Reaktiv Aligned Studies

  1. Schmidtbauer, K.A., E. Russell Esposito, and J.M. Wilken, Ankle-foot orthosis alignment affects running mechanics in individuals with lower limb injuries. Prosthet Orthot Int, 2019. 43(3): p. 316-324.
  2. Russell Esposito, E., E.C. Ranz, K.A. Schmidtbauer, R.R. Neptune, and J.M. Wilken, Ankle-foot orthosis bending axis influences running mechanics. Gait Posture, 2017. 56: p. 147-152.
  3. Russell Esposito, E., H.S. Choi, J.G. Owens, R.V. Blanck, and J.M. Wilken, Biomechanical response to ankle-foot orthosis stiffness during running. Clin Biomech (Bristol, Avon), 2015. 30(10): p. 1125-1132.
  4. Haight, D.J., E. Russell Esposito, and J.M. Wilken, Biomechanics of uphill walking using custom ankle-foot orthoses of three different stiffnesses. Gait Posture, 2015. 41(3): p. 750-756.
  5. Bedigrew, K.M., J.C. Patzkowski, J.M. Wilken, J.G. Owens, R.V. Blanck, D.J. Stinner, K.L. Kirk, and J.R. Hsu, Can an integrated orthotic and rehabilitation program decrease pain and improve function after lower extremity trauma? Clin Orthop Relat Res, 2014. 472(10): p. 3017-3025.
  6. Ikeda, A.J., J.R. Fergason, and J.M. Wilken, Clinical Outcomes with the Intrepid Dynamic Exoskeletal Orthosis: A Retrospective Analysis. Mil Med, 2019. 184(11-12): p. 601-605.
  7. Patzkowski, J.C., R.V. Blanck, J.G. Owens, J.M. Wilken, K.L. Kirk, J.C. Wenke, and J.R. Hsu, Comparative effect of orthosis design on functional performance. J Bone Joint Surg Am, 2012. 94(6): p. 507-515.
  8. Russell Esposito, E., K.A. Schmidtbauer, and J.M. Wilken, Experimental comparisons of passive and powered ankle-foot orthoses in individuals with limb reconstruction. J Neuroeng Rehabil, 2018. 15(1): p. 111.
  9. Russell Esposito, E., R.V. Blanck, N.G. Harper, J.R. Hsu, and J.M. Wilken, How does ankle-foot orthosis stiffness affect gait in patients with lower limb salvage? Clin Orthop Relat Res, 2014. 472(10): p. 3026-3035.
  10. Harper, N.G., E.R. Esposito, J.M. Wilken, and R.R. Neptune, The influence of ankle-foot orthosis stiffness on walking performance in individuals with lower-limb impairments. Clin Biomech (Bristol, Avon), 2014. 29(8): p. 877-884.
  11. Ranz, E.C., E. Russell Esposito, J.M. Wilken, and R.R. Neptune, The influence of passive-dynamic ankle-foot orthosis bending axis location on gait performance in individuals with lower-limb impairments. Clin Biomech (Bristol, Avon), 2016. 37: p. 13-21.
  12. Potter, B.K., R.G. Sheu, D. Stinner, J. Fergason, J.R. Hsu, K. Kuhn, J.G. Owens, J. Rivera, S.B. Shawen, J.M. Wilken, J. DeSanto, Y. Huang, D.O. Scharfstein, and E.J. MacKenzie, Multisite Evaluation of a Custom Energy-Storing Carbon Fiber Orthosis for Patients with Residual Disability After Lower-Limb Trauma. J Bone Joint Surg Am, 2018. 100(20): p. 1781-1789.
  13. Wilken, J.M., C.W. Roy, S.W. Shaffer, J.C. Patzkowski, R.V. Blanck, J.G. Owens, and J.R. Hsu, Physical Performance Limitations After Severe Lower Extremity Trauma in Military Service Members. J Orthop Trauma, 2018. 32(4): p. 183-189.
  14. Harper, N.G., E.M. Russell, J.M. Wilken, and R.R. Neptune, Selective laser sintered versus carbon fiber passive-dynamic ankle-foot orthoses: a comparison of patient walking performance. J Biomech Eng, 2014. 136(9): p. 091001.
  15. Aldridge Whitehead, J.M., E. Russell Esposito, and J.M. Wilken, Stair ascent and descent biomechanical adaptations while using a custom ankle-foot orthosis. J Biomech, 2016. 49(13): p. 2899-2908.
  16. Bennett, N., H. Jarvis, and L.C.R. Phillip, Can an ankle foot orthoses be designed to reduce pain and significantly improve function in the UK military limb salvage population? Prosthetics and Orthotics International, 2015. 39: p. 91.
  17. Borghi, C., R. Neviani, C. Ferrara, S. Costi, D. Pandarese, and A. Ferrari, Carbon ankle seven spring orthoses in children affected by diplegic cerebral palsy: Effect on gait efficiency and symmetry. Gait and Posture, 2017. 57: p. 5.
