KraftGH. Rehabilitation still the only way to improve function in multiple sclerosis. Lancet1999; 354: 2016–2017.
2.
CalabròRS. Exoskeletons in MS rehabilitation are ready for widespread use in clinical practice: Yes. Mult Scler. Epub ahead of print 2 May 2022. DOI: 10.1177/13524585221091410.
3.
SwinnenEDe KeersmaeckerEBeckwéeD. Exoskeletons in MS rehabilitation are ready for widespread use in clinical practice: No. Mult Scler. Epub ahead of print 2 May 2022. DOI: 10.1177/13524585221091410.
4.
BerriozabalgoitiaRBidaurrazaga-LetonaIOtxoaE, et al. Overground robotic program preserves gait in individuals with multiple sclerosis and moderate to severe impairments: A randomized controlled trial. Arch Phys Med Rehabil2021; 102(5): 932–939.
5.
DuddyDDohertyRConnollyJ, et al. The effects of powered exoskeleton gait training on cardiovascular function and gait performance: A systematic review. Sensors (Basel) 2021; 21(9): 3207.
6.
HeinemannAWJayaramanAMummidisettyCK, et al. Experience of robotic exoskeleton use at four spinal cord injury model systems centers. J Neurol Phys Ther2018; 42(4): 256–267.
7.
McIntoshKCharbonneauRBensaadaY, et al. The safety and feasibility of exoskeletal-assisted walking in acute rehabilitation after spinal cord injury. Arch Phys Med Rehabil2020; 101(1): 113–120.
8.
GormanPHForrestGFAsselinPK, et al. The effect of exoskeletal-assisted walking on spinal cord injury bowel function: Results from a randomized trial and comparison to other physical interventions. J Clin Med2021; 10: 964.