Rabinovici | Pezzoli, Stefania |
| 120 | Brain connectivity drives tau distribution while regional vulnerability drives tau load in Alzheimer’s disease | Xiao | Bazinet | Strandberg | Hansen | Shafiei | Spotorno | Behjat | Stomrud | Smith | Palmqvist | Mattsson-Carlgren | Dagher | Misic | Hansson | Vogel | Xiao, Yu |
| 121 | Synergistic effects of peripheral inflammation and neuroinflammation on amyloid, vascular, and neurodegeneration markers across the Alzheimer’s disease spectrum | Ramirez Tirado | Cohen | Shaaban | Matan | Lopresti | Ikonomovic | Karikari | Villemagne | Lopez | Ramirez Tirado, Laura |
| 122 | Impact of amyloid removal on cerebral volume changes with Gantenerumab | Tonietto | Silvestri | Belder | Barkhof | Fox | Smith | Klein | Tonietto, Matteo |
| 123 | Astrocyte reactivity explains tau-related effects on hippocampal dysfunction and longitudinal atrophy in preclinical Alzheimer’s disease | Schweitzer | Iordanova | Chen | Jin | Thurston | Lopresti | Snitz | Tudorascu | Cohen | Kamboh | Halligan-Eddy | Karikari | Villemagne | Aizenstein | Wu | Schweitzer, Noah |
| 124 | Plasma phosphorylated tau 217 and longitudinal trajectories of Aβ, tau, and cognition in cognitively unimpaired older adults | Yang | Anzai | Yau | Román Viera | Maa | Kirn | Properzi | Schultz | Farrell | Jacobs | Buckley | Papp | Marshall | Amariglio | Rentz | Braunstein | Johnson | Sperling | Chhatwal | Yang, Hyun-Sik |
| 125 | Detection of TDP-43 from plasma-derived astrocyte extracellular vesicles for identification of LATE | Rissman | Rissman, Robert |
| 126 | Short sleep duration is associated with higher subsequent plasma p-tau217 in aging | Winer | Cody | Young | Mormino | Winer, Joseph |
| 127 | Impacts of testing language and rates of amyloid positivity among underrepresented groups in the A4 Study | Sai | D. Grill | C. Mormino | B Young | Sai, Isha |
| 128 | Lower locus coeruleus metabolism is associated with greater year-to-year intraindividual cognitive variability in older individuals with elevated levels of Alzheimer’s disease pathology | Wiklund | Van Egroo | Koops | Hanseeuw | Papp | Rentz | Sperling | Johnson | Jacobs | Wiklund, Emma |
| 129 | Long-term cognitive and biomarker trajectories of cognitively unimpaired individuals with elevated plasma ptau-217 | Silva-Rodríguez | Zhang | Valeriano-Lorenzo | López-González | Wagner-Reguero | del Ser | Grothe | Sánchez-Juan | Silva-Rodríguez, Jesús |
| 130 | A large public release of PIB PET and MRI from the Mayo Clinic Study of Aging | Schwarz | Kremers | Prakaashana | Przybelski | Christenson | Williams | Gunter | Senjem | Arani | Reid | Machulda | Fields | Lowe | Kantarci | Graff-Radford | Vemuri | Petersen | Knopman | Jack | Schwarz, Christopher |
| 131 | Harmonizing visual readings of Flortaucipir and MK-6240 using head-to-head data | Ruppert | Medeiros | Rocha | Soares | Amaral | Povala | Bauer-Negrini | L. Ferreira | Lussier | Oliveira Jr. | Scarpatto Rodrigues | Mroue | Zalzale | Leffa | Saha | Bellaver | L. Tudorascu | Soleimani-Meigooni | Fortea | Lowe | Oh | Pascual | A. Gordon | Rosa-Neto | Baker | A. Pascoal | Ruppert, Emma |
| 132 | Twin-mapping techniques in clinical trials: a proof-of-concept application to the Internet-Based Conversational Engagement Clinical Trial (I-CONECT) | Wu | Chen | Arnold | Dodge | Wu, Chao-Yi |
| 133 | Effects of amyloid and tau status on multiplex plasma CNS and inflammatory proteins in a normal aging cohort | Trelle | Cody | Nguyen | Winer | Weiss | Romero | Sai | Wilson | Wagner | Maecker | Mormino | Cody, Karly |
| 134 | Tau imaging thresholds within NIA-AA multilevel tau staging as predictors of tau accumulation and cognitive decline in non-demented individuals | Gogola | Cohen | Snitz | Minhas | Tudorascu | Ikonomovic | Shaaban | Dore | Matan | DelBene | Bourgeat | Leuzy | Aizenstein | Lopez | Lopresti | Villemagne | Gogola, Alexandra |
