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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

150 related items for PubMed ID: 37920802

  • 1. Changes in neuromuscular activation, heart rate and rate of perceived exertion over the course of a wheelchair propulsion fatigue protocol.
    Minder U, Arnet U, Müller E, Boninger M, Bossuyt FM.
    Front Physiol; 2023; 14():1220969. PubMed ID: 37920802
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  • 2. Compensation Strategies in Response to Fatiguing Propulsion in Wheelchair Users: Implications for Shoulder Injury Risk.
    Bossuyt FM, Arnet U, Cools A, Rigot S, de Vries W, Eriks-Hoogland I, Boninger ML, SwiSCI Study Group.
    Am J Phys Med Rehabil; 2020 Feb; 99(2):91-98. PubMed ID: 31335344
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  • 4. Changes in surface electromyography signals and kinetics associated with progression of fatigue at two speeds during wheelchair propulsion.
    Qi L, Wakeling J, Grange S, Ferguson-Pell M.
    J Rehabil Res Dev; 2012 Feb; 49(1):23-34. PubMed ID: 22492335
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  • 6. Acute Neuromuscular Fatigability and Perceived Exertion in High-Level University Pianists: An Electromyography and Maximum Force Capacity Study.
    McCrary JM, Stolarov MO, Oku T, Sternkopf F, Altenmüller E.
    Med Probl Perform Art; 2023 Jun; 38(2):121-128. PubMed ID: 37260220
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  • 7. Power-assisted wheels ease energy costs and perceptual responses to wheelchair propulsion in persons with shoulder pain and spinal cord injury.
    Nash MS, Koppens D, van Haaren M, Sherman AL, Lippiatt JP, Lewis JE.
    Arch Phys Med Rehabil; 2008 Nov; 89(11):2080-5. PubMed ID: 18996235
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  • 8. Changes in supraspinatus and biceps tendon thickness: influence of fatiguing propulsion in wheelchair users with spinal cord injury.
    Bossuyt FM, Boninger ML, Cools A, Hogaboom N, Eriks-Hoogland I, Arnet U, SwiSCI study group.
    Spinal Cord; 2020 Mar; 58(3):324-333. PubMed ID: 31745246
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  • 11. Effect of fore-aft seat position on shoulder demands during wheelchair propulsion: part 2. An electromyographic analysis.
    Gutierrez DD, Mulroy SJ, Newsam CJ, Gronley JK, Perry J.
    J Spinal Cord Med; 2005 Mar; 28(3):222-9. PubMed ID: 16048140
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  • 13. Construction and evaluation of a model for wheelchair propulsion in an individual with tetraplegia.
    Odle B, Reinbolt J, Forrest G, Dyson-Hudson T.
    Med Biol Eng Comput; 2019 Feb; 57(2):519-532. PubMed ID: 30255235
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  • 15. Wheelchair users' perceived exertion during typical mobility activities.
    Qi L, Ferguson-Pell M, Salimi Z, Haennel R, Ramadi A.
    Spinal Cord; 2015 Sep; 53(9):687-91. PubMed ID: 25777329
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  • 16. Electromyographic activity of shoulder muscles during wheelchair propulsion by paraplegic persons.
    Mulroy SJ, Gronley JK, Newsam CJ, Perry J.
    Arch Phys Med Rehabil; 1996 Feb; 77(2):187-93. PubMed ID: 8607745
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  • 17. Shoulder muscular demand during lever-activated vs pushrim wheelchair propulsion in persons with spinal cord injury.
    Requejo PS, Lee SE, Mulroy SJ, Haubert LL, Bontrager EL, Gronley JK, Perry J.
    J Spinal Cord Med; 2008 Feb; 31(5):568-77. PubMed ID: 19086715
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  • 19. Scapular kinematics during manual wheelchair propulsion in able-bodied participants.
    Bekker MJ, Vegter RJK, van der Scheer JW, Hartog J, de Groot S, de Vries W, Arnet U, van der Woude LHV, Veeger DHEJ.
    Clin Biomech (Bristol); 2018 May; 54():54-61. PubMed ID: 29554550
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