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  • Print publication year: 2014
  • Online publication date: June 2014

Chapter 16 - Wheelchair design and seating technology

from Section 2 - Therapeutic technology

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References

1. Steinmetz E, Americans with Disabilities. Current Population Reports, P70–107, 2002. Retrieved March 7, 2011 from U.S. Census Bureau, Washington, DC, 2004. Available from: http://www.census.gov/hhes/www/disability/sipp/disab02/awd02.html
2. New Freedom Initiative Act, 2001. Available from: http://www.whitehouse.gov/news/freedominitiative/freedominitiative.html
3. Department of Veteran Affairs. Facts about the Department of Veterans Affairs, 2002. Available from: http://www.va.gov/opa/fact/docs/vafacts.htm
4. Bayley JC, Cochran TP, Sledge CB. The weight-bearing shoulder: the impingement syndrome in paraplegics. J Bone Joint Surg 1987; 69: 676–8.
5. Curtis KA, Roach KE, Applegate EB, et al. Development of the wheelchair user's shoulder pain index (WUSPI). Paraplegia 1995; 33: 290–3.
6. Nichols PJ, Norman PA, and Ennis JR. Wheelchair user's shoulder? Shoulder pain in patients with spinal cord lesions. Scand J Rehabil Med 1979; 11: 29–32.
7. Boninger ML, Cooper RA, Baldwin MA, et al. Wheelchair pushrim kinetics: weight and median nerve function. Arch Phys Med Rehabil 1999; 80: 910–15.
8. Boninger ML, Towers JD, Cooper RA, et al. Shoulder imaging abnormalities in individuals with paraplegia. J Rehabil Res Dev 2001; 38: 401–8.
9. Boninger ML, Dicianno BE, Cooper RA, et al. Shoulder injury, wheelchair propulsion, and gender. Arch Phys Med Rehabil 2003a; 84: 1615–20.
10. Asato KT, Cooper RA, Robertson RN, et al. SMARTWheels: development and testing of a system for measuring manual wheelchair propulsion dynamics. IEEE Trans Biomed Eng 1993; 40: 1320–4.
11. Cooper RA, Boninger ML, VanSickle DP, et al. Uncertainty analysis of wheelchair propulsion dynamics. IEEE Trans Rehabil Eng 1997b; 5: 130–9.
12. Cooper RA, DiGiovine CP, Boninger ML, et al. Frequency analysis of 3-dimensional pushrim forces and moments for manual wheelchair propulsion. Automedica 1998b; 16: 355–65.
13. Boninger ML, Cooper RA, Robertson RN, Shimada SD. 3-D pushrim forces during two speeds of wheelchair propulsion. Am J Phys Med Rehabil 1997; 76: 420–6.
14. Cooper RA. Engineering manual and electric powered wheelchairs. Crit Rev Biomed Eng 1999; 27: 27–74.
15. Cooper RA, Robertson RN, VanSickle DP, et al. Methods for determining 3-dimensional wheelchair pushrim forces and moments. J Rehabil Res Dev 1997; 34: 162–70.
16. Boninger ML, Cooper RA, Shimada SD, et al. Shoulder and elbow motion during two speeds of wheelchair propulsion: a description using a local coordinate system. Spinal Cord 1998; 36: 418–26.
17. Koontz AM, Boninger ML, Cooper RA, et al. Shoulder kinematics and kinetics during two speeds of wheelchair propulsion. J Rehabil Res Dev 2002; 39: 635–50.
18. Robertson RN, Boninger ML, Cooper RA, et al. Pushrim forces and joint kinetics during wheelchair propulsion. Arch Phys Med Rehabil 1996; 77: 856–64,
19. Boninger ML, Baldwin M, Cooper RA, et al. Manual wheelchair pushrim biomechanics and axle position. Arch of Phys Med Rehabil 2000; 81: 608–13.
20. Boninger ML, Towers JD, Cooper RA, et al. Shoulder imaging abnormalities in individuals with paraplegia. J Rehabil Res Develop 2001; 38: 401–8.
21. Boninger ML, Souza AL, Cooper RA, et al. Propulsion patterns and pushrim biomechanics in manual wheelchair propulsion. Arch Phys Med Rehabil 2002; 83: 718–23.
22. Koontz AM, Roche BM, Collinger JL, et al. Manual wheelchair propulsion patterns on natural surfaces during start-up propulsion. Arch Phys Med Rehabil 2009; 90: 1916–23.
23. Shimada SD, Robertson RN, Boninger ML, et al. Kinematic characterization of wheelchair propulsion stroke patterns. J Rehabil Res Dev 1998; 35: 210–18.