| 135 | Multi-morbidity and Alzheimer’s disease pathology across the lifespan in adults with Down syndrome | Smith | Edwards | Flores Aguilar | Alshikho | Tudorascu | Rosas | Yassa | Hartley | Handen | Christian | Gutierrez | Wilcock | Head | Brickman | Lao | Smith, Anna |
| 136 | Cortical atrophy is correlated with the discrepancy between neuroradiological assessment and binary quantitation of florbetapir PET in nondemented older adults | Schwartz | Villamizar Alvarado | Szidonya | Choudhary | Marcoe | Mar | Gillan | Hendricks | Kaye | Silbert | Schwartz, Daniel |
| 137 | Vascular pathology influences the association of tau-PET with neurodegeneration and cognition in Aβ-negative individuals | Silva Oliveira Junior | Bellaver | C.L. Ferreira | Povala | Bauer-Negrini | Lussier | do Amaral | Rodrigues | da Rocha | Saha | Ruppert | Soares | Leffa | Felix | Mroue | Tudorascu | Zalzale | Pascual | Gordon | Lowe | Oh | Soleimani-Meigooni | Fortea | Rosa-Neto | Baker | Pascoal | Silva Oliveira Junior, Markley |
| 138 | Concomitant neurodegeneration of the lateral hypothalamus and locus coeruleus is associated with early Alzheimer’s disease-related pathophysiological and cognitive processes | Van Egroo | Baillet | Becker | Price | Properzi | Papp | Rentz | Sperling | Johnson | Jacobs | Van Egroo, Maxime |
| 139 | Amyloid-associated hyperconnectivity drives tau spreading across connected brain regions in Alzheimer’s disease | Roemer-Cassiano | Wagner | Evangelista | Dehsarvi | Steward | Dewenter | Biel | Zhu | Malpetti | Höglinger | Brendel | Jäkel | Scholl | Franzmeier | Roemer-Cassiano, Sebastian Niclas |
| 140 | Association of plasma GFAP with tau PET in cognitively unimpaired Aβ-negative subjects | Saha | Bellaver | Povala | Ferreira | Bauer-Negrini | Silva | Lussier | Rodrigues | Oliveira | Rocha | Felix | Ruppert | Medeiros | Katz | Masdeu | Tudorascu | Soleimani-Meigooni | Fortea | Lowe | Oh | Pascual | Gordon | Rosa-Neto | Baker | Pascoal | Saha, Pampa |
| 141 | The striatum is an early, accurate indicator of [C-11]PiB amyloid burden for the Down syndrome population | McLachlan | Price | Tudorascu | Laymon | Lao | Handen | Fryer | Ances | Johnson | Betthauser | Zaman | Head | Mapstone | Bettcher | LeMerise | McVea | DiFillipo | Zammit | Hartley | Christian | McLachlan, Max |
| 142 | Best practices for tau-PET tracer harmonization in Alzheimer's research | Tissot | Tsai | Giorgio | Blazhenets | Harrison | Olafson | Sanabria | Leuzy | Doré | Jagust | Rosa-Neto | Pascoal | Baker | Tissot, Cécile |
| 143 | Relationship between metabolic syndrome biomarkers and regional tau accumulation in cognitively unimpaired older adults | Tennant | Luu | Hand | Lee | Toga | O'Bryant | Yaffe | Braskie | Tennant, Victoria |
| 144 | Association of a unique pattern of white matter T2 FLAIR hyperintensities with plasma and tau PET biomarkers in former American football players | Groh | Farris | Brickman | Alshikho | Miner | Tripodis | Cui | Adler | Balcer | Bernick | Cantu | Coleman | Dodick | Ashton | Zetterberg | Blennow | Peskind | McKee | Mez | Bouix | Cummings | Reiman | Stern | Shenton | Alosco | Groh, Jenna |
| 145 | Relationship between flortaucipir-PET and quantitative susceptibility mapping in atypical Alzheimer’s disease | Singh-Reilly | Satoh | Graff-Radford | Machulda | Lowe | Josephs | Whitwell | Singh-Reilly, Neha |
| 146 | Neuropathological evaluation of the off-target binding of flortaucipir in FTLD subcortical regions: interconnecting tau aggregates with iron deposition and neuroinflammation | Gatto | Youssef | Uruk | Fu | Reichard | Lowe | Whitwell | Josephs | Gatto, Rodolfo |
| 147 | Patterns of cognitive decline in individuals with elevated p-tau217 and low levels (<20 Centiloids) of neocortical Aβ-PET signal | Townsend | Properzi | Klinger | Schultz | Coughlan | Yau | Birkenbihl | Seto | Hanseeuw | Jacobs | Farrell | Yang | Papp | Rentz | Johnson | Sperling | Chhatwal | Amariglio | Buckley | Townsend, Diana |
