Daily steps are associated with the ability to walk in patients hospitalized with subacute stroke
Lynch, EA et al. Activity monitors to increase physical activity in adult stroke survivors. Cochrane Database System. Round. sevenCD012543 (2018).
Bailey, RR, Phad, A., McGrath, R., and Haire-Joshu, D. Prevalence of five lifestyle risk factors in American adults with and without stroke. Invalid. Health J 12323–327 (2019).
West, T. & Bernhardt, J. Physical activity in hospitalized patients with stroke. Stroke Res. Treat. 2012813765 (2012).
Vanroy, C. et al. Physical activity in chronic patients living at home and patients hospitalized with subacute stroke using objective, self-reported measures. Top Stroke rehabilitation. 2398-105 (2016).
Shimizu, N., Hashidate, H., Ota, T. & Yatsunami, M. Daytime physical activity at admission is associated with improved walking independence 1 month later in people who have undergone Subacute stroke: a longitudinal study. Top Stroke rehabilitation. 2725–32 (2020).
Lacroix, J. et al. Level of physical activity in patients with stroke hospitalized in a rehabilitation unit. PM R 897-104 (2016).
Bohannon, RW, Andrews, AW & Smith, MB Rehabilitation goals for hemiplegic patients. Int. J. Rehabilitation. Res. 11181–184 (1988).
Scari, M. et al. A mapping study of physical activity in post-stroke rehabilitation: establishing the baseline. J. Rehabilitation. Med. 45997-1003 (2013).
Shimizu, N., Hashidate, H., Ota, T., Suzuki, T., and Yatsunami, M. Intensity-based physical activity characteristics as a function of walking ability in people hospitalized with subacute stroke : a cross-sectional study. Phys. The. Res. 2217-25 (2019).
Kubo, H. et al. Reference value of 6-minute walking distance in patients with subacute stroke. Top Stroke rehabilitation. 27337–343 (2020).
Klassen, TD et al. Activity “intensified” after a stroke: the accelerometer positioned at the ankle can accurately record steps during slow walking. Phys. The. 96355–360 (2016).
Klassen, TD et al. Consumer-based physical activity monitor as a convenient way to measure walking intensity during the rehabilitation of an inpatient stroke patient. Stroke. 482614-2617 (2017).
Huy, J. et al. Validity of the fitbit one for measuring activity in community-dwelling stroke survivors. Physiother. Box. 7081–89 (2018).
Fitbit Dashboard, www.fitbit.com/. Accessed October 1, 2019
Holden, MK, Gill, KM, Magliozzi, MR, Nathan, J., and Piehl-Baker, L. Clinical assessment of gait in people with neurological disorders. Reliability and sense. Phys. The. 6435–40 (1984).
Mehrholz, J., Wagner, K., Rutte, K., Meissner, D., and Pohl, M. Predictive validity and responsiveness of functional ambulation category in hemiparetic patients after stroke. Camber. Phys. Med. Rehabilit. 881314-1319 (2007).
Gladstone, DJ, Danells, CJ & Black, SE The Fugl-Meyer assessment of motor recovery after stroke: a critical review of its measurement properties. Neurorehabilitation. Neuronal repair. 16232–40 (2002).
guidelines for the six-minute walk test. ATS Committee on Competence Standards for Clinical Pulmonary Function Laboratories. ATS statement. Am J Respir Crit Care Med. 166111–117 (2002).
Kennedy, C. et al. Factors associated with time to independent walking recovery after stroke. J. Neurol., Neurosurgery. Psychiatrist. 92(7), 702–708 (2021).
Cumming, tuberculosis et al. Very early mobilization after accelerated stroke for return to walking: further results from the AVERT phase II randomized controlled trial. Stroke 42153–158 (2011).
O’brien, RM A caveat regarding rules of thumb for variance inflation factors. Qual. Quant. 41(5), 673–690 (2007).
Akobeng, AK Understanding Diagnostic Tests 3: Receiver Operating Characteristic Curves. Acta Paediatr. 96644–647 (2007).
Rosa, MC, Marques, A., Demain, S. & Metcalf, CD Rapid walking speed and self-perceived balance as valid predictors and discriminators of independent community walking at 6 months after stroke–a preliminary study. Invalid. Rehabilit. 37129–134 (2015).
Preston, E., Ada, L., Stanton, R., Mahendran, N. & Dean, CM Prediction of independent walking in nonambulatory individuals early after stroke: a systematic review. Stroke 523217–3224 (2021).
Mansfield, A. et al. Using accelerometer-based feedback of gait activity to assess progress with gait-related goals in the rehabilitation of inpatients after stroke: a randomized controlled trial. Neurorehabilitation. Neuronal repair. 29847–857 (2018).
Askim, T., Bernhardt, J., Salvesen, O. & Indredavik, B. Physical activity early after stroke and its association with functional outcome 3 months later. J. Stroke Cerebrovasc. Say. 23e305–e312 (2014).
Kono, Y. et al. Predictive impact of daily physical activity on new vascular events in patients with mild ischemic stroke. Int. J. Stroke. ten219–223 (2015).
Simpson, DB et al. Go home, sit less: The impact of the home versus hospital rehabilitation environment on the activity levels of stroke survivors. Camber. Phys. Med. Rehabilit. 992216-2221.e1 (2018).
Kawajiri, H. et al. Maximum walking speed at exit may be a prognostic factor for vascular events in patients with mild stroke: a cohort study. Camber. Phys. Med. Rehabilit. 100230-238 (2019).
Kanai, M. et al. Association of perceived attributes of the built environment with objectively measured physical activity in community-dwelling ambulatory patients with stroke. Int. J. About. Res. Public health. 163908 (2019).
Klassen, TD et al. Higher doses improve gait recovery during rehabilitation of hospitalized stroke patients. Stroke 512639–2648 (2020).
Krarup, LH et al. Pre-stroke physical activity is associated with severity and long-term outcomes of the very first stroke. Neurology 711313-1318 (2008).
Ursin, MH, Ihle-Hansen, H., Fure, B., Tveit, A. & Bergland, A. Effects of premorbid physical activity on stroke severity and post-stroke functioning. J. Rehabilitation. Med. 47612–617 (2015).