Lynch, EA et al. Activity monitors to increase physical activity in adult stroke patients. Cochrane database system. rev 7CD012543 (2018).
Google Scholar
Bailey RR, Phad A, McGrath R & Haire-Joshu D. Prevalence of five lifestyle risk factors in US adults with and without stroke. Deactivation Health J 12323-327 (2019).
Google Scholar
West, T. & Bernhardt, J. Physical activity in inpatient stroke patients. Handle Stroke Resolution. 2012813765 (2012).
Google Scholar
Vanroy, C. et al. Physical activity in chronic home-based and sub-acute inpatient stroke patients using objective and self-reported measures. Top stroke rehabilitation. 2398-105 (2016).
Google Scholar
Shimizu, N., Hashidate, H., Ota, T. & Yatsunami, M. Daytime physical activity on admission is associated with improvement in gait independence 1 month later in people with subacute stroke: a longitudinal study. Top stroke rehabilitation. 2725-32 (2020).
Google Scholar
Lacroix, J. et al. Physical activity levels in stroke patients hospitalized in a rehabilitation unit. PM R 8th97-104 (2016).
Google Scholar
Bohannon, RW, Andrews, AW & Smith, MB Rehabilitation goals of patients with hemiplegia. international J. Rehabilitation. resolution 11181-184 (1988).
Google Scholar
Scarin, M. et al. A mapping study of physical activity in stroke rehabilitation: establishing the baseline. J. Rehabilitation. medication 45997-1003 (2013).
Google Scholar
Shimizu, N., Hashidate, H., Ota, T., Suzuki, T. & Yatsunami, M. Characteristics of intensity-based physical activity after gait ability in patients hospitalized with subacute stroke: a cross-sectional study. physics thermal resolution 2217-25 (2019).
Google Scholar
Kubo, H. et al. Reference value of 6 minutes walking distance in patients with subacute stroke. Top stroke rehabilitation. 27337-343 (2020).
Google Scholar
Classes, TD et al. “Speed up” activity after stroke: The accelerometer, positioned at the ankle, can accurately record steps during slow walking. physics thermal 96355-360 (2016).
Google Scholar
Classes, TD et al. Consumer-based motion monitor as a practical method for measuring walking intensity during inpatient stroke rehabilitation. Stroke. 482614-2617 (2017).
Google Scholar
Hui, J. et al. Validity of the Fitbit One for measuring activity in stroke survivors in community households. Physiother. Allowed to. 7081-89 (2018).
Google Scholar
fitbit dashboard, www.fitbit.com/. Retrieved October 1, 2019
Holden, MK, Gill, KM, Magliozzi, MR, Nathan, J. & Piehl-Baker, L. Clinical gait assessment in neurologically impaired individuals. reliability and meaningfulness. physics thermal 6435-40 (1984).
Google Scholar
Mehrholz, J., Wagner, K., Rutte, K., Meissner, D. & Pohl, M. Predictive validity and responsiveness of the functional ambulation category in hemiparetic patients after stroke. Bow. physics Medical rehab. 881314-1319 (2007).
Google Scholar
Gladstone, DJ, Danells, CJ & Black, SE The Fugl-Meyer assessment of motor recovery after stroke: a critical review of its measurement properties. neurorehab. Neural Repair. 16232-40 (2002).
Google Scholar
Guidelines for the Six Minute Walk Test. ATS Committee on Standards of Competence for Lung Function Clinical Laboratories. ATS Statement. Am J Respir Crit Care Med. 166111-117 (2002).
Google Scholar
Kennedy, C et al. Factors associated with time to recovery of walking after stroke. J. Neurol., Neurosurg. psychiatrist 92(7), 702-708 (2021).
Google Scholar
Cumming, TB et al. Very early mobilization after stroke accelerates return to walking: further results from the randomized controlled phase II AVERT trial. Stroke 42153-158 (2011).
Google Scholar
O’brien, RM A warning about the rules of thumb for variance inflation factors. torment quantity 41(5), 673-690 (2007).
Google Scholar
Akobeng, AK Understanding Diagnostic Tests 3: Receiver Operating Characteristics. Acta Paediatr. 96644-647 (2007).
Google Scholar
Rosa, MC, Marques, A., Demain, S. & Metcalf, CD Fast walking speed and self-perceived balance as valid predictors and discriminators of independent walking in the community 6 months after stroke–a preliminary study. deactivation rehab. 37129-134 (2015).
Google Scholar
Preston, E., Ada, L., Stanton, R., Mahendran, N. & Dean, CM Prediction of independent gait in people who are unable to walk early after stroke: A systematic review. Stroke 523217-3224 (2021).
Google Scholar
Mansfeld, A. et al. Using accelerometer-based walking activity feedback to assess progress on walking-related goals in inpatient stroke rehabilitation: A randomized controlled trial. neurorehab. Neural Repair. 29847-857 (2018).
Google Scholar
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. Dis. 23e305-e312 (2014).
Google Scholar
Kono, Y et al. Predictive influence of daily physical activity on new vascular events in patients with mild ischemic stroke. international J Stroke. 10219-223 (2015).
Google Scholar
Simpson, DB et al. Going Home, Sitting Less: The Effects of Home versus Hospital Environment on Activity Levels of Stroke Survivors. Bow. physics Medical rehab. 992216-2221.e1 (2018).
Google Scholar
Kawajiri, H. et al. Maximum walking speed at discharge could be a prognostic factor for vascular events in patients with minor stroke: a cohort study. Bow. physics Medical rehab. 100230-238 (2019).
Google Scholar
Kanai, M. et al. Association of perceived attributes of the built environment with objectively measured physical activity in stroke outpatients in shared accommodation. international J. Environment. resolution healthcare. 163908 (2019).
Google Scholar
Classes, TD et al. Higher doses improve walking recovery during inpatient post-stroke rehabilitation. Stroke 512639-2648 (2020).
Google Scholar
Kraup, LH et al. Pre-stroke physical activity is linked to the severity and long-term outcome of the very first stroke. neurology 711313-1318 (2008).
Google Scholar
Ursin, MH, Ihle-Hansen, H., Fure, B., Tveit, A. & Bergland, A. Effects of premorbid physical activity on stroke severity and functioning after stroke. J. Rehabilitation. medication 47612-617 (2015).
Google Scholar