24. Collinger JL, Impink BG, Ozawa H, et al. Effect of an intense wheelchair propulsion task on quantitative ultrasound of shoulder tendons. Phys Med Rehabil 2010; 2: 920–5.
25. Impink BG, Boninger ML, Walker H, et al. Ultrasonographic median nerve changes after a wheelchair sporting event. Arch Phys Med Rehabil 2009; 90: 1489–94.
26. Van Drongelen S, Boninger ML, Impink BG, et al. Acute biceps tendon changes after wheelchair sports. Arch Phys Med Rehabil 2007; 88: 318–85.
27. Collinger JL, Gagnon D, Jacobson J, et al. Reliability of quantitative ultrasound measures of the biceps and supraspinatus tendons. Acad Radiol 2009; 16: 1424–32.
28. Collinger JL, Fullerton B, Impink BG, et al. Validation of greyscale based quantitative ultrasound in manual wheelchair users. Am J Phys Med Rehabil 2010; 89: 390–400.
29. Impink BG, Gagnon D, Collinger JL, et al. Repeatability of ultrasonographic median nerve measures. Muscle Nerve 2010; 41: 767–73.
30. Consortium for Spinal Cord Medicine. Preserving Upper Limb Function in Spinal Cord Injury: A Clinical Practice Guideline for Health-Care Professionals. Washington, DC: Paralyzed Veterans of America, 2005.
31. Seidel H, Heide R. Long term effects of whole-body vibration: a critical survey of the literature. Int Arch Occup Environ Health 1986; 58: 1–26.
32. Cooper RA, Trefler E, Hobson DA. Wheelchairs and seating: issues and practice. Tech Disabil 1996; 5: 3–16.
33. Boninger ML, Cooper RA, Fitzgerald SG, et al. Investigating neck pain in wheelchair users. Am J Phys Med Rehabil 2003; 82: 197–202.
34. DiGiovine MM, Cooper RA, Boninger ML, et al. User assessment of manual wheelchair ride comfort and ergonomics. Arch Phys Med Rehabil 2000; 81: 490–4.
35. Tai CF, Liu D, Cooper RA, et al. Analysis of vibrations during manual wheelchair use. Saudi J Disabil Rehabil 1998; 4: 186–91.
36. VanSickle DP, Cooper RA, Robertson RN, Boninger ML.Determination of wheelchair dynamic load data for use with finite element analysis. IEEE Trans Rehabil Eng 1996; 4: 161–70.
37. VanSickle DP, Cooper RA, Boninger ML. Road loads acting on manual wheelchairs. IEEE Trans Rehabil Eng 2000; 8: 385–93.
38. VanSickle DP, Cooper RA, Boninger ML, et al. Analysis of vibrations induced during wheelchair propulsion. J Rehabil Res Dev 2001; 38: 409–22.
39. DiGiovine CP, Cooper RA, Fitzgerald SG, et al. Whole-body vibration during manual wheelchair propulsion with selected seat cushions and back supports. IEEE Trans Neural Syst Rehabil Eng 2003; 11: 311–22.
40. Wolf EJ, Cooper RA, DiGiovine CP, et al. Analysis of whole-body vibrations on manual wheelchair using a hybrid III test dummy. Proc 24th Annu RESNA Conf, Reno, NV, 2001; 346–8.
41. Cooper RA, Wolf E, Fitzgerald SG, et al. Seat and footrest accelerations in manual wheelchairs with and without suspension. Arch Phys Med Rehabil 2003b; 84: 96–102.
42. Wolf E, Cooper RA, Kwarciak A. Analysis of whole body vibrations of suspension manual wheelchairs: utilization of the absorbed power method. Proc 25th Annu RESNA Conf, Minneapolis, MN, 2002; 303–5.
43. Kwarciak AM, Cooper RA, Wolf E. Effectiveness of rear suspension in reducing shock exposure to manual wheelchair users during curb descents. Proc 25th Annu RESNA Conf, Minneapolis, MN, 2002; 365–7.
44. Cooper RA, Wolf EJ, Fitzgerald SG, et al. Technical perspective: evaluation of selected sidewalk pavement surfaces for vibration experienced by users of manual and powered wheelchairs. J Spinal Cord Med 2004; 27: 468–75.
45. Wolf EJ, Pearlman J, Cooper RA, et al. Vibration exposure of individuals using wheelchairs over sidewalk surfaces. Disabil Rehabil 2005; 27: 1443–9.
