2024
Adverse effects of methylphenidate for apathy in patients with Alzheimer's disease (ADMET2 trial)
Zeng L, Perin J, Gross A, Shade D, Lanctôt K, Lerner A, Mintzer J, Brawman‐Mintzer O, Padala P, van Dyck C, Porsteinsson A, Craft S, Levey A, Herrmann N, Rosenberg P. Adverse effects of methylphenidate for apathy in patients with Alzheimer's disease (ADMET2 trial). International Journal Of Geriatric Psychiatry 2024, 39: e6108. PMID: 38858522, PMCID: PMC11265565, DOI: 10.1002/gps.6108.Peer-Reviewed Original ResearchConceptsMethylphenidate groupTreating apathyPlacebo-controlled trial of methylphenidateTreatment of apathyAssociated with methylphenidateEffects of methylphenidateTrial of methylphenidateAlzheimer's diseaseFollow-upNo treatment group differencesAdverse effects of methylphenidateDiastolic blood pressureSymptom ChecklistAdverse eventsTreatment group differencesMonitoring weightMethylphenidate useMethylphenidate treatmentMedical comorbiditiesPlacebo groupParticipantsMethylphenidateGroup differencesPlacebo-controlled trialMonthly visitsUpdated safety results from phase 3 lecanemab study in early Alzheimer’s disease
Honig L, Sabbagh M, van Dyck C, Sperling R, Hersch S, Matta A, Giorgi L, Gee M, Kanekiyo M, Li D, Purcell D, Dhadda S, Irizarry M, Kramer L. Updated safety results from phase 3 lecanemab study in early Alzheimer’s disease. Alzheimer's Research & Therapy 2024, 16: 105. PMID: 38730496, PMCID: PMC11084061, DOI: 10.1186/s13195-024-01441-8.Peer-Reviewed Original ResearchConceptsOpen-label extensionInfusion-related reactionsIntracerebral hemorrhageAdverse eventsAmyloid-related imaging abnormalitiesARIA-HParallel-group studyClinical laboratory parametersMonths of treatmentMild-to-moderateMagnetic resonance imagingHomozygous participantsAPOE e4 carriersDouble-blindPlacebo-controlledLaboratory parametersStudy treatmentARIA-E.Imaging abnormalitiesOptimal patient carePhysical examinationSafety resultsClinical trialsHemosiderin depositionResonance imagingWhole genome‐wide sequence analysis of long‐lived families (Long‐Life Family Study) identifies MTUS2 gene associated with late‐onset Alzheimer's disease
Xicota L, Cosentino S, Vardarajan B, Mayeux R, Perls T, Andersen S, Zmuda J, Thyagarajan B, Yashin A, Wojczynski M, Krinsky‐McHale S, Handen B, Christian B, Head E, Mapstone M, Schupf N, Lee J, Barral S, Study T, Abner E, Adams P, Aguirre A, Albert M, Albin R, Allen M, Alvarez L, Andrews H, Apostolova L, Arnold S, Asthana S, Atwood C, Ayres G, Barber R, Barnes L, Barral S, Bartlett J, Beach T, Becker J, Beecham G, Benchek P, Bennett D, Bertelson J, Biber S, Bird T, Blacker D, Boeve B, Bowen J, Boxer A, Brewer J, Burke J, Burns J, Bush W, Buxbaum J, Byrd G, Cantwell L, Cao C, Carlsson C, Carrasquillo M, Chan K, Chasse S, Chen Y, Chesselet M, Chin N, Chui H, Chung J, Craft S, Crane P, Cranney M, Cruchaga C, Cuccaro M, Culhane J, Cullum C, Darby E, Davis B, De Jager P, DeCarli C, DeToledo J, Dickson D, Dobbins N, Duara R, Ertekin‐Taner N, Evans D, Faber K, Fairchild T, Fallin D, Fallon K, Fardo D, Farlow M, Farrell J, Farrer L, Fernandez‐Hernandez V, Foroud T, Frosch M, Galasko D, Gamboa A, Gauthreaux K, Gefen T, Geschwind D, Ghetti