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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

266 related items for PubMed ID: 21515890

  • 1.
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  • 2. Modeling neuromuscular effects of ankle foot orthoses (AFOs) in computer simulations of gait.
    Crabtree CA, Higginson JS.
    Gait Posture; 2009 Jan; 29(1):65-70. PubMed ID: 18657977
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  • 3. Effects of joint alignment and type on mechanical properties of thermoplastic articulated ankle-foot orthosis.
    Gao F, Carlton W, Kapp S.
    Prosthet Orthot Int; 2011 Jun; 35(2):181-9. PubMed ID: 21697200
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  • 5. Computational modelling of ankle-foot orthosis to evaluate spatially asymmetric structural stiffness: Importance of geometric nonlinearity.
    Sumihira W, Otani T, Kobayashi Y, Tanaka M.
    Proc Inst Mech Eng H; 2022 Sep; 236(9):1357-1364. PubMed ID: 35875899
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  • 6. Neuromechanical adaptation to hopping with an elastic ankle-foot orthosis.
    Ferris DP, Bohra ZA, Lukos JR, Kinnaird CR.
    J Appl Physiol (1985); 2006 Jan; 100(1):163-70. PubMed ID: 16179395
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  • 8. The effect of changing plantarflexion resistive moment of an articulated ankle-foot orthosis on ankle and knee joint angles and moments while walking in patients post stroke.
    Kobayashi T, Singer ML, Orendurff MS, Gao F, Daly WK, Foreman KB.
    Clin Biomech (Bristol); 2015 Oct; 30(8):775-80. PubMed ID: 26149007
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  • 9. Passive-dynamic ankle-foot orthoses substitute for ankle strength while causing adaptive gait strategies: a feasibility study.
    Arch ES, Stanhope SJ.
    Ann Biomed Eng; 2015 Feb; 43(2):442-50. PubMed ID: 25023660
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  • 10. Effect of a hybrid ankle foot orthosis made of polypropylene and fabric in chronic hemiparetic stroke patients.
    Do KH, Song JC, Kim JH, Jung GS, Seo SW, Kim YK, Son SM, Jang SH.
    Am J Phys Med Rehabil; 2014 Feb; 93(2):130-7. PubMed ID: 24088782
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  • 11. Modifying ankle foot orthosis stiffness in patients with calf muscle weakness: gait responses on group and individual level.
    Waterval NFJ, Nollet F, Harlaar J, Brehm MA.
    J Neuroeng Rehabil; 2019 Oct 17; 16(1):120. PubMed ID: 31623670
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  • 12. Effect of ankle orientation on heel loading and knee stability for post-stroke individuals wearing ankle-foot orthoses.
    Silver-Thorn B, Herrmann A, Current T, McGuire J.
    Prosthet Orthot Int; 2011 Jun 17; 35(2):150-62. PubMed ID: 21515899
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  • 16. Comparison of five different methodologies for evaluating ankle-foot orthosis stiffness.
    Shuman BR, Totah D, Gates DH, Gao F, Ries AJ, Russell Esposito E.
    J Neuroeng Rehabil; 2023 Jan 22; 20(1):11. PubMed ID: 36683044
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  • 17. Comparison of Sagittal Plane Stiffness of Nonarticulated Pediatric Ankle-Foot Orthoses Designed to be Rigid.
    Fatone S, Owen E, Gao F, Shippen G, Orendurff MS, Bjornson K.
    J Prosthet Orthot; 2022 Jan 22; 34(1):e44-e49. PubMed ID: 35250237
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  • 18. A quantitative analysis of optimum design for rigid ankle foot orthoses: The effect of thickness and reinforcement design on stiffness.
    Chatzistergos PE, Eddison N, Ganniari-Papageorgiou E, Chockalingam N.
    Prosthet Orthot Int; 2024 Apr 01; 48(2):204-212. PubMed ID: 37314325
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  • 19. Reduction of genu recurvatum through adjustment of plantarflexion resistance of an articulated ankle-foot orthosis in individuals post-stroke.
    Kobayashi T, Orendurff MS, Singer ML, Gao F, Daly WK, Foreman KB.
    Clin Biomech (Bristol); 2016 Jun 01; 35():81-5. PubMed ID: 27136122
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  • 20. Precision orthotics: optimising ankle foot orthoses to improve gait in patients with neuromuscular diseases; protocol of the PROOF-AFO study, a prospective intervention study.
    Waterval NF, Nollet F, Harlaar J, Brehm MA.
    BMJ Open; 2017 Feb 28; 7(2):e013342. PubMed ID: 28246134
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