D M Cameron1, R W Bohannon, G E Garrett, S V Owen, D A Cameron. 1. Department of Physical Therapy, School of Health Sciences, Quinnipiac University, 275 Mount Carmel Ave., Hamden, CT 06518, USA. denise.cameron@quimnipiac.edu
Abstract
OBJECTIVE: Compare kinetic energy and duration of task during sit-to-stand and curb-climbing of two groups: hemiparetic stroke patients and matched controls. For patients, describe relationships between selected physical impairments and sit-to-stand and curb-climbing performance. DESIGN: Descriptive and correlational.Background. Measures and treatments are best selected after specific limitations in functional activities (e.g., sit-to-stand) and related impairments are identified. METHOD. Fifteen patients, 29-77 (mean=53.7) years with recent stroke and 15 demographically matched healthy controls participated. Physical performance variables measured were standing balance, maximum paretic extremity weight-bearing, and knee extension strength. Sit-to-stand and curb-climbing performance were characterized using kinetic energy and task duration. Differences in physical and functional performance between groups were determined. Spearman correlations were calculated between patients' physical impairments and sit-to-stand and curb-climbing performance. RESULTS: Compared to controls, patients demonstrated reduced kinetic energy (P< or =0.003) and prolonged duration (P< or = 0.001) for sit-to-stand and curb-climbing. Significant relationships (r(s)=0.49-0.50) were demonstrated between sit-to-stand kinetic energy and knee extension strength, standing balance, and maximum weight-bearing. For curb climbing, significant relationships (r(s)=0.45) were found between kinetic energy and standing balance and maximum weight-bearing. CONCLUSION: Impaired balance and maximum weight-bearing are relevant to sit-to-stand and curb-climbing limitations after stroke. RELEVANCE: Clinicians treating sit-to-stand or curb-climbing limitations have reason to measure and treat impairments in maximum weight-bearing, knee extension strength, and standing balance.
OBJECTIVE: Compare kinetic energy and duration of task during sit-to-stand and curb-climbing of two groups: hemiparetic strokepatients and matched controls. For patients, describe relationships between selected physical impairments and sit-to-stand and curb-climbing performance. DESIGN: Descriptive and correlational.Background. Measures and treatments are best selected after specific limitations in functional activities (e.g., sit-to-stand) and related impairments are identified. METHOD. Fifteen patients, 29-77 (mean=53.7) years with recent stroke and 15 demographically matched healthy controls participated. Physical performance variables measured were standing balance, maximum paretic extremity weight-bearing, and knee extension strength. Sit-to-stand and curb-climbing performance were characterized using kinetic energy and task duration. Differences in physical and functional performance between groups were determined. Spearman correlations were calculated between patients' physical impairments and sit-to-stand and curb-climbing performance. RESULTS: Compared to controls, patients demonstrated reduced kinetic energy (P< or =0.003) and prolonged duration (P< or = 0.001) for sit-to-stand and curb-climbing. Significant relationships (r(s)=0.49-0.50) were demonstrated between sit-to-stand kinetic energy and knee extension strength, standing balance, and maximum weight-bearing. For curb climbing, significant relationships (r(s)=0.45) were found between kinetic energy and standing balance and maximum weight-bearing. CONCLUSION: Impaired balance and maximum weight-bearing are relevant to sit-to-stand and curb-climbing limitations after stroke. RELEVANCE: Clinicians treating sit-to-stand or curb-climbing limitations have reason to measure and treat impairments in maximum weight-bearing, knee extension strength, and standing balance.
Authors: Pilar Serra-Añó; José Francisco Pedrero-Sánchez; Juan Hurtado-Abellán; Marta Inglés; Gemma Victoria Espí-López; Juan López-Pascual Journal: J Neuroeng Rehabil Date: 2019-08-14 Impact factor: 4.262
Authors: Shamay S M Ng; Susanna Y Cheung; Lauren S W Lai; Ann S L Liu; Selena H I Ieong; Shirley S M Fong Journal: Biomed Res Int Date: 2013-09-11 Impact factor: 3.411