B, Gilbert J, Goate A, Grabowski T, Graff‐Radford N, Griswold A, Haines J, Hakonarson H, Hall K, Hall J, Hamilton R, Hamilton‐Nelson K, Han X, Harari O, Hardy J, Harrell L, Head E, Henderson V, Hernandez M, Honig L, Huebinger R, Huentelman M, Hulette C, Hyman B, Hynan L, Ibanez L, Jarvik G, Jayadev S, Jin L, Johnson K, Johnson L, Jones B, Jun G, Kamboh M, Kang M, Karydas A, Katz M, Kauwe J, Kaye J, Keene C, Keller B, Khaleeq A, Kim R, Knebl J, Kowall N, Kramer J, Kukull W, Kunkle B, Kuzma A, LaFerla F, Lah J, Larson E, Lerch M, Lerner A, Leung Y, Leverenz J, Levey A, Lieberman A, Lipton R, Lopez O, Lunetta K, Lyketsos C, Mains D, Manly J, Mark L, Marquez D, Marson D, Martin E, Masliah E, Massman P, Masurkar A, Mayeux R, McCormick W, McCurry S, McDonough S, McKee A, Mesulam M, Mez J, Miller B, Miller C, Mock C, Moghekar A, Montine T, Monuki E, Mooney S, Morris J, Mukherjee S, Myers A, Naj A, Nguyen T, Noble J, Nudelman K, O'Bryant S, Ormsby K, Ory M, Palmer R, Parisi J, Paulson H, Pavlik V, Paydarfar D, Perez V, Pericak‐Vance M, Petersen R, Polk M, Qu L, Quiceno M, Quinn J, Raj A, Rajabli F, Ramanan V, Reiman E, Reisch J, Reitz C, Ringman J, Roberson E, Rodriguear M, Rogaeva E, Rosen H, Rosenberg R, Royall D, Sano M, Saykin A, Schellenberg G, Schneider J, Schneider L, Seeley W, Sherva R, Shibata D, Small S, Smith A, Smith J, Song Y, Spina S, St George‐Hyslop P, Stern R, Stevens A, Strittmatter S, Sultzer D, Swerdlow R, Teich A, Tilson J, Tosto G, Trojanowski J, Troncoso J, Tsuang D, Valladares O, Van Deerlin V, Van Dyck C, Van Eldik L, Vance J, Vardarajan B, Vassar R, Vinters H, Wang L, Weintraub S, Welsh‐Bohmer K, Wheeler N, Wijsman E, Wilhelmsen K, Williams B, Williamson J, Wilms H, Wingo T, Wisniewski T, Woltjer R, Woon M, Younkin S, Yu L, Zhao Y, Zhou X, Zhu C, Aizenstein H, Ances B, Andrews H, Bell K, Birn R, Brickman A, Bulova P, Cheema A, Chen K, Christian B, Clare I, Cohen A, Constantino J, Doran E, Fagan A, Feingold E, Foroud T, Handen B, Harp J, Hartley S, Head E, Henson R, Hom C, Honig L, Ikonomovic M, Johnson S, Jordan C, Kamboh M, Keator D, Klunk W, Kofler J, Krinsky‐McHale S, Lai F, Lao P, Laymon C, Lee J, Lott I, Lupson V, Mapstone M, Mathis C, Minhas D, Nadkarni N, O'Bryant S, Parisi M, Pang D, Petersen M, Price J, Pulsifer M, Rafii M, Reiman E, Rizvi B, Rosas H, Ryan L, Schmitt F, Schupf N, Silverman W, Tudorascu D, Tumuluru R, Varadarajan B, White D, Yassa M, Zaman S, Zhang F. Whole genome‐wide sequence analysis of long‐lived families (Long‐Life Family Study) identifies MTUS2 gene associated with late‐onset Alzheimer's disease. Alzheimer's & Dementia 2024, 20: 2670-2679. PMID: 38380866, PMCID: PMC11032545, DOI: 10.1002/alz.13718.Peer-Reviewed Original ResearchConceptsLate-onset Alzheimer's diseaseGenes associated with late-onset Alzheimer's diseaseLate-onset Alzheimer's disease riskSeveral single nucleotide polymorphismsVariants associated with late-onset Alzheimer diseaseBeta-amyloidIdentified several single nucleotide polymorphismsWhole-genome sequence analysisGenome sequence analysisLevels of beta-amyloidAlzheimer's diseaseTight linkage disequilibriumMicrotubule associated proteinSingle nucleotide polymorphismsFamily studiesCandidate lociMTUS2Linkage disequilibriumSequence analysisAssociation analysisNucleotide polymorphismsGenetic associationAlzheimer's dementiaAssociated proteinGenetic componentA pilot study to evaluate the effect of CT1812 treatment on synaptic density and other biomarkers in Alzheimer’s disease