46. Unmat S, Kirby RL. Nonfatal wheelchair-related accidents reported to the national electronic injury surveilance system. Am J Phys Med Rehabil 1994; 73: 163–7.
47. Calder CJ, Kirby RL. Fatal wheelchair-related accidents in the United States. Am J Phys Med Rehabil 1990; 69: 184–90.
48. Kirby RL, Ackroyd-Stolarz SA, Brown MG, et al. Wheelchair-related accidents caused by tips and falls among non-institutionalized users of manually propelled wheelchairs in Nova Scotia. Am J Phys Med Rehabil 1994; 73: 319–30.
49. Bertocci G, Manary M, Ha D. Wheelchairs used as motor vehicle seats: seat loading in frontal impact sled testing. Med Eng Phys 2001; 23: 679–85.
50. Van Roosmalen L, Bertocci GE, Hobson DA, et al. Preliminary evaluation of wheelchair occupant restraint system usage in motor vehicles. J Rehabil Res Dev 2002; 39: 83–93.
51. Bertocci GE, Hobson DA, Digges K. Development of transportable wheelchair design criteria using computer crash simulation. IEEE Trans Rehabil Eng 1996; 4: 171–81.
52. Bertocci GE, Szobota S, Digges K, et al. Computer simulation and sled test validation of a powerbase wheelchair and occupant subjected to frontal crash conditions. IEEE Trans Neural Syst Rehabil Eng 1999a; 7: 234–44.
53. Bertocci G, Cooper RA, Young T, Esteireiro J, Thomas C. et al. Testing and evaluation of wheelchair caster assemblies subjected to dynamic crash loading. J Rehabil Res Dev 1999b; 36: 32–41.
54. Cooper RA, Dvorznak MJ, O'Connor TJ, et al. Braking electric powered wheelchairs: effect of braking method, seatbelt, and legrests. Arch Phys Med Rehabil 1998; 79: 1244–9.
55. Corfman TA, Cooper RA, Fitzgerald SG, et al. A video-based analysis of “tips and falls” during electric powered wheelchair driving. Arch Phys Med Rehabil 2003; 84: 1797–802.
56. Brienza DM, Cooper RA, Brubaker CE. Wheelchairs and seating. Curr Opin Orthop 1996; 7: 82–6.
57. Brienza D, Chung K, Brubaker CE, et al. System for the analysis of seat support surfaces using surface shape control and simultaneous measure of applied pressures. IEEE Trans Rehabil Eng 1996b; 4: 103–13.
58. Wang J, Brienza D, Yuan Y, et al. Biomechanical analysis of buttock soft tissue using computer-aided seating system. Int Conf IEEE Eng Med Biol Soc 1998; 2757–9.
59. Wang J, Brienza DM, Yuan Y, et al. A compound sensor for biomechanical analyses of buttock soft tissue in vivo. J Rehabil Res Dev 2000; 37: 433–43.
60. Geyer MD, Brienza DM, Karg P, et al. A randomized control trial to evaluate pressure-reducing seat cushion for elderly wheelchair users. Adv Skin Wound Care 2001; 14: 120–9.
61. Brienza D, Kelsey S, Karg P, et al. A randomized clinical trial on preventing pressure ulcers with wheelchair seat cushions. J Am Geriatr Soc 2010; 58: 2308–14.
62. Brienza DM, Karg PE, Geyer MJ, et al. The relationship between pressure ulcer incidence and buttock-seat cushion interface pressure in at-risk elderly wheelchair users. Arch Phys Med Rehabil 2001; 82: 529–33.
63. Center for Medicare and Medicaid Services. Power Wheelchair Coverage Overview. Available from: http://www.cms.hhs/medlearn/PowerWheelchair.pdf [Accessed August 17, 2003.]
64. Shalala DE, Vladeck BC, Wolf LF, et al. Table 57. Health Care Financing Review: Statistical Supplement 1996; 320–1.
65. Collins D, Cooper R, Cooper RA, et al. Strengthening justification for assistive technology with research findings: a case study. RESNA News, Spring 2002; 1.
66. Fitzgerald SG, Cooper RA, Boninger ML, et al. Comparison of fatigue life for three types of manual wheelchairs. Arch Phys Med Rehabil 2001; 82: 1484–8.
67. Cooper RA, Robertson RN, Lawrence B, et al. Life-cycle analysis of depot versus rehabilitation manual wheelchairs. J Rehabil Res Dev 1996; 33: 45–55.
68. Cooper RA, Robertson RN, VanSickle DP, et al. Wheelchair impact response to ISO test pendulum and ISO standard curb. IEEE Trans Rehabil Eng 1994; 2: 240–6.
