grant

Novel Gene Therapy, Techniques, and Devices to Prevent Ventricular Tachycardia

Organization RITHIM BIOLOGICS, INC.Location WOODBINE, UNITED STATESPosted 15 Aug 2024Deadline 31 Jul 2027
NIHUS FederalResearch GrantFY2025AAV deliveredAAV deliveryAAV vectorAAV-based deliveryAAV-based vectorAAV-based viral deliveryAAV-mediated deliveryAbbreviationsAccessory SinusesAction PotentialsAdeno-Associated VirusesAdeno-associated-virus-based deliveryAnimalsArrhythmiaAsystoleAtrialAtrial FibrillationAttenuatedAuricular FibrillationAutopsyBiodistributionBody TissuesCardiac ArrestCardiac ArrhythmiaCardiac AtriumCardiac Premature ComplicesCardiac infarctionCathetersCause of DeathCell FunctionCell PhysiologyCell ProcessCellular FunctionCellular PhysiologyCellular ProcessCessation of lifeChestCicatrixClinical EvaluationClinical TestingCoronary ArteriosclerosisCoronary Artery DiseaseCoronary Artery DisorderCoronary AtherosclerosisDNA TherapyDNA mutationDataDeathDependoparvovirusDependovirusDeveloped CountriesDevelopmentDevicesDiseaseDisorderEctopic beatsElectrophysiologyElectrophysiology (science)ElementsEnvironmentEventExtrasystoleFamily suidaeFutureGene CombinationsGene TransferGene Transfer ClinicalGenesGenetic ChangeGenetic InterventionGenetic defectGenetic mutationGoalsGrantHeartHeart ArrestHeart ArrhythmiasHeart AtriumHeterogeneityIND FilingIND applicationIND packageIND submissionIndustrialized CountriesIndustrialized NationsInfarctionInvestigational DrugsInvestigational New Drug ApplicationInvestigational New DrugsK channelLVEFLeft Ventricular Ejection FractionMalignantMalignant - descriptorMethodsModelingMonitorMuscle CellsMutationMyocardialMyocardial InfarctMyocardial InfarctionMyocytesNasal SinusesNasal cavity/ParanasalNasal cavity/Paranasal sinusesNatureNeurophysiology / ElectrophysiologyPaintParanasal SinusesPatientsPatternPerfusionPericardialPericardial body locationPersonsPhasePigsPilot ProjectsPostoperativePostoperative PeriodPotassium ChannelPotassium Ion ChannelsPreclinical dataPremature BeatsPremature Cardiac ComplexesProceduresProgram DevelopmentProteinsRefractoryReportingResearchSBIRSTTRSafetyScarsSerious Adverse EventSevere Adverse EventSinusSmall Business Innovation ResearchSmall Business Innovation Research GrantSmall Business Technology Transfer ResearchSubcellular ProcessSudden DeathSuidaeSwineTachyarrhythmiasTechniquesTestingThoraceThoracicThoraxTimeTissuesToxic effectToxicitiesTransgenesUnited StatesVentricularVentricular ArrhythmiaVentricular Tachycardiaadeno associated virus groupadeno-associated viral vectoradeno-associated viral vector deliveryadeno-associated virus deliveryadeno-associated virus mediated deliveryadeno-associated virus vectoradenovirus mediated deliveryatherosclerotic coronary diseaseattenuateattenuatescardiac infarctclinical developmentclinical relevanceclinical testclinically relevantcoronary arterial diseasecoronary attackcoronary infarctcoronary infarctiondelivered with AAVdelivery with AAVdesigndesigningdetermine efficacydevelop therapydeveloped countrydeveloped nationdeveloped nationsdevelopmentalefficacy analysisefficacy assessmentefficacy determinationefficacy evaluationefficacy examinationefficacy studyelectrophysiologicalevaluate efficacyexamine efficacyexperienceexperimentexperimental researchexperimental studyexperimentsgene repair therapygene therapygene therapy clinical trialgene-based therapygenetic therapygenome mutationgenomic therapyhealingheart attackheart infarctheart infarctioninfarctintervention developmentnecropsynovelpig modelpiglet modelpilot studyporcineporcine modelpostmortempre-clinical efficacypre-clinical safetypre-clinical therapypreclinical efficacypreclinical findingspreclinical informationpreclinical safetypreclinical therapypreventpreventingprototyperesearch clinical testingresponsesafety studyserious adverse experienceserious adverse reactionshRNAshort hairpin RNAsmall hairpin RNAsudden cardiac deathsuidswine modeltachyrhythmiatherapy developmenttransgenetransgene deliverytransgene expressiontreatment development
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Full Description

ABSTRACT
In the United States, several hundred thousand people experience cardiac arrest each year, with the vast
majority dying from this condition. Approximately two-thirds of cardiac arrest victims have previously suffered a
myocardial infarction (MI), and death results from maladaptive responses to infarct healing. The healed infarct
scar creates a substrate that supports malignant ventricular arrhythmias, and death results from ventricular
tachycardia (VT) originating in the border zone around the infarct scar. We recently reported that the
potassium channel beta subunits KCNE3 and KCNE4 are upregulated only in VT circuits, and that these
proteins cause a pattern of repolarization heterogeneity that supports reentrant VT. We previously developed
an epicardial gene painting method for transmural atrial gene transfer, and we have preliminary data showing
that use of epicardial gene painting with adeno-associated virus vectors allows complete transmural ventricular
gene transfer. In a successful STTR grant, we developed a prototype catheter that would allow epicardial gene
painting without opening the chest. In this fast track SBIR proposal, we exploit these findings to develop a cure
for post-infarct VT. We hypothesize that the VT circuit-specific repolarization effects create an environment
conducive for reentry VT, and that normalizing repolarization will prevent VT. To test our hypothesis, we
propose phase 1 experiments that finalize development of the gene painting catheter, verify ventricular-
targeted transgene expression with the gene painting catheter, and evaluate biodistribution and toxicity in sinus
rhythm animals. Phase 2 is a fully powered efficacy and safety study in our clinically relevant pig model of
post-infarct VT. Successful completion of these aims will create a preclinical data package required to support
future clinical testing of VT gene therapy.

Grant Number: 4R44HL172541-02
NIH Institute/Center: NIH
Principal Investigator: Ronald Anderson

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