van Dyck C, Mecca A, O’Dell R, Bartlett H, Diepenbrock N, Huang Y, Hamby M, Grundman M, Catalano S, Caggiano A, Carson R. A pilot study to evaluate the effect of CT1812 treatment on synaptic density and other biomarkers in Alzheimer’s disease. Alzheimer's Research & Therapy 2024, 16: 20. PMID: 38273408, PMCID: PMC10809445, DOI: 10.1186/s13195-024-01382-2.Peer-Reviewed Original ResearchConceptsMild to moderate dementiaPositron emission tomographyAlzheimer's diseaseVolumetric MRIModerate dementiaClinical rating scalesSynaptic vesicle glycoprotein 2ACerebrospinal fluidMouse model of ADPharmacodynamic effectsPlacebo-controlled phase 1 clinical trialBiomarkers of AD pathologyClinical trialsCognitive measuresNominally significant differencesPhase 1 clinical trialModel of ADHippocampal cortexPhase 1/2 studyRating ScaleParallel-group trialSynaptic densityTrial registrationThe clinical trialPlacebo-controlledSigma-2 receptor ligands
2023
Localization of PDE4D, HCN1 channels, and mGluR3 in rhesus macaque entorhinal cortex may confer vulnerability in Alzheimer’s disease
Datta D, Perone I, Morozov Y, Arellano J, Duque A, Rakic P, van Dyck C, Arnsten A. Localization of PDE4D, HCN1 channels, and mGluR3 in rhesus macaque entorhinal cortex may confer vulnerability in Alzheimer’s disease. Cerebral Cortex 2023, 33: 11501-11516. PMID: 37874022, PMCID: PMC10724870, DOI: 10.1093/cercor/bhad382.Peer-Reviewed Original ResearchConceptsHCN1 channelsTau pathologyGlutamate synapsesEntorhinal cortexCalcium actionInternal calcium releaseEntorhinal cortex stellate cellsDorsolateral prefrontal cortexSusceptible neuronsInitial pathologySelective vulnerabilityEtiological factorsTau phosphorylationStellate cellsAlzheimer's diseaseSpecific neuronsCalcium releasePrefrontal cortexCortexSynapse strengthPathologyCalcium signalingCalbindinDiseaseNeuronsTrial of Solanezumab in Preclinical Alzheimer’s Disease
Sperling R, Donohue M, Raman R, Rafii M, Johnson K, Masters C, van Dyck C, Iwatsubo T, Marshall G, Yaari R, Mancini M, Holdridge K, Case M, Sims J, Aisen P. Trial of Solanezumab in Preclinical Alzheimer’s Disease. New England Journal Of Medicine 2023, 389: 1096-1107. PMID: 37458272, PMCID: PMC10559996, DOI: 10.1056/nejmoa2305032.Peer-Reviewed Original ResearchConceptsAmyloid-related imaging abnormalitiesPreclinical Alzheimer's diseasePositron emission tomographyBrain amyloid levelsPlacebo groupAmyloid levelsAlzheimer's diseaseF-florbetapir positron emission tomographyGlobal Clinical Dementia Rating (CDR) scoreMini-Mental State ExaminationPrimary end pointClinical Dementia Rating scorePhase 3 trialPreclinical Alzheimer's cognitive composite scoresDementia Rating scoreYears of ageForms of amyloidBrain positron emission tomographyImaging abnormalitiesCognitive composite scoreMean ageFamily historyMean changePersons 65State ExaminationRelationships of in vivo brain norepinephrine transporter and age, BMI, and gender
