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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

612 related items for PubMed ID: 34034753

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  • 3. Benefits of the Genium microprocessor controlled prosthetic knee on ambulation, mobility, activities of daily living and quality of life: a systematic literature review.
    Mileusnic MP, Rettinger L, Highsmith MJ, Hahn A.
    Disabil Rehabil Assist Technol; 2021 Jul; 16(5):453-464. PubMed ID: 31469023
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  • 4. The comparison of transfemoral amputees using mechanical and microprocessor- controlled prosthetic knee under different walking speeds: A randomized cross-over trial.
    Cao W, Yu H, Zhao W, Meng Q, Chen W.
    Technol Health Care; 2018 Jul; 26(4):581-592. PubMed ID: 29710741
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  • 5. Mobility and satisfaction with a microprocessor-controlled knee in moderately active amputees: A multi-centric randomized crossover trial.
    Lansade C, Vicaut E, Paysant J, Ménager D, Cristina MC, Braatz F, Domayer S, Pérennou D, Chiesa G.
    Ann Phys Rehabil Med; 2018 Sep; 61(5):278-285. PubMed ID: 29753888
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  • 6. Enhancement of a prosthetic knee with a microprocessor-controlled gait phase switch reduces falls and improves balance confidence and gait speed in community ambulators with unilateral transfemoral amputation.
    Fuenzalida Squella SA, Kannenberg A, Brandão Benetti Â.
    Prosthet Orthot Int; 2018 Apr; 42(2):228-235. PubMed ID: 28691574
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  • 8. Impact of stance phase microprocessor-controlled knee prosthesis on ramp negotiation and community walking function in K2 level transfemoral amputees.
    Burnfield JM, Eberly VJ, Gronely JK, Perry J, Yule WJ, Mulroy SJ.
    Prosthet Orthot Int; 2012 Mar; 36(1):95-104. PubMed ID: 22223685
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  • 9. Comparison of patient-reported and functional outcomes following transition from mechanical to microprocessor knee in the low-activity user with a unilateral transfemoral amputation.
    Davie-Smith F, Carse B.
    Prosthet Orthot Int; 2021 Jun 01; 45(3):198-204. PubMed ID: 34016872
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  • 10. Impact of a stance phase microprocessor-controlled knee prosthesis on level walking in lower functioning individuals with a transfemoral amputation.
    Eberly VJ, Mulroy SJ, Gronley JK, Perry J, Yule WJ, Burnfield JM.
    Prosthet Orthot Int; 2014 Dec 01; 38(6):447-55. PubMed ID: 24135259
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  • 11. Prosthetic rehabilitation for older dysvascular people following a unilateral transfemoral amputation.
    Barr S, Howe TE.
    Cochrane Database Syst Rev; 2018 Oct 23; 10(10):CD005260. PubMed ID: 30350430
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  • 12. Exploring the interaction of knee and ankle component use on mobility test performance in people with unilateral transfemoral amputation.
    Barnett CT, Hughes LD, Sullivan AE, Strutzenberger G, Levick JL, Bisele M, De Asha AR.
    Prosthet Orthot Int; 2021 Dec 01; 45(6):470-476. PubMed ID: 34538818
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  • 13. Benefits of microprocessor-controlled prosthetic knees to limited community ambulators: systematic review.
    Kannenberg A, Zacharias B, Pröbsting E.
    J Rehabil Res Dev; 2014 Dec 01; 51(10):1469-96. PubMed ID: 25856664
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  • 14. Functional assessment and satisfaction of transfemoral amputees with low mobility (FASTK2): A clinical trial of microprocessor-controlled vs. non-microprocessor-controlled knees.
    Kaufman KR, Bernhardt KA, Symms K.
    Clin Biomech (Bristol); 2018 Oct 01; 58():116-122. PubMed ID: 30077128
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  • 15. Functional added value of microprocessor-controlled knee joints in daily life performance of Medicare Functional Classification Level-2 amputees.
    Theeven P, Hemmen B, Rings F, Meys G, Brink P, Smeets R, Seelen H.
    J Rehabil Med; 2011 Oct 01; 43(10):906-15. PubMed ID: 21947182
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  • 20. Prosthetic rehabilitation for older dysvascular people following a unilateral transfemoral amputation.
    Cumming JC, Barr S, Howe TE.
    Cochrane Database Syst Rev; 2006 Oct 18; (4):CD005260. PubMed ID: 17054250
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