grant

Intermediate-sized Expanded Access Protocol for CNM-Au8 in Amyotrophic Lateral Sclerosis (ALS).

Organization NEW YORK UNIVERSITY SCHOOL OF MEDICINELocation NEW YORK, UNITED STATESPosted 25 Sept 2023Deadline 31 Aug 2027
NIHUS FederalResearch GrantFY2025ALS patientsALS therapyALS treatmentAddressAdenosine TriphosphateAdenylpyrophosphateAdverse ExperienceAdverse eventAffectAmyotrophic Lateral SclerosisAmyotrophic Lateral Sclerosis Motor Neuron DiseaseAmyotrophic Lateral Sclerosis patientsAutoregulationBiological MarkersBlood - brain barrier anatomyBlood PlasmaBlood SerumBlood-Brain BarrierBrainBrain Nervous SystemCalciumCell BodyCellsCessation of lifeCharacteristicsChemicalsClinicClinicalClinical ResearchClinical StudyClinical TreatmentClinical TrialsCollaborationsCountryCreatinineDataData ScienceData SetDeathDegenerative Neurologic DisordersDihydronicotinamide Adenine DinucleotideDiphosphopyridine NucleotideDiseaseDisease ProgressionDisorderDoseEligibilityEligibility DeterminationEncephalonEnergy ExpenditureEnergy MetabolismEnrollmentEnteral FeedingEvaluationEventFrequenciesGehrig's DiseaseGeneticGoalsHealth ServicesHemato-Encephalic BarrierHomeostasisImpairmentImprove AccessInfrastructureIntermediary MetabolismInvestigationLightLou Gehrig DiseaseMeasuresMedulla SpinalisMetabolic ProcessesMetabolismMethodsMitochondriaModelingMonitorMotor CellMotor NeuronsMulti-center trialMulticenter TrialsNadideNerve CellsNerve UnitNervous System Degenerative DiseasesNeural CellNeural Degenerative DiseasesNeural degenerative DisordersNeurocyteNeurodegenerative DiseasesNeurodegenerative DisordersNeurologic Degenerative ConditionsNeuronsNeuroprotectantsNeuroprotective AgentsNeuroprotective DrugsNicotinamide adenine dinucleotideNicotinamide-Adenine DinucleotideOralOral AdministrationOral Drug AdministrationOutcome MeasureOxidative StressParticipantPatientsPersonsPhasePhase 2 Clinical TrialsPhase 3 Clinical TrialsPhase II Clinical TrialsPhase III Clinical TrialsPhlebotomyPhotoradiationPhysiological HomeostasisPlacebo ControlPlasmaPlasma SerumPopulationProbabilistic ModelsProbability ModelsPropertyProtocolProtocol ScreeningProtocols documentationRNA ProcessingRandomizedResearch ResourcesResourcesReticuloendothelial System, Serum, PlasmaSafetySamplingSerious Adverse EventSerumSevere Adverse EventSpecialtySpecific qualifier valueSpecifiedSpinal CordStatistical ModelsSurfaceSuspension substanceSuspensionsTimeTracheostomyTracheostomy procedureTrainingUbiquitin C-Terminal EsteraseUbiquitin Carboxy-Terminal EsteraseUbiquitin Carboxy-Terminal HydrolaseUbiquitin ThiolesteraseUnited StatesUniversitiesVenous blood samplingVisitamyotrophic lateral sclerosis therapyamyotrophic lateral sclerosis treatmentarmbio-markersbiologic markerbiomarkerbloodbrain barrierclinical interventionclinical therapycohortcomputer based predictiondegenerative diseases of motor and sensory neuronsdegenerative neurological diseasesenrollenteric feedingexperiencefeeding tubegastric feedingglutamate signalingglutamatergic dendrodendritic synapsesglutamatergic signalinggold nano particlegold nanoparticlegradient boostingimprovedindividual patientinnovateinnovationinnovativeintraoral drug deliverymachine learning based modelmachine learning modelmeasurable outcomemedical specialtiesmitochondrialmotoneuronnano goldnano medicinalnano medicinenanoGoldnanocrystalnanomedicinalnanomedicinenerve cell deathnerve cell lossneurodegenerative illnessneurofilamentneuron cell deathneuron cell lossneuron deathneuron lossneuronalneuronal cell deathneuronal cell lossneuronal deathneuronal lossneuroprotectionneuroprotectiveopen labelopen label studyoutcome measurementphase II protocolphase III protocolplacebo controlledpre-clinicalpre-clinical studypreclinicalpreclinical studyprediction algorithmpredictive modelingprimary outcomeprogramsprotein homeostasisproteostasisrandomisationrandomizationrandomly assignedreal world evidencerural arearural localityrural locationrural placerural regionrural settingsafety assessmentsecondary outcomeserious adverse experienceserious adverse reactionstatistical linear mixed modelsstatistical linear modelssurvival predictiontelehealthtrial regimentrial treatmenttube feedingubiquitin C-terminal hydrolasevirtual
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Full Description

ABSTRACT
Columbia University, Clene, and Synapticure are partnering and taking an innovative approach to
provide persons living with amyotrophic lateral sclerosis ALS (pALS) across all 50 states—
including those in remote/rural areas—access to CNM-Au8®, a well-tolerated neuroprotective
drug being investigated for treatment of ALS. ALS is a progressive neurodegenerative disease
affecting motor neurons of the brain and spinal cord. Investigations of the mechanism of this
disease have revealed that motor neurons are energetically impaired in ALS. Signs of energetic
impairment in motor neurons precede clinical manifestations, and energetic impairment is key to
the events affecting mitochondrial function, glutamatergic signaling, calcium homeostasis, RNA
processing/function, and proteostasis, leading to neuronal death. CNM-Au8 is an orally
administered suspension of blood-brain barrier penetrant, catalytically active gold nanocrystals
shown to protect neurons from death by raising intracellular levels of energy metabolites,
nicotinamide adenine dinucleotide, and adenosine triphosphate. Preclinical studies using several
independent genetic or chemically induced models of neurodegenerative disease have
demonstrated robust neuroprotective properties across multiple neuronal subtypes. Two Phase 2
randomized, placebo-controlled, parallel group, multicenter trials investigated the safety and
efficacy of CNM-Au8 in ALS. Open label extension (OLE) associated with each of these trials are
ongoing. While both trials failed to meet primary and secondary outcomes, results from both
studies consistently demonstrated benefit on prespecified exploratory endpoints of disease
progression and survival. CNM-Au8 also consistently showed favorable safety and tolerability
profile across all studies, with no serious adverse events related to CNM-Au8 to date. Columbia,
Clene, and Synapticure propose a multicenter, intermediate-size Expanded Access Program for
the continued investigation of CNM-Au8 in 100 pALS. An innovative approach will use up to 10
experienced ALS trial centers across the country that have established relationship with Clene. It
will also enroll via virtual clinic by Synapticure to enable inclusion of patients in all 50 states. The
primary aim of this study is to evaluate safety in a cohort of pALS that are not clinical trial eligible.
Potential effects on survival and on clinical measures of disease progression will be pre-specified
and assessed using multiple independent, validated statistical models that are trained on large
clinical trial and real-world ALS datasets. Biomarkers of disease progression, such as plasma
Neurofilament Light Chain (NfL), UCHL1, and serum creatinine levels will be analyzed to enhance
and corroborate the interpretation of clinical results.

Grant Number: 7U01NS136023-03
NIH Institute/Center: NIH
Principal Investigator: Jinsy Andrews

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