Koohsari S, Sadabad F, Pittman B, Gallezot J, Carson R, van Dyck C, Li C, Potenza M, Matuskey D. Relationships of in vivo brain norepinephrine transporter and age, BMI, and gender. Synapse 2023, 77: e22279. PMID: 37382240, PMCID: PMC10416616, DOI: 10.1002/syn.22279.Peer-Reviewed Original ResearchConceptsBody mass indexMultilinear reference tissue model 2Gender-related differencesBrain norepinephrine transportersNorepinephrine transporterAge-related declineStructural MR scansBrain regionsReference tissue model 2Mass indexRaphe nucleusLocus coeruleusOccipital cortexBMI relationshipHealthy adultsHigh-resolution research tomographAvailable radiotracersHealthy participantsMR scansAgeAnatomic templateReference regionNegative associationNet availabilityPotential agePrincipal component analysis of synaptic density measured with [11C]UCB-J PET in early Alzheimer’s disease
O'Dell R, Higgins-Chen A, Gupta D, Chen M, Naganawa M, Toyonaga T, Lu Y, Ni G, Chupak A, Zhao W, Salardini E, Nabulsi N, Huang Y, Arnsten A, Carson R, van Dyck C, Mecca A. Principal component analysis of synaptic density measured with [11C]UCB-J PET in early Alzheimer’s disease. NeuroImage Clinical 2023, 39: 103457. PMID: 37422964, PMCID: PMC10338149, DOI: 10.1016/j.nicl.2023.103457.Peer-Reviewed Original ResearchConceptsCognitive domainsCognitive performanceSubjects' scoresCortical regionsNeuropsychological batteryEarly Alzheimer's diseaseAD groupBilateral regionsNormal participantsNegative loadingsCognitive impairmentCN participantsAlzheimer's diseaseParticipantsStructural correlatesStrong contributionParticipant characteristicsScoresPositive loadingsData-driven approachTotal variancePrincipal component analysisSpecific spatial patternsHeterogeneity of Response to Methylphenidate in Apathetic Patients in the ADMET 2 Trial
Lanctôt K, Rivet L, Tumati S, Perin J, Sankhe K, Vieira D, Mintzer J, Rosenberg P, Shade D, Lerner A, Padala P, Brawman-Mintzer O, van Dyck C, Porsteinsson A, Craft S, Levey A, Padala K, Herrmann N. Heterogeneity of Response to Methylphenidate in Apathetic Patients in the ADMET 2 Trial. American Journal Of Geriatric Psychiatry 2023, 31: 1077-1087. PMID: 37385898, PMCID: PMC10765607, DOI: 10.1016/j.jagp.2023.06.002.Peer-Reviewed Original ResearchConceptsDiastolic blood pressureBlood pressureClinical predictorsDisease patientsAlzheimer's Disease Cooperative Study-ActivitiesHg diastolic blood pressureOptimal diastolic blood pressureMulti-center clinical trialDaily Living ScaleYears of ageAlzheimer's disease patientsHeterogeneity of responseApathy domainApathetic patientsClinical trialsFunctional impairmentTreatment benefitSignificant apathyLiving ScaleImpaired functionBaseline anxietyCholinesterase inhibitorsMedium effect sizeMethylphenidatePotential predictorsLecanemab in Early Alzheimer's Disease. Reply.
van Dyck C, Sabbagh M, Cohen S. Lecanemab in Early Alzheimer's Disease. Reply. New England Journal Of Medicine 2023, 388: 1631-1632. PMID: 37099355, DOI: 10.1056/nejmc2301380.Peer-Reviewed Original ResearchAlzheimer DiseaseHumansCost consequence analysis of Apathy in Dementia Methylphenidate Trial 2 (ADMET 2).