69. Cooper RA, Stewart KJ, VanSickle DP. Evaluation of methods for determining rearward static stability of manual wheelchairs. J Rehabil Res Dev 1994; 31: 144–7.
70. Cooper RA, VanSickle DP, Albright SJ, et al. Power wheelchair range testing and energy consumption during fatigue testing. J Rehabil Res Dev 1995; 32: 255–63.
71. Liu H, Cooper RA, Pearlman J, et al. Evaluation of titanium ultralight manual wheelchairs using ANSI/RESNA standards. J Rehabil Res Dev 2008; 45: 1251–68.
72. Cooper RA, Cooper R. Time to mobilize: 21st annual survey of lightweight-wheelchair manufacturers. Sports ‘N Spokes 2003c; 29: 34–42.
73. Cooper RA, DiGiovine CP, Rentschler AJ, et al. Fatigue life of two manual wheelchair cross-brace designs. Arch Phys Med Rehabil 1999; 80: 1078–81.
74. Cooper RA, O'Connor TJ, Gonzalez JP, et al. Augmentation of the 100 kg ISO wheelchair test dummy to accommodate higher mass. J Rehabil Res Dev 1999; 36: 48–54.
75. Fitzgerald SG, Yoest LM, Cooper RA, et al. Comparison of laboratory and actual fatigue life for three types of manual wheelchairs. In Simpson R, ed. Proc RESNA 2001 Annu Conf 2001, Reno, NV; Arlington, VA: RESNA Pr, 2001; 352–4.
76. Cooper RA. Wheelchairs: A Guide to Selection and Configuration. New York, NY: Demos Medical Publishers, 1998.
77. Whitman JD, Cooper RA, Robertson RN. An automated process to aid in wheelchair selection. Saudi J Disabil Rehabil 1998; 4: 180–5.
78. Boninger ML, Waters RL, Chase T, et al. Preservation of upper limb function following spinal cord injury: a clinical practice guideline for health-care professionals. J Spinal Cord Med 2005; 28: 434–70.
79. Cooper RA, Corfman TA, Fitzgerald SG, et al. Performance assessment of a pushrim activated power assisted wheelchair. IEEE Trans Control Syst Technol 2002; 10: 121–6.
80. Buning ME, Angelo JA, Schmeler MR. Occupational performance and the transition to powered mobility: a pilot study. Am J Occup Ther 2001; 55: 339–44.
81. Cooper RA, Fitzgerald SG, Boninger ML, et al. Evaluation of a pushrim activated power assisted wheelchair. Arch Phys Med Rehabil 2001; 82: 702–8.
82. Arva J, Fitzgerald SG, Cooper RA, et al. Mechanical Efficiency and User Power reduction with the JWII pushrim activate power assisted wheelchair. Med Eng Phys 2001; 23: 699–705.
83. Corfman TA, Cooper RA, Boninger ML, et al. Range of motion and stroke frequency differences between manual wheelchair propulsion and pushrim activated power assisted wheelchair propulsion. J Spinal Cord Med 2003; 26: 135–40.
84. Best KL, Kirby RL, Smith C, et al. Comparison between performance with a pushrim-activated power-assisted wheelchair and a manual wheelchair on the wheelchair skills test. Disabil Rehabil 2006; 28: 213–20.
85. Cooper RA. Intelligent control of power wheelchairs. IEEE Eng Med Biol Mag 1995; 15: 423–31.
86. Cooper RA, Thorman T, Cooper R, et al. Driving characteristics of electric powered wheelchair users: how far, fast, and often do people drive? Arch Phys Med Rehabil 2002; 83: 250–5.
87. Florida State University. Researchers helping electric-wheelchair users move more easily. Science Daily, January 4, 2011. Available from: http://www.sciencedaily.com/releases/2011/01/110103110355.htm [Accessed August 21, 2013.]
88. Guo S, Cooper RA, Corfman TA, et al. Influence of wheelchair front caster wheel on the reverse driving stability. Assist Technol 2003; 15: 98–104.
89. Cooper RA, Boninger ML, Cooper R, et al. Technical perspectives: use of the independence 3000 IBOT transporter at home and in the community. J Spinal Cord Med 2003; 26: 79–85.
90. Lawn MJ, Ishimatsu T. Modeling of a stair-climbing wheelchair mechanism with high single-step capability. IEEE Trans Neural Syst Rehabil Eng 2003; 11: 323–32.
