Person:
Sprigle,
Stephen
Sprigle,
Stephen
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Organizational Unit
Organizational Unit
ORCID
0000-0003-0462-0138
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ItemInventor-Driven Product Development(Georgia Institute of Technology, 2010) Sprigle, Stephen ; Maurer, Chris ; Kong, LinghuaInventors of assistive technology often lack resources to support product development and this may hinder their ability to develop useful and commercially viable devices. The purpose of this on‐going project is to support inventor and small company development of promising mobility-‐related technologies. Specifically, the process includes: 1) an informal brainstorming session addressing technical, market and user issues; 2) formal screening of device potential and RERC capacity to assist in development; 3) invitation to engage inventors/companies with promising technologies; and 4) product testing and/or development of promising technologies. This paper describes the project’s approach and reviews activities over the past year.
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ItemUnderstanding Wheelchair Use Patterns: Tilt-in-Space(Georgia Institute of Technology, 2008-03) Sonenblum, Sharon Eve ; Sprigle, Stephen ; Harris, Frances ; Maurer, Chris
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ItemLoad Redistribution in Standing, Tilt-in-Space, and Reclining Wheelchairs(Georgia Institute of Technology, 2007) Sprigle, Stephen ; Maurer, Chris ; Prysock, Adrianne
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ItemMobility Patterns in Power Wheelchair Users and the Implications for Measuring Mobility(Georgia Institute of Technology, 2007) Sonenblum, Sharon Eve ; Sprigle, Stephen ; Maurer, Chris
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ItemMonitoring Power Upright and Tilt-In-Space Wheelchair Use(Georgia Institute of Technology, 2006) Sonenblum, Sharon Eve ; Sprigle, Stephen ; Maurer, ChrisThis study examines the use of power upright and power tilt-in-space (TIS) wheelchairs. An occupancy detector, wheel revolution counter, and position sensor comprise the Wheelchair Activity Monitoring Instrument as used in this study. On average, subjects sat in their wheelchairs for 10 hours per day, spent 50 (±24) minutes wheeling with an average daily distance traveled of 0.84 miles. The majority of mobility bouts were less than 30 seconds and shorter than 25 feet. Subjects with TIS used their tilt feature (at least a 15° change in position) 16±10 times and spent between 0 and 108 minutes at a fully tilted (>40°) position daily.occupancy detector, wheel revolution counter, and position sensor comprise the Wheelchair Activity Monitoring Instrument as used in this study. On average, subjects sat in their wheelchairs for 10 hours per day, spent 50 (±24) minutes wheeling with an average daily distance traveled of 0.84 miles. The majority of mobility bouts were less than 30 seconds and shorter than 25 feet. Subjects with TIS used their tilt feature (at least a 15° change in position) 16±10 times and spent between 0 and 108 minutes at a fully tilted (>40°) position daily.
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ItemKinematics of Lateral Transfers: A Pilot Study(Georgia Institute of Technology, 2005) Sonenblum, Sharon Eve ; Sprigle, Stephen ; VanHeil, Leslie ; Maurer, ChrisPeople with spinal cord injuries (SCI) must transfer many times daily. Despite the importance of proper transfers, researchers have not completely described the kinematics of lateral transfers. In this study, 19 male adults with SCI who transfer independently or with minimal assistance were recruited to perform three lateral transfers to and from a therapy mat. On average, subjects elevated their sacroiliac joints (buttocks) 11 inches above the therapy mat and lowered the tempromandibular joint (head) to 21 inches above the mat. Subjects used a variety of strategies to complete the transfer that differed by their timing, the number of lifts performed, and their body positioning during transfers. Transfers from the wheelchair to the mat were more consistent within subjects.
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ItemKinematics of Lateral Transfers: A Pilot Study(Georgia Institute of Technology, 2005) Sonenblum, Sharon Eve ; Sprigle, Stephen ; VanHiel, Leslie ; Maurer, Chris ; Whittaker, EricPeople with spinal cord injuries (SCI) must transfer many times daily. Despite the importance of proper transfers, researchers have not completely described the kinematics of lateral transfers. Nyland et al identified transfer technique as a risk-factor for upper extremity degeneration and cited the need for quantitative measures of transfers and additional transfer research [1]. The purpose of this pilot study was to collect kinematic data on lateral transfers and identify different transfer strategies.