grant
Scalable imaging approach to measure muscle bioenergetics in CKD.
Organization ALBERT EINSTEIN COLLEGE OF MEDICINELocation BRONX, UNITED STATESPosted 4 Mar 2026Deadline 29 Feb 2028
NIHUS FederalResearch GrantFY202621+ years oldAccountingAddressAdipose tissueAdultAdult HumanAffectAgeAgingAnatomic SitesAnatomic structuresAnatomyAreaAtrophicAtrophyBiochemicalBioenergeticsBiopsyBlood VesselsChemical DynamicsChemicalsChronic DiseaseChronic IllnessChronic Kidney FailureChronic Renal DiseaseChronic Renal FailureClinicalCreatineCreatine PhosphateDataDeath RateDedicationsDevelopmentDysfunctionEquilibriumExerciseFatsFatty TissueFatty acid glycerol estersFibrosisFosteringFunctional disorderFundingFutureGenerationsHealthHeterogeneityHistologicHistologicallyImpairmentInfiltrationInterventionIntramuscularInvestigationKnowledgeLinkMR ImagingMR SpectroscopyMR TomographyMRIMRI ScansMRIsMagnetic Resonance ImagingMagnetic Resonance Imaging ScanMagnetic Resonance SpectroscopyMapsMeasurementMeasuresMedical Imaging, Magnetic Resonance / Nuclear Magnetic ResonanceMethodsMitochondriaModelingMolecularMulti-Institutional Clinical TrialMulti-center clinical trialMulti-center trialMulti-site clinical trialMulticenter TrialsMulticenter clinical trialMultisite clinical trialMuscleMuscle DiseaseMuscle DisordersMuscle MitochondriaMuscle TissueMuscle functionMuscular DiseasesMyopathic ConditionsMyopathic Diseases and SyndromesMyopathic disease or syndromeMyopathyNMR ImagingNMR TomographyNuclear Magnetic Resonance ImagingO elementO2 elementOxygenP50 MechanismP50 ProgramParentsParticipantPathologyPatientsPhenotypePhosphocreatinePhosphorylationPhosphorylcreatinePhysical FunctionPhysical PerformancePhysicsPhysiopathologyProspective, cohort studyProtein PhosphorylationProtocolProtocols documentationRecoveryRenal functionResearchResearch ResourcesResolutionResourcesRestSarcosomesSeveritiesSkeletal MuscleSpecialized CenterTestingTimeTranslatingVariantVariationVoluntary MuscleWalkingZeugmatographyadiposeadulthoodagesbalancebalance functionchronic disorderchronic kidney diseaseclinical phenotypeclinical practicecohortcohort investigationcohort researchdecline in functiondecline in functional statusdevelopmentaldisabilityearly biomarkersearly detection biomarkersearly detection markersefficacy testingexercise interventionfrailtyfunctional declinefunctional status declineimage-based methodimaging approachimaging based approachimaging methodimaging modalityin vivoinnovateinnovationinnovativeinnovative technologiesinsightinvestigate cohortkidney functionmitochondrialmitochondrial dysfunctionmortality ratemuscularmuscular disorderneglectnew approachesnovelnovel approachesnovel strategiesnovel strategyparentpathophysiologyphysical activity interventionphysical impairmentpre-clinicalpreclinicalprimary outcomeprognosticresolutionssecondary outcomesexstudy cohortsurvey cohortvascularvastus lateraliswhite adipose tissueyellow adipose tissue
Get Agency plan to apply$29.99/mo · 7-day free trial · pipeline · alerts
or
— or —Get email alerts for similar roles
Description preview
Project Summary/Abstract
Skeletal muscle dysfunction causes frailty and disability in patients with chronic kidney disease (CKD) and
contributes to their extremely high rates of mortality. A major contributor to poor muscle function in CKD is
mitochondrial dysfunction; thus, the ability to identify affected patients is critical. Indeed, in vivo…
🔒
Start 7-day free trial — $29.99/mo →Full details available on the Agency plan
Unlock the complete grant description, eligibility criteria, contract value, evaluation details and apply link — plus alerts, pipeline tracking, and CSV export.
Agency Plan
7-day free trialUnlock procurement & grants
Upgrade to access active tenders from World Bank, UNDP, ADB and more — with email alerts and pipeline tracking.
$29.99 / month
- 🔔Email alerts for new matching tenders
- 🗂️Track tenders in your pipeline
- 💰Filter by contract value
- 📥Export results to CSV
- 📌Save searches with one click