  18. Tavernese, E., M. Petrarca, G. Rosellini, E. Di Stanislao, A. Pisano, G. Di Rosa, and E. Castelli, Carbon Modular Orthosis (Ca.M.O.): An innovative hybrid modular ankle-foot orthosis to tune the variable rehabilitation needs in hemiplegic cerebral palsy. NeuroRehabilitation, 2017. 40(3): p. 447-457.
  19. <Bartonek, A., R. Wang, M. Eriksson, and E.M. Gutierrez-Farewik, Comparison of two carbon fibre spring orthoses on gait in children with myelomeningocele. Gait and Posture, 2013. 38: p. S21-S22.
  20. Quacinella, M., E. Bernstein, B. Mazzone, M. Wyatt, and K.M. Kuhn, Do Spatiotemporal Gait Parameters Improve After Pilon Fracture in Patients Who Use the Intrepid Dynamic Exoskeletal Orthosis? Clin Orthop Relat Res, 2019. 477(4): p. 838-847.
  21. Wolf, S.I., M. Alimusaj, O. Rettig, and L. Döderlein, Dynamic assist by carbon fiber spring AFOs for patients with myelomeningocele. Gait Posture, 2008. 28(1): p. 175-177.
  22. Bartonek, A., M. Eriksson, and E.M. Gutierrez-Farewik, Effects of carbon fibre spring orthoses on gait in ambulatory children with motor disorders and plantarflexor weakness. Dev Med Child Neurol, 2007. 49(8): p. 615-620.
  23. Desloovere, K., G. Molenaers, L. Van Gestel, C. Huenaerts, A. Van Campenhout, B. Callewaert, P. Van de Walle, and J. Seyler, How can push-off be preserved during use of an ankle foot orthosis in children with hemiplegia? A prospective controlled study. Gait Posture, 2006. 24(2): p. 142-151.
  24. Mangan, K.I., T.D. Kingsbury, B.N. Mazzone, M.P. Wyatt, and K.M. Kuhn, Limb Salvage With Intrepid Dynamic Exoskeletal Orthosis Versus Transtibial Amputation: A Comparison of Functional Gait Outcomes. J Orthop Trauma, 2016. 30(12): p. e390-e395.
  25. Waterval, N.F.J., F. Nollet, J. Harlaar, and M.A. Brehm, Modifying ankle foot orthosis stiffness in patients with calf muscle weakness: gait responses on group and individual level. Journal of NeuroEngineering & Rehabilitation (JNER), 2019. 16(1): p. N.PAG-N.PAG.
  26. Bartonek, A., M. Eriksson, and E.M. Gutierrez-Farewik, A new carbon fibre spring orthosis for children with plantarflexor weakness. Gait Posture, 2007. 25(4): p. 652-656.
  27. Highsmith, M.J., L.M. Nelson, N.T. Carbone, T.D. Klenow, J.T. Kahle, O.T. Hill, J.T. Maikos, M.S. Kartel, and B.J. Randolph, Outcomes Associated With the Intrepid Dynamic Exoskeletal Orthosis (IDEO): A Systematic Review of the Literature. Mil Med, 2016. 181(S4): p. 69-76.
  28. Ladlow, P., N. Bennett, R. Phillip, S. Dharm-Datta, L. McMenemy, and A.N. Bennett, Passive-dynamic ankle-foot orthosis improves medium-term clinical outcomes after severe lower extremity trauma. J R Army Med Corps, 2019. 165(5): p. 330-337.
  29. Stewart, J., T. Djafar, R. Miltenberger, T. Kingsbury, and M. Wyatt, Plantar Pressure Changes with Use of an Intrepid Dynamic Exoskeletal Orthosis. Journal of Prosthetics & Orthotics (JPO), 2020. 32(1): p. 59-64.
  30. Ploeger, H.E., N.F.J. Waterval, F. Nollet, S.A. Bus, and M.A. Brehm, Stiffness modification of two ankle-foot orthosis types to optimize gait in individuals with non-spastic calf muscle weakness - a proof-of-concept study. J Foot Ankle Res, 2019. 12: p. 41.
  31. Vasiliauskaite, E., A. Ielapi, M. De Beule, W. Van Paepegem, J.P. Deckers, M. Vermandel, M. Forward, and F. Plasschaert, A study on the efficacy of AFO stiffness prescriptions. Disabil Rehabil Assist Technol, 2019: p. 1-13.
  32. Quacinella, M., B. Mazzone, K. Kuhn, and M. Wyatt, Use of the Intrepid Dynamic Exoskeletal Orthosis in the Management of Common Peroneal Nerve Palsy after Knee Dislocation. Journal of Prosthetics & Orthotics (JPO), 2019. 31(1): p. 11-15.