grant

Reducing Fall Risk with the use of Neuromuscular Electrical Stimulation to Maximize the Hip Abductor Muscles in Older Veterans

Organization BALTIMORE VA MEDICAL CENTERLocation BALTIMORE, UNITED STATESPosted 1 Jan 2022Deadline 31 Dec 2026
VANIHUS FederalResearch GrantFY2025Active Follow-upAddressAdipose tissueAgeAreaBalance trainingCAT scanCT X RayCT XrayCT imagingCT scanCaringCessation of lifeClinical TreatmentComputed TomographyCoxaDataDeathEducation for InterventionEducational InterventionElectrodesEquationEquilibriumExerciseExhibitsFall preventionFascia LataFascia lata structureFatsFatty TissueFatty acid glycerol estersFutureGaitHealthHipHip region structureHospital AdmissionHospitalizationImpairmentIncidenceInfiltrationInjuryInstruction InterventionInterventionIntramuscularIsometric ExerciseIsometricsLower ExtremityLower LimbMechanicsMedical RehabilitationMembrum inferiusMethodsMissionMuscleMuscle AtrophyMuscle Cell ContractionMuscle ContractionMuscle TissueMuscle functionMuscle-Setting ExerciseMuscular AtrophyMuscular ContractionPhysical PerformancePrevention programPublishingRandomized, Controlled TrialsRecommendationRehabilitationRehabilitation therapyResearchRoleStatic ExerciseStep TestsSurfaceTestingTimeTomodensitometryTrainingTraining InterventionTranslational ResearchTranslational ScienceTraumaVeteransWorkX-Ray CAT ScanX-Ray Computed TomographyX-Ray Computerized TomographyXray CAT scanXray Computed TomographyXray computerized tomographyactive followupadiposeagesbalancebalance functioncatscanclinical interventionclinical therapycomputed axial tomographycomputer tomographycomputerized axial tomographycomputerized tomographycostcost effectiveelectromyostimulationexercise trainingfall riskfallsfollow upfollow-upfollowed upfollowupfunctional outcomesimprovedinjuriesinstructional interventionintervention programmechanicmechanicalmulti-modalitymultimodalitymuscle breakdownmuscle bulkmuscle degradationmuscle deteriorationmuscle formmuscle lossmuscle massmuscle strengthmuscle wastingmuscularneuromuscular Electrical Stimulationneuromuscular stimulationnon-contrast CTnoncontrast CTnoncontrast computed tomographynovelolder adultolder adulthoodpatient centeredpatient orientedpatient safetyperformance testspreventing fallsprimary outcomeprogramsrandomized control trialrecruitrehab therapyrehabilitativerehabilitative therapyresponsesocial roletooltrain balancetranslation researchtranslational investigationtrial regimentrial treatmentwhite adipose tissueyellow adipose tissue
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Full Description

Falls are a leading cause of injurious death and non-fatal injuries in older adults. While fall prevention is a major
VA initiative, the current best fall preventions program only reduces falls by ~30% suggesting further research
and interventions are needed to reduce fall risk. Decreased lower extremity muscle mass and strength
contribute to balance and mobility limitations. Our recent studies show the hip abductors have a unique role in
balance and mobility function. Older adults with impaired hip abductor muscles demonstrate decreased hip
abductor strength, lower balance scores, and poor stepping mechanics when recovering from a balance
perturbation. Our preliminary results also show increased fatty infiltration of the hip abductor muscles may
contribute to poor muscle recruitment and make changing the hip abductor muscles with a traditional strength
intervention difficult. Neuromuscular electrical stimulation is one method to improve muscles in older adults,
though it is not traditionally used on the hip abductors.
Our preliminary results demonstrate that older adults who use neuromuscular electrical stimulation on their hip
abductors, in conjunction with a balance training intervention; demonstrate larger improvements in hip abductor
strength, balance, and mobility function. Our central hypothesis is that the addition of neuromuscular electrical
stimulation applied to the hip abductors during a balance intervention will result in: improved balance, larger
improvements in muscle and mobility function, and fewer falls than a balance intervention alone. In this
randomized control trial, we will determine the effects of a balance and strengthening program with and without
neuromuscular electrical stimulation on fall risk and mobility (aim 1), changes in hip abductor composition,
function, activation and gait variability (aim 2), and the retention of these changes at a six and twelve-month
follow up (aim 3). We anticipate that this patient-oriented translational research will provide the first evidence
from a large randomized control trial for the use of neuromuscular electrical stimulation applied to the primary hip
abductors as an efficacious adjunct to traditional rehabilitation programs to improve balance, mobility, and
muscle in older Veterans at risk for falls.

Grant Number: 5I01RX003484-04
NIH Institute/Center: VA
Principal Investigator: Odessa Addison

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