Hatcher-MartinJMAdamsJLAndersonER, et al. Telemedicine in neurology: Telemedicine work group of the American Academy of Neurology update. Neurology2020; 93: 30–38.
2.
YeroushalmiSMaloniHCostelloK, et al. Telemedicine and multiple sclerosis: A comprehensive literature review. J Telemed Telecare2020; 26(7–8): 400–413.
3.
RobbJFHylandMHGoodmanAD.Comparison of telemedicine versus in-person visits for persons with multiple sclerosis: A randomized crossover study of feasibility, cost, and satisfaction. Mult Scler Relat Disord2019; 36: 101258.
4.
D’HaeseleerMEelenPSadeghiN, et al. Feasibility of real time internet-based teleconsultation in patients with multiple sclerosis: Interventional pilot study. J Med Internet Res2020; 22(8): e18178.
5.
BoveRGarchaPBevenCJ, et al. Clinic to in-home telemedicine reduces barriers to care for patients with MS or other neuroimmunologic conditions. Neurol Neuroimmunol Neuroinflamm2018; 5: e505.
6.
LearmonthYCMotlRWSandroffBM, et al. Validation of Patient Determined Disease Steps (PDDS) Scale scores in persons with multiple sclerosis. BMC Neurol2013; 13: 37.
7.
CharvetLEYangJShawMT, et al. Cognitive function in multiple sclerosis improves with tele rehabilitation: Results from a randomized controlled trial. PLoS ONE2017; 12(5): e0177177.
8.
CramerSCDodakianLLeVu.Efficacy of home-based telerehabilitation vs in-clinic therapy for adults after stroke: A randomized clinical trial. JAMA Neurol2019; 76(9): 1079–1087.
9.
BoveRBevanCCrabtreeE, et al. Toward a low-cost, in-home, telemedicine-enabled assessment of disability in multiple sclerosis. Mult Scler2019; 25(11): 1526–1534.
10.
BradshawMJFarrowSMotlRW, et al. Wearable biosensors to monitor disability in multiple sclerosis. Neurol Clin Pract2017; 7(4): 354–362.
