Iryna Babik1, Elena Kokkoni, Andrea B Cunha, James Cole Galloway, Tariq Rahman, Michele A Lobo. 1. Department of Physical Therapy, University of Delaware, Newark (Drs Babik, Galloway, and Lobo, and Ms Kokkoni); Department of Physical Therapy, Federal University of São Carlos, São Carlos, Brazil (Dr Cunha); and Department of Biomedical Research, Nemours/A. I. DuPont Hospital for Children, Wilmington, Delaware (Dr Rahman).
Abstract
PURPOSE: To determine whether a novel exoskeletal device (Pediatric-Wilmington Robotic Exoskeleton [P-WREX]) is feasible and effective for intervention to improve reaching and object interaction for an infant with arm movement impairments. METHODS: An 8-month old infant with arthrogryposis was followed up every 2 weeks during a 1-month baseline, 3-month intervention, and 1-month postintervention. At each visit, reaching and looking behaviors were assessed. RESULTS: Within sessions, the infant spent more time contacting objects across a larger space, contacting objects with both hands, and looking at objects when wearing the P-WREX. Throughout intervention, the infant increased time contacting objects both with and without the device and increased bilateral active shoulder flexion. CONCLUSIONS: (1) It may be feasible for families to use exoskeletons for daily intervention, (2) exoskeletons facilitate immediate improvements in function for infants with impaired upper extremity mobility, and (3) interventions using exoskeletons can improve independent upper extremity function across time.
RCT Entities:
PURPOSE: To determine whether a novel exoskeletal device (Pediatric-Wilmington Robotic Exoskeleton [P-WREX]) is feasible and effective for intervention to improve reaching and object interaction for an infant with arm movement impairments. METHODS: An 8-month old infant with arthrogryposis was followed up every 2 weeks during a 1-month baseline, 3-month intervention, and 1-month postintervention. At each visit, reaching and looking behaviors were assessed. RESULTS: Within sessions, the infant spent more time contacting objects across a larger space, contacting objects with both hands, and looking at objects when wearing the P-WREX. Throughout intervention, the infant increased time contacting objects both with and without the device and increased bilateral active shoulder flexion. CONCLUSIONS: (1) It may be feasible for families to use exoskeletons for daily intervention, (2) exoskeletons facilitate immediate improvements in function for infants with impaired upper extremity mobility, and (3) interventions using exoskeletons can improve independent upper extremity function across time.
Authors: Tariq Rahman; Whitney Sample; Shanmuga Jayakumar; Marilyn Marnie King; Jin Yong Wee; Rahamim Seliktar; Michael Alexander; Mena Scavina; Alisa Clark Journal: J Rehabil Res Dev Date: 2006 Aug-Sep
Authors: Tariq Rahman; Whitney Sample; Rahamim Seliktar; Mena T Scavina; Alisa L Clark; Kacy Moran; Michael A Alexander Journal: IEEE Trans Neural Syst Rehabil Eng Date: 2007-06 Impact factor: 3.802
Authors: Amanda J Arnold; Joshua L Haworth; Victor Olivares Moran; Ahmad Abulhasan; Noah Steinbuch; Elena Kokkoni Journal: Arch Rehabil Res Clin Transl Date: 2020-04-05