grant

Preparing IND filing for novel lung cancer therapeutic

Organization QUENCH MEDICAL, INC.Location SAINT PAUL, UNITED STATESPosted 1 Sept 2025Deadline 31 Aug 2026
NIHUS FederalResearch GrantFY2025AerosolsAgreementAssayBioassayBiological AssayBlood VolumeBypassCancer CauseCancer EtiologyCancer ModelCancer PatientCancer TreatmentCancerModelClinicalClinical EvaluationClinical ProtocolsClinical ResearchClinical StudyClinical TestingConsensusDataDepositDepositionDifluorodeoxycytidineDoseDrug DeliveryDrug Delivery SystemsDrug PackagingDrug TherapyDrugsDrynessFeedbackFood and Drug AdministrationFormulationGood Manufacturing ProcessGood manufacturing practiceHistologicHistologicallyHumanHydrogen OxideIND FilingIND applicationIND packageIND submissionIn VitroInhalationInhalation ToxicologyInhalingIntermediary MetabolismIntravenousInvestigational DrugsInvestigational New Drug ApplicationInvestigational New DrugsLaboratoriesLungLung NeoplasmsLung Respiratory SystemLung TumorMalignant Neoplasm TherapyMalignant Neoplasm TreatmentMalignant Tumor of the LungMalignant neoplasm of lungMarketingMedicalMedical OncologistMedicationMetabolic ProcessesMetabolismMethodsModern ManNSCLCNSCLC - Non-Small Cell Lung CancerNon-Small Cell Lung CancerNon-Small-Cell Lung CarcinomaOncologyOncology CancerOperative ProceduresOperative Surgical ProceduresParticle SizePatientsPerformancePharmaceutical PreparationsPharmacological TreatmentPharmacotherapyPharyngeal structurePharynxPhasePowder dose formPowdersPre IND FDA meetingPre-IND mtgProcessProductionPropertyProtocolProtocols documentationPulmonary CancerPulmonary NeoplasmsPulmonary malignant NeoplasmQualifyingRegulatory approvalResearch ResourcesResourcesSBIRSafetySmall Business Innovation ResearchSmall Business Innovation Research GrantSpecialistSurgicalSurgical InterventionsSurgical ProcedureSurvival RateTestingTherapeuticThroatTimeToxic effectToxicitiesToxicokineticsToxicologyTranslationsTumor BurdenTumor LoadUSFDAUnited States Food and Drug AdministrationValidationWateranti-cancer therapycancer therapycancer-directed therapychemotherapyclinical testcommercialization readinesscomparable efficacycomparative efficacycompare efficacydFdCdFdCyddrug interventiondrug treatmentdrug/agentexperimentexperimental researchexperimental studyexperimentsfirst in manfirst-in-humangemcitabineimprovedin vivoinnovative technologieslung cancermanufacturemicrobialmortalitynext generationnovelpharmaceutical interventionpharmacological interventionpharmacological therapypharmacology interventionpharmacology treatmentpharmacotherapeuticspre-IND consultationpre-IND discussionpre-IND meetingpre-Investigational New Drug meetingpre-clinicalpreclinicalprimary end pointprimary endpointpulmonaryregulatory authorizationregulatory certificationregulatory clearanceresearch clinical testingresponsesecondary end pointsecondary endpointside effectsite targeted deliverystability testingstandard of caresurgerysystemic toxicitytargeted deliverytimelinetranslationtumorvalidations
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Full Description

Project Summary Abstract
Quench Medical's unique chemotherapeutic inhalation formulation is intended to significantly improve the
control of tumors and the survival of patients while minimizing systemic toxicity. Five-year survival rates are 20%,
two-thirds of patients do not qualify for “gold standard” surgery, and systemically administered chemotherapy
drugs deliver a low drug concentration to the lungs due to blood volume dilution and metabolism. Local aerosol
delivery to the lung can bypass the systemic drug delivery limitations and is a strategy that has been shown to
significantly improve the control of pulmonary tumors. Therefore, we are developing an efficient and targeted
inhaled dry powder aerosol formulation to better treat patients with lung cancer.
This CRP project will complete the regulatory data required for investigational new drug (IND) filing of
QM-269 to the Food and Drug Administration (FDA) Division of Oncology. The efforts in this proposal continue
the commercial translation of a new type of targeted lung cancer treatment with a highly efficient and novel dry
powder formulation that is optimized to maximize efficacy and minimize toxicity to significantly improve treatment
for patients with non-small cell lung cancer. Together with the ongoing Phase II SBIR efforts, we have identified
a clear path to clinical study, 505(b)(2) FDA approval, and marketing. The commercialization readiness
milestones in this project will allow for immediate FDA regulatory IND filing to begin first-in-human clinical testing
of QM-269.

Grant Number: 1SB1CA301959-01A1
NIH Institute/Center: NIH
Principal Investigator: Bryce Beverlin II

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