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Wheelchair trainer

A wheelchair trainer or wheelchair treadmill is an apparatus that allows a manual wheelchair user to simulate linear (translational) travel while remaining stationary in a manner similar to an ambulatory person walking or running on a treadmill or a cyclist pedaling a bicycle on a bicycle trainer. The rear wheelchair wheels are placed in contact with vertical or horizontal rollers which may also be attached to flywheels, mechanical resistance or braking mechanisms, motors and various speed and force sensors. Flywheels may be sized to provide a user of a certain mass with a rotational inertia equivalent to their translational (linear) inertia in order to more realistically approximate actual wheelchair propulsion.

Wheelchair trainers having independent contact rollers permit simulated directional travel (omnidirectional treadmill). Trainers may also incorporate rotary encoders, accelerometers and torque sensors to enable interface with computer data acquisition systems (DAQ) for analysis of propulsion kinematics. A quadrature rotary encoder or hall effect sensor can be implemented to provide sufficient speed and direction information to enable virtual navigation interface with video games in a manner similar to using a joystick or gaming console. Calculation of rolling resistance between the tire & contact roller interface, axle friction, and inertial characteristics of wheelchair wheels and flywheels may be used in determination of stationary propulsion dynamics.[dynamics]

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History

The United States Department of Veterans Affairs (VA) has substantially invested in decades long research and development for two wheelchair trainer devices: the Wheelchair Aerobic Fitness Trainer (WAFT),23 and GameWheels.4 The history of wheelchair trainer development may be summarized from the 10 patents issued by the United States Patent and Trademark Office for stationary wheelchair trainers/treadmills/ergometers/dynamometer/simulators issued from 1980 to 2009.5

US Patent NumberIssue DateKey Features
4,233,844November 18, 1980introduces variable inertial flywheels to approximate user mass with speed & torque sensors
4,911,425March 27, 1990WAFT (early model) implements independent adjustable wheel resistance
4,966,362October 30, 1990incorporates forward or reverse unidirectional wheel rotation
5,476,429December 19, 1995WAFT (later model) introduces cardio exercise with active electrical controls, DAQ and video gaming interface
5,643,143July 1, 1997implements positioning over two rollers
5,649,883July 22, 1997minimizes rolling resistance for 3 wheeled wheelchair race chairs
5,704,876January 6, 1998implements bicycle trainer eddy current braking resistance and active computer control interface
5,709,631January 20, 1998implements lateral wheel guides to prevent side sway
6,113,519September 5, 2000utilizes electrically controlled resistance and camber adjustment for clinical applications
7,604,572October 20, 2009implements horizontal rollers with passive variable inertia & resistance, clinical DAQ and video gaming interface

Development

The last patent is being commercialized under the trademark Trekease, designed to serve as an acronym for Translational & Rotational Equivalent Kinetic Energy Aerobic Stationary Exertainment and as a homonym for Trekkies – fans of Star Trek.678 None of the other cited patents, including the experimental prototypes developed by the VA, are currently being commercialized; however simple unidirectional ramp and roller systems similar in design to patent #4,966,362 are being marketed by others.9 (See also External links).

Arcade game software and clinical data acquisition use were first introduced by the Veterans Administration's WAFT as a means of promoting stationary wheelchair propulsion as a beneficial aerobic exercise. Clinical professionals are not currently in agreement regarding the cardiovascular health benefits associated with manual wheelchair propulsion and the possible long term repetitive use injuries attributed to manual wheelchair operation.[aerobics] These debates have encouraged developments to enhance wheelchair seating,10 back support, frame, wheel, and hand-rim designs. Innovative lever styled mechanisms add a new level to improve the overall efficiency, posture and ergonomics of manual wheelchair propulsion.[ergonomics] Utilizing lever propulsion technologies on a wheelchair trainer equipped with flywheel and resistance enables one to engage in an activity similar to rowing with all its associated health benefits and risks.1112

Dynamics:

  • Kwarciak et al. 2009.
  • Koontz et al. 2007.
  • Gil-Agudo et al. 2010.
  • Sasaki et al. 2008.
  • Cooper et al. 1997.
  • Lemaire et al. 1991.

Aerobics:

  • Cerny et al. 1980.
  • Beekman, Miller-Porter & Schoneberger 1999.
  • Shivayogi
  • Hiremath
  • Keyser et al. 2003.
  • Morrow et al. 2009.
  • Keyser, Rodgers & Rasch 2001.
  • Cooper, Boninger & Robertson 1998.

