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RESEARCH PRODUCT
Association ankle function and balance in community-dwelling older adults.
Irene Borja-de-fuentesElena Costa-morenoDavid Hernández-guillénCatalina Tolsada-velascoJosé-maría BlascoSergio Roig-casasússubject
MalePhysiologyTimed Up and Go testmedicine.disease_causeWeight-bearingWeight-BearingElderlyPostural BalanceMedicine and Health SciencesRange of Motion ArticularPostural BalanceMusculoskeletal SystemAged 80 and overMultidisciplinaryQREye Musclesmedicine.anatomical_structurePhysiological ParametersLegsMedicineIndependent LivingAnatomyRange of motionResearch Articlemedicine.medical_specialtyOcular AnatomyCognitive NeuroscienceScienceMotor ReactionsPhysical medicine and rehabilitationOcular SystemmedicineHumansAdultsMuscle StrengthAssociation (psychology)Dynamic balanceBalance (ability)AgedBalance and Fallsbusiness.industryBody WeightAnklesBiology and Life SciencesPostural ControlCross-Sectional StudiesAge GroupsGeriatricsBody LimbsPeople and PlacesEyesCognitive SciencePopulation GroupingsAnkleAnklebusinessHeadAnkle JointNeurosciencedescription
Background and purpose Ankle function declines with age. The objective of this study was to investigate the association between ankle function and balance in older adults, with a focus on range of motion (ROM) and strength. Methods This was a cross-sectional study that included 88 healthy community-dwelling older adults. Ankle mobility was measured while bearing weight (lunge test) and not bearing weight. The plantar-flexor muscle strength was assessed using a hand-held dynamometer. Balance was measured in terms of dynamic balance and mobility (timed up and go test), monopodal and bipodal static balance with open and closed eyes (single-leg stand test and platform measures), and margins of stability (functional reach test). Linear correlation and multiple regression analyses were conducted with a 95% CI. Results and discussion Most participants had limited ankle mobility (n = 75, 86%). Weight-bearing ankle dorsiflexion ROM was the strongest predictor of dynamic balance and included general mobility and stability (Radj2 = [0.34]; β = [-0.50]). In contrast, plantar-flexor muscle strength was a significant predictor of static standing balance with open eyes (Radj2 = [0.16–0.2]; β = [0.29–0.34]). Overall, weight-bearing ankle dorsiflexion ROM was a more representative measure of balance and functional performance; however, a non-weight-bearing mobility assessment provides complementary information. Therefore, both measures can be used in clinical practice. Conclusion This study supports the concept that ankle mobility contributes to the performance of dynamic tasks, while the plantar-flexor muscle strength helps to develop a standing static balance. Identification of alterations in ankle function is warranted and may assist in the design of tailored interventions. These interventions can be used in isolation or to augment conventional balance training in order to improve balance performance in community-dwelling older adults.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-03-04 | PLoS ONE |