A service of the U.S. National Library of Medicine
and the National Institutes of Health
Search PubMedProteinNucleotideCoreNucleotideGSSESTStructureGenomeBooksCancerChromosomesConserved DomainsdbGaP3D DomainsGeneGenome ProjectGENSATGEO ProfilesGEO DataSetsHomoloGeneJournalsMeSHNCBI Web SiteNLM CatalogOMIAOMIMPMCPopSetProbeProtein ClustersPubChem BioAssayPubChem CompoundPubChem SubstanceSNPTaxonomyToolKitUniGeneUniSTS for Go Clear
Display SummaryBriefAbstractAbstractPlusCitationMEDLINEXMLUI ListLinkOutASN.1Related ArticlesCited in BooksCancerChrom LinksDomain Links3D Domain LinksGEO DataSet LinksGene LinksGene (OMIM) LinksGene (GeneRIF) LinksGenome LinksProject LinksGENSAT LinksGEO Profile LinksHomoloGene LinksCoreNucleotide LinksCoreNucleotide (RefSeq) LinksEST LinksEST (RefSeq) LinksGSS LinksGSS (RefSeq) LinksNucleotide LinksNucleotide (RefSeq) LinksOMIA LinksOMIM (calculated) LinksOMIM (cited) LinksBioAssay LinksCompound LinksCompound (MeSH Keyword)Compound (Publisher) LinksSubstance LinksSubstance (MeSH Keyword)Substance (Publisher) LinksPMC LinksCited in PMCPopSet LinksProbe LinksProtein LinksProtein (RefSeq) LinksProtein (Weighted) LinksProtein Cluster LinksCited ArticlesSNP LinksStructure LinksTaxonomy via GenBankUniGene LinksUniSTS Links Show 5102050100200500Sort ByPub DateFirst AuthorLast AuthorJournalSend toTextFilePrinterClipboardE-mailOrder
|
All: 1 |
Review: 0 |
|
1: Gait Posture. 2007 Mar;25(3):360-7. Epub 2006 May 23.
Compensatory strategies during normal walking in response to muscle weakness and increased hip joint stiffness.
Department of Mechanical Engineering, The University of Texas at Austin, Austin, TX 78712, USA.
Compared to young adults, older adults exhibit a slower walking speed, smaller step length, shorter swing phase time and decreased range of motion in their lower extremity joints. The underlying mechanisms causing these gait adaptations is not well understood, with various musculoskeletal parameters being put forth as contributing factors, including increased joint stiffness and decreased isometric muscle strength. The objective of this study was to identify the necessary compensatory mechanisms to overcome such musculoskeletal deficits and regain a normal walking pattern. Understanding these mechanisms has important implications for designing effective rehabilitation interventions for older adults that target specific muscle groups and properties (e.g., isometric strength versus joint stiffness) to improve gait performance. Muscle-actuated forward dynamics simulations of normal walking were analyzed to quantify compensatory mechanisms in the presence of muscle weakness in specific muscle groups and increased hip joint stiffness. Of particular importance were the compensatory mechanisms provided by the plantar flexors, which were shown to be able to compensate for many musculoskeletal deficits, including diminished muscle strength in the hip and knee flexors and extensors and increased hip joint stiffness. This importance was further highlighted when a normal walking pattern could not be achieved through compensatory action of other muscle groups when the uniarticular and biarticular plantar flexor strength was decreased as a group. Thus, rehabilitation or preventative exercise programs may consider focusing on increasing or maintaining plantar flexor strength, which appears critical to maintaining normal walking mechanics.
PMID: 16720095 [PubMed - indexed for MEDLINE]
Related Links
Display SummaryBriefAbstractAbstractPlusCitationMEDLINEXMLUI ListLinkOutASN.1Related ArticlesCited in BooksCancerChrom LinksDomain Links3D Domain LinksGEO DataSet LinksGene LinksGene (OMIM) LinksGene (GeneRIF) LinksGenome LinksProject LinksGENSAT LinksGEO Profile LinksHomoloGene LinksCoreNucleotide LinksCoreNucleotide (RefSeq) LinksEST LinksEST (RefSeq) LinksGSS LinksGSS (RefSeq) LinksNucleotide LinksNucleotide (RefSeq) LinksOMIA LinksOMIM (calculated) LinksOMIM (cited) LinksBioAssay LinksCompound LinksCompound (MeSH Keyword)Compound (Publisher) LinksSubstance LinksSubstance (MeSH Keyword)Substance (Publisher) LinksPMC LinksCited in PMCPopSet LinksProbe LinksProtein LinksProtein (RefSeq) LinksProtein (Weighted) LinksProtein Cluster LinksCited ArticlesSNP LinksStructure LinksTaxonomy via GenBankUniGene LinksUniSTS Links Show 5102050100200500Sort ByPub DateFirst AuthorLast AuthorJournalSend toTextFilePrinterClipboardE-mailOrder