| 148 | Anatomic specificity of inflammation TSPO PET biomarkers in dementia | Finn | Faridar | Toledo | Nakawah | Roman | Masdeu | Pascual | Pascual, Belen |
| 149 | Head-to-head comparison of longitudinal plasma assays in relation to longitudinal amyloid pathology in Alzheimer’s disease | Yakoub | Qiu | Villeneuve | Pichet Binette | ADNI Foundation for the National Institutes of Health (FNIH) Biomarkers Consortium | Yakoub, Yara |
| 150 | Characterization of PART using MK-6240, Flortaucipir, and plasma p-tau217 | Soares | L. Ferreira | Ruppert | S. Medeiros | Rocha | Bellaver | Povala | Bauer-Negrini | Amaral | Bloomquist | Lussier | Masdeu | L. Tudorascu | Soleimani-Meigooni | Fortea | Lowe | Oh | Pascual | A. Gordon | Rosa-Neto | Baker | A. Pascoal | Soares, Carolina |
| 151 | Longitudinal rate of change in CSF biomarkers is associated with subsequent Tau PET burden in Braak stages I and II: Findings from the BIOCARD study | Rani | Moghekar | Callow | Alm | Pettigrew | Soldan | Miller | Wang | Albert | Bakker | Rani, Nisha |
| 152 | Head-to-head comparison of four tau-PET tracers for in vivo Braak staging: the HEAD Study | Cassa Macedo | Rahmouni | Tissot | Therriault | Servaes | Wang | Trudel | Aumont | Hall | Chan | Zheng | Lussier | Ferreira | Bellaver | Povala | Pascual | Gordon | Lowe | Oh | Soleimani-Meigooni | Baker | Pascoal | Rosa-Neto | Cassa Macedo, Arthur |
| 153 | Astrogliosis in the early-stages of Alzheimer's disease | Dore | Bourgeat | Harada | Furumoto | Mulligan | Xia | Paranawithana | Laws | Feizpour | Bozinovski | Huang | Lopresti | Ikonomovic | Fripp | Okamura | Rowe | Villemagne | Villemagne, Victor |
| 154 | Identifying an optimal aβ cutoff point for progression from mild cognitive impairment to Alzheimer’s disease: comparing cognitive performance and aβ pet insights | Shishegar | Bourgeat | Dore | Laws | Porter | Weiner | Masters | Maruff | Sohrabi | Fripp | Villemagne | Rowe | Bourgeat, Pierrick |
| 155 | Amyloid modifies the association between late-life BMI and longitudinal cognition in cognitively unimpaired individuals | Yau | Raman | Wang | Aggarwal | Brickman | Chhatwal | Cogswell | Graff-Radford | Pillai | Rafii | Aisen | Sperling | A4 and Learn Study Teams | Yau, Wai-Ying Wendy |
| 156 | Amyloid spatial extent captures early tau burden and cognitive deficits, measured by PACC and digital clock drawing test, in preclinical Alzheimer’s disease | Thompson | Fu | Farrell | Thibault | Slade | Del Carmen Montenegro | Robinson | Jutten | Davis | Penney | Rodriguez Alonso | Sperling | Rentz | Price | Johnson | Thompson, Jackson |
| 157 | Findings from dynamic [18F]-MK6240 PET imaging after motion and partial volume corrections | Tiss | Gong | Lois | Dhaynaut | Guehl | El Fakhri | Johnson | Ouyang | Tiss, Amal |
| 158 | Harmonization of MK6240 and Flortaucipir Braak Staging | Rocha | Bellaver | Ruppert | L. Ferreira | Soares | Medeiros | Povala | Amaral | Bauer-Negrini | Lussier | Scarpatto Rodrigues | Oliveira Jr. | Saha | Bloomquist | Masdeu | L. Tudorascu | Soleimani-Meigooni | Fortea | Lowe | Oh | Pascual | A. Gordon | Rosa-Neto | Baker | A. Pascoal | Rocha, Andreia |
| 159 | Comparison of MK-6240 PET and Flortaucipir tau PET imaging for the biological staging of Alzheimer’s disease | Scop Medeiros | L. Ferreira | Bellaver | Ruppert | Zalzale | Soares | Povala | Bauer-Negrini | Rocha | S. Rodrigues | Oliveira | Mroue | Saha | Amaral | Lussier | Bloomquist | L. Tudorascu | Masdeu | Soleimani-Meigooni | Fortea | Lowe | Oh | Pascual | A. Gordon | Rosa-Neto | P. Schilling | Baker | A. Pascoal | Scop Medeiros, Marina |
| 160 | Impact of early-stage amyloidosis on tau accumulation throughout the medial temporal lobe and neocortex | Slade | Thibault | Thompson | Fu | Becker | Price | Tiss | Gong | Sperling | Johnson | Farrell | Slade, Elliott |