Lanctôt K, Chen C, Mah E, Kiss A, Li A, Shade D, Scherer R, Vieira D, Coulibaly H, Rosenberg P, Lerner A, Padala P, Brawman-Mintzer O, van Dyck C, Porsteinsson A, Craft S, Levey A, Burke W, Mintzer J, Herrmann N. Cost consequence analysis of Apathy in Dementia Methylphenidate Trial 2 (ADMET 2). International Psychogeriatrics 2023, 35: 664-672. PMID: 37066690, PMCID: PMC10579450, DOI: 10.1017/s1041610223000327.Peer-Reviewed Original ResearchConceptsCost-consequence analysisTreatment of apathyFive-level questionnaireTrial 2Quality of lifeBinary logistic regressionPlacebo groupPlacebo treatmentMethylphenidate treatmentSignificant apathyHealth utilityResource utilization costsAlzheimer's diseaseLogistic regressionMethylphenidateTime interactionLevel questionnaireHealthcare systemCost predictorsMeasures analysisPatientsTreatmentDiseaseMonthsUtilization costsLongitudinal head-to-head comparison of 11C-PiB and 18F-florbetapir PET in a Phase 2/3 clinical trial of anti-amyloid-β monoclonal antibodies in dominantly inherited Alzheimer’s disease
Chen C, McCullough A, Gordon B, Joseph-Mathurin N, Flores S, McKay N, Hobbs D, Hornbeck R, Fagan A, Cruchaga C, Goate A, Perrin R, Wang G, Li Y, Shi X, Xiong C, Pontecorvo M, Klein G, Su Y, Klunk W, Jack C, Koeppe R, Snider B, Berman S, Roberson E, Brosch J, Surti G, Jiménez-Velázquez I, Galasko D, Honig L, Brooks W, Clarnette R, Wallon D, Dubois B, Pariente J, Pasquier F, Sanchez-Valle R, Shcherbinin S, Higgins I, Tunali I, Masters C, van Dyck C, Masellis M, Hsiung R, Gauthier S, Salloway S, Clifford D, Mills S, Supnet-Bell C, McDade E, Bateman R, Benzinger T. Longitudinal head-to-head comparison of 11C-PiB and 18F-florbetapir PET in a Phase 2/3 clinical trial of anti-amyloid-β monoclonal antibodies in dominantly inherited Alzheimer’s disease. European Journal Of Nuclear Medicine And Molecular Imaging 2023, 50: 2669-2682. PMID: 37017737, PMCID: PMC10330155, DOI: 10.1007/s00259-023-06209-0.Peer-Reviewed Original ResearchConceptsStandardized uptake value ratioPhase 2/3 clinical trialsPositron emission tomographyAnti-Aβ monoclonal antibodyClinical trialsPlacebo armDrug effectsLongitudinal changesMonoclonal antibodiesGlobal cortical standardized uptake value ratioHead comparisonCortical standardized uptake value ratioRegional standardized uptake value ratiosAβ positron emission tomographyAmyloid-β positron emission tomographyAlzheimer's disease clinical trialsPET imagingUptake value ratioAβ PET imagingSimulated clinical trialTwo-sample t-testDrug armPittsburgh CompoundPET scansWelch two sample t-testNatural cubic splines for the analysis of Alzheimer's clinical trials
Donohue M, Langford O, Insel P, van Dyck C, Petersen R, Craft S, Sethuraman G, Raman R, Aisen P, Initiative F. Natural cubic splines for the analysis of Alzheimer's clinical trials. Pharmaceutical Statistics 2023, 22: 508-519. PMID: 36627206, PMCID: PMC10191992, DOI: 10.1002/pst.2285.Peer-Reviewed Original ResearchResponse to: Multiple Cerebral Hemorrhages in a Patient Receiving Lecanemab and Treated with t-PA for Stroke
