grant

Development of wearable monitor to detect decompensation in cardiac failure patients

Organization MASSACHUSETTS GENERAL HOSPITALLocation BOSTON, UNITED STATESPosted 1 Jul 2024Deadline 30 Jun 2027
NIHUS FederalResearch GrantFY2025AcuteAddressAdoptionAffectAmericanAnkleAreaBloodBlood CirculationBlood Reticuloendothelial SystemBloodstreamBody TissuesBody Weight decreasedCardiacCardiac Failure CongestiveCardiac OutputCathetersCausalityChronicClinicalClinical ResearchClinical StudyClinical TrialsClinical assessmentsCompensationCongestive Heart FailureCustomDedicationsDetectionDevelopmentDevicesDropsyDrugsEarly InterventionEdemaEtiologyEventFluid overloadFrequenciesFutureHealth Care ProvidersHealth ExpendituresHealth PersonnelHeartHeart DecompensationHeart failureHemoglobinHomeHospital AdmissionHospitalizationHospitalsHydrogelsHydrogen OxideHydropsImpairmentInterventionLeftLegLifeLightLower ExtremityLower LimbMeasurementMeasuresMedicalMedicationMembrum inferiusMethodsMicrocirculationMonitorMyocardiumNIR SpectroscopyNear-Infrared SpectrometryNear-Infrared SpectroscopyO elementO2 elementOpticsOutcomeOxygenPatient AdmissionPatient Self-ReportPatientsPerfusionPeripheralPersonsPharmaceutical PreparationsPhotoradiationPhysiologicPhysiologicalPilot ProjectsPrevalencePreventative measurePreventionPreventive measureProceduresPropertyPulmonary ArteryPulmonary artery structurePumpRegio tarsalisResearchResolutionRestRiskSelf-ReportSeveritiesShortness of BreathSpectroscopySpectrum AnalysesSpectrum AnalysisSwellingSymptomsSystemTechnologyTissuesTitrationsValidationVascular DiseasesVascular DisorderWaterWeightWeight GainWeight IncreaseWeight LossWeight Reductionabsorptionanalogblood vessel disorderbody weight gainbody weight increasebody weight losscardiac failurecardiac musclecausationchip modelchip systemchronic heart failurecommon symptomcostcustomsdevelopmentaldisease causationdrug/agenthealth care expenditurehealth care personnelhealth care workerhealth providerhealth workforcehealthy volunteerheart muscleheart outputhemodynamicshome based monitoringhome monitoringhomeshospital re-admissionhospital re-admission rateshospital readmissionhospital readmission ratehypervolemiaimprovedinstrumentationlung artery blood pressuremedical expendituremedical personnelmonitoring devicenon-invasive monitornoninvasive monitoron a chipon chipopticalperipheral bloodpilot studypressurepressure in pulmonary arteriespulmonary arterial blood pressurepulmonary arterial pressurepulmonary artery pressurepulmonary artery systolic pressurere-admissionre-admission ratesre-hospitalizationre-hospitalization ratereadmissionreadmission ratesrecruitrehospitalizationrehospitalization rateremote monitoringresolutionssecondary analysistelehealthtreatment providervalidationsvascular dysfunctionvasculopathywearablewearable devicewearable electronicswearable health monitorwearable health trackerwearable monitorwearable systemwearable technologywearable toolwearablesweightswirelesswt gainwt-loss
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Full Description

PROJECT SUMMARY
Heart failure is a chronic condition in which the heart muscle can’t pump enough blood to meet the body’s needs
for blood and oxygen. Heart failure affects over 5 million Americans and it is a serious condition that can be life-
threatening if left untreated. Decompensated heart failure is the leading cause of hospital readmissions in the
US. A common symptom of decompensation is the development of peripheral edema. Detecting edema can
provide important clinical information to healthcare providers regarding the severity of the patient's heart failure
and help guide treatment decisions. However, currently patients are asked to watch for edema themselves by
checking their weight or noticing swelling of the legs/ankles and signs are often missed until the late stages of
decompensation. In this context there is a need for a remote monitor that can offer an earlier warning and permit
telehealth interventions to reduce hospital readmissions. Using our previously developed FlexNIRS platform we
propose to build and validate a multi-wavelength wearable edema and microcirculation monitor and conduct a
pilot clinical trial in patients admitted due to decompensate cardiac failure in which we will seek to demonstrate
that physiological parameters related to re-compensation can be followed non-invasively and thus support the
future conduct of larger scale studies of at home monitoring to detect decompensation.

Grant Number: 5R21EB036367-02
NIH Institute/Center: NIH
Principal Investigator: Stefan Carp

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