| 161 | Associations between age-related tau deposition and neural selectivity in cognitively unimpaired older adults | Sheng | Trelle | Young | Romero | Park | Sai | Vossler | Wagner | Mormino | Sheng, Jintao |
| 162 | Posterior white matter hyperintensity is related to the emergence of lobar cerebral microbleeds in ADNI | Saukkonen | Yang | Loghmani | Schultz | Greenberg | Sperling | Chhatwal | Shirzadi | Saukkonen, Daniel |
| 163 | Defining the grey zone thresholds for tau PET positivity using the Uni𝜏 scale | Povala | Bellaver | Bauer-Negrini | Ruppert | Medeiros | Amaral | Lussier | Lukasewicz | Soares | Tudorascu | Masdeu | Pascual | Gordon | Lowe | Oh | Soleimani-Meigooni | Rosa-Neto | Baker | A. Pascoal | Povala, Guilherme |
| 164 | Neocortical amyloid spatial extent predicts cognitive decline over time in memory and executive function domains | Thibault | Fu | Thompson | Slade | Jacobs | Price | Rentz | Sperling | Johnson | Farrell | Thibault, Emma |
| 165 | Patterns of tau-PET accumulation and clinical progression according to biological AD stages | Trudel | Therriault | Rahmouni | Cassa Macedo | Servaes | Aumont | Hosseini | Fernandez-Arias | Zheng | Wang | Chan | Hall | Stevenson | Hopewell | Hung-Hsin Hsiao | Gauthier | Vitali | Pascoal | Rosa-Neto | Trudel, Lydia |
| 166 | The Tau Progression Index (TPI): an individualized, clinically applicable, multimodally-derived score to predict AD progression | Chiang | Butler | Ghaderi Yazdi | Ozoria | Chernek | Calimag | Blum | Pahlajani | Foldi | Khalafi | Devanand | He | Hojjati | Gholipour Picha | Habeck | Stern | Razlighi | Razlighi, Qolamreza |
| 167 | Dried plasma spot optimization for the NULISAseq CNS panel | Wilson | Rea Reyes | Fredricks | team | Rusch | VandenLangenberg | Jensen | Marshall | Keske | Weninger | Jeffers | Huber | Johnson | Zetterberg | Wilson, Rachael |
| 168 | Clinical validation of the Lumipulse G1200 automated immunoassay for the measurement of Alzheimer’s disease plasma biomarkers | Chan | Rahmouni | Zheng | Congalves | Macedo | Aumont | Therriault | Hall | Wang | Trudel | Servaes | Fernandez-Arias | Hopewell | Zetterberg | Pascoal | Benedet | Rosa-Neto | Chan, Tevy |
| 169 | Sex differences in synaptic loss in early Alzheimer’s disease | Galbraith | Abuwarda | O'Dell | Mecca | van Dyck | Fredericks | Galbraith, Jordan |
| 170 | Assessing the generalizability of AD subtypes across diverse cohorts: HABS-HD and ADNI | An | Gordon | Sotiras | Millar | O'Bryant | Ances | Meeker | An, Gordon Zhaoqi |
| 171 | Locus coeruleus - medial temporal lobe functional connectivity confers protection against amyloid-related cognitive decline in the context of high cognitive reserve | Heinrich | Prokopiou | Wiklund | Papp | Rentz | Sperling | Johnson | Jacobs | Heinrich, Lukas |
| 172 | Effect of AD risk factors on tau-PET tracer uptake and its association with amyloid-β pathology | Rodrigues | Bellaver | Povala | Bauer-Negrini | Lussier | Lulasewicz Ferreira | Silva Oliveira Junior | Rocha | Saha | Rupert | Scop Medeiros | Masdeu | Tudorascu | Soleimani-Meigooni | Fortea | Lowe | Oh | Pascual | Gordon | Rosa-Neto | Baker | Pascoal | Rodrigues, Matheus |
| 173 | PI-2620 uptake in the medial temporal lobes discriminates Alzheimer’s disease from normal cognition and non-Alzheimer’s dementias | Phillips | Temirova | Kamel | Hareras | Ibe | Hlava | Xie | Cousins | Shaw | Das | Maneval | Manning | Brown | Lopez | Keegan | Stephens | McMillan | Irwin | Li | Nasrallah | Wolk | Phillips, Jeffrey |
| 174 | Characterizing associations with Aβ burden in non-Hispanic Black participants across US POINTER and A4/LEARN cohorts | Robinson | Papp | Harrison | Baker | Snyder | Sperling | Amariglio | Landau | STUDYTEAM | Study Group | Robinson, Talia |
HAI Past Poster Sessions