Sabbagh M, van Dyck C. Response to: Multiple Cerebral Hemorrhages in a Patient Receiving Lecanemab and Treated with t-PA for Stroke. New England Journal Of Medicine 2023, 388: 480-480. PMID: 36599073, DOI: 10.1056/nejmc2215907.Peer-Reviewed Original ResearchLecanemab Clarity AD: Quality-of-Life Results from a Randomized, Double-Blind Phase 3 Trial in Early Alzheimer’s Disease
Cohen S, van Dyck C, Gee M, Doherty T, Kanekiyo M, Dhadda S, Li D, Hersch S, Irizarry M, Kramer L. Lecanemab Clarity AD: Quality-of-Life Results from a Randomized, Double-Blind Phase 3 Trial in Early Alzheimer’s Disease. The Journal Of Prevention Of Alzheimer's Disease 2023, 10: 771-777. PMID: 37874099, DOI: 10.14283/jpad.2023.123.Peer-Reviewed Original ResearchConceptsZarit Burden InterviewPhase 3 trialEarly Alzheimer's diseaseAlzheimer's diseaseQoL-ADPartner burdenMean changeDouble-blind phase 3 trialCerebrospinal fluid evidenceHumanized IgG1 monoclonal antibodyMarkers of amyloidLife-5 DimensionsHealth-related qualityPhase 3 developmentCare partner burdenLess increaseCerebral amyloid accumulationLess declineYears of ageQuality of lifePositron emission tomographyMild cognitive impairmentIgG1 monoclonal antibodyValuable patientsBurden InterviewInvestigating Partially Discordant Results in Phase 3 Studies of Aducanumab
Mallinckrodt C, Tian Y, Aisen P, Barkhof F, Cohen S, Dent G, Hansson O, Harrison K, Iwatsubo T, Mummery C, Muralidharan K, Nestorov I, Nisenbaum L, Rajagovindan R, von Hehn C, van Dyck C, Vellas B, Wu S, Zhu Y, Sandrock A, Chen T, Budd Haeberlein S. Investigating Partially Discordant Results in Phase 3 Studies of Aducanumab. The Journal Of Prevention Of Alzheimer's Disease 2023, 10: 171-177. PMID: 36946443, DOI: 10.14283/jpad.2023.6.Peer-Reviewed Original ResearchConceptsHigh-dose armAmyloid-related imaging abnormalitiesPhase 3 studyBaseline characteristicsImaging abnormalitiesAlzheimer's diseaseDiscordant resultsParallel-group studyHigh-dose groupMild AD dementiaEarly Alzheimer's diseaseMild cognitive impairmentSecondary endpointsTreatment armsAD dementiaAmyloid pathologyMulticenter studyRapid progressionSignificant treatment effectSafety resultsTarget dosePatientsAducanumabCognitive impairmentNon-significant difference
2022
Aging of the brain in bipolar disorder: Illness- and onset-related effects in cortical thickness and subcortical gray matter volume
Villa L, Colic L, Kim J, Sankar A, Goldman D, Lessing B, Pittman B, Alexopoulos G, van Dyck C, Blumberg H. Aging of the brain in bipolar disorder: Illness- and onset-related effects in cortical thickness and subcortical gray matter volume. Journal Of Affective Disorders 2022, 323: 875-883. PMID: 36526112, PMCID: PMC9839524, DOI: 10.1016/j.jad.2022.12.026.Peer-Reviewed Original ResearchConceptsGray matter volumeOccipital cortical thicknessSubcortical gray matter volumesCortical thicknessBipolar disorderMatter volumeOlder adultsOnset of BDIndividuals age 40Striatal gray matter volumeGray matter reductionsOnset bipolar disorderGray matter decreasesPrefrontal cortical thicknessStructural brain differencesHigh suicide riskCross-sectional designHealthy controlsCognitive dysfunctionTreatment resistanceAge 40Striatal volumeSevere symptomsSuicide attempt historySuicide attemptsHypothalamic Functional Connectivity and Apathy in People with Alzheimer’s Disease and Cognitively Normal Healthy Controls