Ergonomics:

Citations

Conferences

Web pages

"University of Texas-Austin adds wheelchair-accessible equipment to gym". The Daily Texan. 17 February 2009. Retrieved August 22, 2011 – via Media dis&dat. Blog entry posted by the University of Texas student newspaper.{{cite web}}: CS1 maint: postscript (link)

References

  1. Stanford 2006. - Stanford, Christopher (May 30, 2006). Current Strategies for Wheelchair Design (PDF). Rectech conference. Retrieved August 23, 2011. http://www.rectech.org/conference/presentations/IV%20-%20New%20Exercise%20Equipment/Engineering%20&%20Design/Engineering%20&%20Design%20Panel%201/Stanford.pdf

  2. Langbein & Fehr 1993. - Langbein, W. Edwin; Fehr, Linda (1993). "Research Device to Preproduction Prototype: A Chronology" (PDF). Journal of Rehabilitation Research and Development. 30 (4): 436–442. ISSN 0748-7711. PMID 8158559. Retrieved August 22, 2011. http://www.rehab.research.va.gov/jour/93/30/4/pdf/langbein.pdf

  3. "WAFT – Wheelchair Aerobic Fitness Trainer". Janus Development. Retrieved August 22, 2011. http://www.janusdevelopment.com/waft.htm

  4. O'Connor et al. 2002. - O'Connor, Thomas; Fitzgerald, Shirley G.; Cooper, Rory A.; Thorman, Tricia A.; Boninger, Michael L. (2002). "Kinetic and physiological analysis of the GameWheels system". Journal of Rehabilitation Research and Development. 39 (6): 627–634. ISSN 0748-7711. PMID 17943665. Retrieved August 22, 2011. http://www.rehab.research.va.gov/jour/02/39/6/oconnor.html

  5. Patents issued by the United States Patent and Trademark Office: 4,233,844[dead link] 4,911,425 4,966,362 5,476,429 5,643,143 5,649,883 5,704,876 5,709,631 6,113,519 7,604,572 /wiki/United_States_Patent_and_Trademark_Office

  6. "Aerobic Exercise For The Wheelchair-Bound". Science Daily. September 15, 2008. Retrieved August 22, 2011. https://www.sciencedaily.com/releases/2008/09/080910160800.htm

  7. The Daily Texan. - "University of Texas-Austin adds wheelchair-accessible equipment to gym". The Daily Texan. 17 February 2009. Retrieved August 22, 2011 – via Media dis&dat. Blog entry posted by the University of Texas student newspaper. http://media-dis-n-dat.blogspot.com/2009/02/university-of-texas-austin-adds.html

  8. "Research and theory". Trekease. Retrieved August 22, 2011. http://www.trekease.com/trekease_jan_5_2009_website_011.htm

  9. Cooper 2006. - Cooper, Rory (May 30, 2006). New Exercise Equipment Engineering & Design: GameCycle & GameWheels (PDF). Rectech conference. Retrieved August 23, 2011. http://www.rectech.org/conference/presentations/IV%20-%20New%20Exercise%20Equipment/Engineering%20&%20Design/Engineering%20&%20Design%20Panel%201/Cooper,%20Fitzgerald%20panel.pdf

  10. Kotajarvi et al. 2004. - Kotajarvi, Brian R.; Sabick, Michelle B.; An, Kai-Nan; Zhao, Kristin D.; Kaufman, Kenton R.; Basford, Jeffrey R. (2004). "The effect of seat position on wheelchair propulsion biomechanics" (PDF). Journal of Rehabilitation Research and Development. 41 (3B): 403–414. doi:10.1682/JRRD.2003.01.0008. ISSN 0748-7711. PMID 15543458. Retrieved August 23, 2011. http://www.rehab.research.va.gov/jour/04/41/3b/pdf/Kotajarvi.pdf

  11. McLaurin 2005. - McLaurin, Colin A. (2005). "Current Directions in Wheelchair Research" (PDF). Journal of Rehabilitation Research and Development. Clinical Supplement #2: 88–99. ISSN 0748-7711. Retrieved August 23, 2011. http://www.rehab.research.va.gov/mono/wheelchair/mclaurin.pdf

  12. "Benefits of Rowing". Tacoma, Washington: Foss Rowing. Retrieved August 23, 2011. http://www.fossrowers.org/Benefits_of_Rowing.html