91. Wellman P, Krovi W, Kuma V, et al. Design of a wheelchair with legs for people with motor disabilities. IEEE Trans Rehabil Eng 1995; 3: 343–53.
92. Jindrich DL, Full RJ. Dynamic stabilization of rapid hexapedal locomotion. J Exp Biol 2002; 205: 2803–23.
93. Simpson RC. Smart wheelchairs: a literature review. J Rehabil Res Dev 2005; 42: 423–36.
94. Levine S, Bell D, Jaros L, et al. The navchair assistive wheelchair navigation system. IEEE Trans Rehabil Eng 1999; 7: 443–51.
95. Simpson RC, Poirot D, Baxter F. The Hephaetstus Smart wheelchair system. IEEE Trans Neural Syst Rehabil Eng 2002; 10: 118–22.
96. Yoder JD, Baumgartner ET, Skaar SB. Initial results in the development of a guidance system for a powered wheelchair. IEEE Trans Rehabil Eng 1996; 4: 143–51.
97. Jones DK, Cooper RA. Electro-mechanical devices for control of powered wheelchairs. Saudi J Disabil Rehabil 1998; 4: 200–6.
98. Spaeth DM, Jones DK, Cooper RA. Universal control interface for people with disabilities. Saudi J Disabil Rehabil 1998; 4: 207–14.
99. Fehr L, Langbein E, and Skaar SB. Adequacy of power wheelchair control interfaces for persons with severe disabilities: a clinical survey. J Rehabil Res Dev 2000; 37: 353–60.
100. Dicianno BE, Cooper RA, Coltellaro J. Joystick control for powered mobility: current state of technology and future directions. Phys Med Rehabil Clin North Am 2010; 21: 79–86.
101. Hobson D. Comparative effects of posture on pressure and shear at the body seat interface. J Rehabil Res Dev 1992; 29: 21–31.
102. Jan YK, Jones MA, Rabadi MH, et al. Comparison of skin perfusion response with alternating and constant pressures in people with spinal cord injury. Arch Phys Med Rehabil 2010; 91: 1758–64.
103. Sprigle S, Maurer C, Soneblum SE. Load redistribution in variable position wheelchairs in people with spinal cord injury. J Spinal Cord Med 2010; 33: 58–64.
104. de Looze MP, Kuijt-Evers LF, van Dieën J. Sitting comfort and discomfort and the relationships with objective measures. Ergonomics 2003; 46: 985–97.
105. Nachemson A. Towards a better understanding of low back pain: a review of the mechanics of the lumbar disc. Rheumatol Rehabil 1975; 14: 129–43.
106. Schunkewitz J, Sprigle S, Chung KC. The effect of postural stress on lower limb blood flow in SCI persons. Proc RESNA 12th Annu Conf, New Orleans, 1989; 77–8.
107. Berlowitz DR, Brienza DM. Are all pressure ulcers the result of deep tissue injury? A review of the literature. Ostomy Wound Manage 2007; 53: 34–8.
108. Janssen TW, Dallmeijer AJ, Veeger DJ, et al. Normative values and determinants of physical capacity in individuals with spinal cord injury. J Rehabil Res Dev 2002; 39: 29–39.
109. Gagnon D, Koontz AM, Brindle E, et al. Does upper-limb muscular demand differ between preferred and nonpreferred sitting pivot transfer directions in individuals with a spinal cord injury? J Rehabil Res Dev 2009; 46: 1099–108.
110. Eng JJ, Levins SM, Townson AF, et al. Use of prolonged standing for individuals with spinal cord injuries. Phys Ther 2001; 81: 1392–9.
111. Troy BS, Cooper RA, Robertson RN, et al. An analysis of working postures of manual wheelchair users in the office environment. J Rehabil Res Dev 1997; 34: 151–61.
112. Cooper RA, Dvorznak MJ, Rentschler AJ, et al. Technical note: displacement between the seating surface and hybrid test dummy during transitions with a variable configuration wheelchair. J Rehabil Res Dev 2000b; 37: 297–303.
113. Fitzgerald SG, Thorman T, Cooper R, et al. Evaluating wheelchair cushions. REHAB Manage 2001; 14: 42–4.
114. Yuen HK, Garrett D. Case report—comparison of three wheelchair cushions for effectiveness of pressure relief. Am J Occup Ther 2001; 55: 470–5.
115. Engel P. Aspects of wheelchair seating comfort. Ergo Manu Wheelchair Prop 1991; 105–11.
116. Boninger ML, Saur T, Trefler E, et al. Postural changes with aging in tetraplegia. Arch Phys Med Rehabil 1998; 79: 1577–81.