Chaudhary S, Zhornitsky S, Chao H, van Dyck C, Li C. Hypothalamic Functional Connectivity and Apathy in People with Alzheimer’s Disease and Cognitively Normal Healthy Controls. Journal Of Alzheimer's Disease 2022, 90: 1615-1628. PMID: 36314209, PMCID: PMC10064487, DOI: 10.3233/jad-220708.Peer-Reviewed Original ResearchConceptsMiddle temporal gyrusMild cognitive impairmentMotivation circuitsFunctional connectivityPath analysisWhole-brain regressionPCu/PCCState functional connectivityTotal scoreTemporal gyrusNeural markersCingulate cortexMemory dysfunctionRSFCHealthy controlsCognitive statusCognitive impairmentAlzheimer's diseaseApathyPrecuneusMemoryRsFCsDepressionScale total scoreCognitive subscoresLecanemab in Early Alzheimer’s Disease
van Dyck C, Swanson C, Aisen P, Bateman R, Chen C, Gee M, Kanekiyo M, Li D, Reyderman L, Cohen S, Froelich L, Katayama S, Sabbagh M, Vellas B, Watson D, Dhadda S, Irizarry M, Kramer L, Iwatsubo T. Lecanemab in Early Alzheimer’s Disease. New England Journal Of Medicine 2022, 388: 9-21. PMID: 36449413, DOI: 10.1056/nejmoa2212948.Peer-Reviewed Original ResearchConceptsEarly Alzheimer's diseasePositron emission tomographyDisease Assessment ScaleAlzheimer's diseaseAmyloid burdenAlzheimer's Disease Cooperative Study-ActivitiesAmyloid-related imaging abnormalitiesKey secondary end pointEnd pointAlzheimer's Disease Assessment ScaleClinical Dementia Rating SumHumanized IgG1 monoclonal antibodyMarkers of amyloidInfusion-related reactionsPrimary end pointSecondary end pointsCerebrospinal fluid testingPhase 3 trialBrain amyloid burdenDaily Living ScaleEvidence of amyloidCDR-SB scoresYears of ageMild cognitive impairmentIgG1 monoclonal antibodyPerformance of a fully-automated Lumipulse plasma phospho-tau181 assay for Alzheimer’s disease
Wilson E, Young C, Ramos Benitez J, Swarovski M, Feinstein I, Vandijck M, Le Guen Y, Kasireddy N, Shahid M, Corso N, Wang Q, Kennedy G, Trelle A, Lind B, Channappa D, Belnap M, Ramirez V, Skylar-Scott I, Younes K, Yutsis M, Le Bastard N, Quinn J, van Dyck C, Nairn A, Fredericks C, Tian L, Kerchner G, Montine T, Sha S, Davidzon G, Henderson V, Longo F, Greicius M, Wagner A, Wyss-Coray T, Poston K, Mormino E, Andreasson K. Performance of a fully-automated Lumipulse plasma phospho-tau181 assay for Alzheimer’s disease. Alzheimer's Research & Therapy 2022, 14: 172. PMID: 36371232, PMCID: PMC9652927, DOI: 10.1186/s13195-022-01116-2.Peer-Reviewed Original ResearchConceptsPlasma p-tau181Alzheimer's Disease Research CenterP-tau181Disease Research CenterAlzheimer's diseasePositron emission tomographyAD dementiaBlood-based biomarker assaysAmyloid positron emission tomographyTreatment monitoringNovel blood-based biomarkersCSF p-tau181P-tau181 concentrationsDisease-modifying therapiesAβ42/Aβ40 ratioBlood-based biomarkersClinical AD diagnosisDetection of ADMild cognitive impairmentStudy cohortCSF biomarkersPlasma levelsAD groupPrognostic performanceCDR sum