grant

Improving Neurological Health with Acetylcholine via Neuroplasticity-based Computerized Exercise in Mild Cognitive Impairment (INHANCE-MCI)

Organization POSIT SCIENCE CORPORATIONLocation SAN FRANCISCO, UNITED STATESPosted 20 Sept 2025Deadline 31 May 2027
NIHUS FederalResearch GrantFY202521+ years oldAD dementiaAcetylcholineActive Follow-upActivities of Daily LivingActivities of everyday lifeAddressAdultAdult HumanAgingAlzheimer Type DementiaAlzheimer disease dementiaAlzheimer sclerosisAlzheimer syndromeAlzheimer'sAlzheimer's DiseaseAlzheimers DementiaAmentiaAmericanAndroidBindingBlood PressureBrainBrain Nervous SystemCNS plasticityCell Communication and SignalingCell SignalingCognitionCognitiveCognitive DisturbanceCognitive ImpairmentCognitive declineCognitive function abnormalComputational toolkitControlled Clinical TrialsCoupledDegenerative Neurologic DisordersDementiaDevicesDisturbance in cognitionDouble-Blind MethodDouble-Blind StudyDouble-BlindedDouble-Masked MethodDouble-Masked StudyEducation for InterventionEducational InterventionElderlyEncephalonEnsureExerciseExhibitsFamilyFinancial HardshipFosteringFundingHandHealthHealth Care SystemsHourImpaired cognitionImpairmentIncidenceIndividualInstruction InterventionInternetInterventionIntracellular Communication and SignalingLanguageLeadershipMaintenanceMeasuresMediatingMediatorMolecular InteractionNational Institutes of HealthNerve Impulse TransmissionNerve TransmissionNervous System Degenerative DiseasesNeural Degenerative DiseasesNeural degenerative DisordersNeurodegenerative DiseasesNeurodegenerative DisordersNeurologicNeurologic Degenerative ConditionsNeurologicalNeuronal PlasticityNeuronal TransmissionNeuropsychologiesNeuropsychologyOutcomePETPET ScanPET imagingPETSCANPETTParticipantPatientsPatternPhasePhysical ExercisePlayPositron Emission Tomography Medical ImagingPositron Emission Tomography ScanPositron-Emission TomographyPrimary Senile Degenerative DementiaProductivityPublishingQOL improvementRad.-PETRandomizedReportingResearchRiskSBIRScheduleScienceSignal TransductionSignal Transduction SystemsSignalingSisterSmall Business Innovation ResearchSmall Business Innovation Research GrantSocietiesSpeedSubgroupSynaptic plasticityTestingTimeTrainingTraining InterventionTraining ProgramsTranslatingUnited States National Institutes of HealthVAChT proteinVisualWWWacetylcholine transporteractive controlactive followupadulthoodadvanced agealertnessarmaxon signalingaxon-glial signalingaxonal signalingbiological signal transductionbrain healthcentral nervous system plasticitycholinergiccognitive dysfunctioncognitive functioncognitive losscognitive performancecognitive trainingcomparable efficacycomparative efficacycompare efficacycomputational toolboxcomputational toolscomputational toolsetcomputerizedcomputerized toolscostdaily living functiondaily living functionalitydegenerative diseases of motor and sensory neuronsdegenerative neurological diseasesdementia riskdesigndesigningdetermine efficacyefficacy analysisefficacy assessmentefficacy determinationefficacy evaluationefficacy examinationevaluate efficacyexamine efficacyfinancial adversityfinancial burdenfinancial distressfinancial insecurityfinancial strainfinancial stressfluoroethoxy-benzovesamicolfluoroethoxybenzovesamicolfollow upfollow-upfollowed upfollowupfunctional abilityfunctional capacityfunctional gaingeriatricglia signalingglial signalinghandsimprovedimprovements in QOLimprovements in quality of lifeindexinginformation processinginstructional interventioninterestlife spanlife style interventionlifespanlifestyle interventionmild cognitive disordermild cognitive impairmentmodifiable lifestyle factorsnerve signalingneural controlneural plasticityneural regulationneural signalingneurochemicalneurochemistryneurodegenerative illnessneuromodulationneuromodulatoryneuronal signalingneuroplasticneuroplasticityneuropsychologicneuroregulationneurotransmissionolder adultolder adulthoodphase 2 trialphase II trialpositron emission tomographic (PET) imagingpositron emission tomographic imagingpositron emitting tomographypreventpreventingprimary degenerative dementiaprimary outcomeprocessing speedprogramsprospectivequality of life improvementradioligandrandomisationrandomizationrandomly assignedresilienceresilientrisk factor for dementiarisk for dementiasecondary outcomesenile dementia of the Alzheimer typesenior citizenslow potentialsuccessuptakevesicular acetylcholine transportervisual controlwebworld wide web
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Full Description

Acetylcholine plays a key role in regulating synaptic plasticity and mediating crucial aspects of cognitive function. Unfortunately, binding levels of acetylcholine decline by an estimated 2.5% per decade throughout the lifespan, with sharper decreases observed in individuals with mild cognitive impairment. Computerized brain training may enhance cholinergic neurotransmission, potentially slowing cognitive decline associated with these deficits. In the current proposal, we will deploy a computerized cognitive training program (INHANCE-MCI), inspired by the positive findings of the recently completed INHANCE study (2R44AG039965-05). This cognitive training intervention was partially developed through two successful SBIR-funded Phase II programs (R44AG039965; R44NS071780). The program will integrate two validated but
historically independent computerized exercises that, based on prior research, may synergistically reduce the long-term risk of dementia onset. This prospective, double-blind, parallel-arm, active-controlled clinical trial will randomize patients with mild cognitive impairment to intervention or active control and evaluate changes in cholinergic function, cognitive performance, and functional abilities. The broader objectives of the project are two-fold: (1) to uncover the mechanisms through which specific forms of brain training deliver cognitive and functional gains to address the rapid rise in neurodegenerative diseases and (2) to promote widespread availability of the program. An effective, low-cost, and highly scalable program, available across platforms (web, iOS, Android) on both internet-connected and offline devices, offers the potential for global reach, extending the accessibility of brain health strategies in at-risk adults. With such computerized tools in hand, we can enhance the lives of patients and their families, alleviate the significant financial burden associated with cognitive impairment, and make strides toward creating a healthier society and a more efficient healthcare system.

Grant Number: 1R44AG094520-01
NIH Institute/Center: NIH
Principal Investigator: Mouna Attarha

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