A wheelchair cushion designed to redistribute sites of sitting pressure.

OBJECTIVES Despite the diversity of wheelchair cushions currently in clinical use, pressure on bony prominences continues to be a major problem for wheelchair-bound patients, and the incidence of pressure ulcers remains high. No static surface has been reported to reduce resting pressure under the ischial tuberosities to below that of capillary pressure, which may well be the threshold for inducing tissue damage. An entirely new form of seating was designed to decrease absolute pressure using a prosthetic fitting technique analogous to a below-the-knee prosthesis. DESIGN A repeated measures randomized design was used to test differences between the experimental (TCS) and three other standard cushions. SETTING A Veterans Medical Center outpatient service. PATIENTS Wheelchair-bound volunteer subjects, n = 47, were selected who weighed more than 60kg. MAIN OUTCOME MEASURES Pressures were measured by a standard air pressure pad and also by a computer-linked array of pressure transducers. The grid was standardized and used to generate topographic maps for each site over time. These data were used to measure the seating interface pressures. RESULTS There was a significant main effect of cushion over site, F = 131 for left ischial tuberosity. Pressure were lowest while patients sat on the experimental seat and differences were significant at all time points. Using 1psi as presumed capillary pressure, frequency of success at achieving this pressure threshold was greatest for the experimental seat, p < .001. This difference persisted throughout the 30 minutes of testing. CONCLUSIONS A computerized pressure grid was developed that allowed evaluation of anatomically localized pressures. The prosthetically designed TCS displays lower seating pressures than any other cushion tested. Consistent and sustained pressures were below the postulated threshold for tissue damage.

[1]  J. B. Reswick,et al.  Experience at Rancho Los Amigos Hospital With Devices and Techniques to Prevent Pressure Sores , 1976 .

[2]  M J Peterson,et al.  Measurement and redistribution of excessive pressures during wheelchair sitting. , 1982, Physical therapy.

[3]  J. Agris,et al.  Pressure ulcers: prevention and treatment. , 1979, Clinical symposia.

[4]  D. Berlowitz,et al.  The Short‐Term Outcome of Pressure Sores , 1990, Journal of the American Geriatrics Society.

[5]  Garber Sl,et al.  Body build and its relationship to pressure distribution in the seated wheelchair patient. , 1982 .

[6]  N P Reddy,et al.  Biomechanics of a lymphatic vessel. , 1975, Blood vessels.

[7]  G V Cochran,et al.  Wheelchair cushion effect on skin temperature, heat flux, and relative humidity. , 1980, Archives of physical medicine and rehabilitation.

[8]  L. Bennett,et al.  Skin blood flow in seated geriatric patients. , 1981, Archives of physical medicine and rehabilitation.

[9]  Freed Mm,et al.  Life expectancy, survival rates, and causes of death in civilian patients with spinal cord trauma. , 1966 .

[10]  R J Minns,et al.  Underseat pressure distribution in the sitting spinal injury patient , 1984, Paraplegia.

[11]  S V Fisher,et al.  Pressure and temperature patterns under the ischial tuberosities. , 1980, Bulletin of prosthetics research.

[12]  D L Bader,et al.  Pressure distribution under the ischium of normal subjects. , 1986, Journal of biomedical engineering.

[13]  G V Cochran,et al.  Ultrasound mapping of the buttock-cushion interface contour. , 1984, Archives of physical medicine and rehabilitation.

[14]  G. Pinchcofsky-Devin,et al.  Correlation of Pressure Sores and Nutritional Status , 1986, Journal of the American Geriatrics Society.

[15]  M. Kosiak,et al.  Etiology of decubitus ulcers. , 1961, Archives of physical medicine and rehabilitation.

[16]  L. By,et al.  Skin stress and blood flow in sitting paraplegic patients. , 1984, Archives of physical medicine and rehabilitation.

[17]  T A Krouskop,et al.  A synthesis of the factors that contribute to pressure sore formation. , 1983, Medical hypotheses.

[18]  K C Chung,et al.  Clinical evaluation of custom-contoured cushions for the spinal cord injured. , 1990, Archives of physical medicine and rehabilitation.

[19]  R. Narechania,et al.  Relationship of Spine Deformity and Pelvic Obliquity on Sitting Pressure Distributions and Decubitus Ulceration , 1985, Journal of pediatric orthopedics.

[20]  WALTER 0. SEILER,et al.  Skin Oxygen Tension As a Function of Imposed Skin Pressure: Implication for Decubitus Ulcer Formation , 1979, Journal of the American Geriatrics Society.

[21]  W. Sterling Edwards,et al.  Blood Vessels , 1959 .

[22]  S. I. Reger,et al.  Digital Interface Pressure Evaluator , 1989 .

[23]  L M Vistnes,et al.  Differential Response of Skin and Muscle in the Experimental Production of Pressure Sores , 1980, Plastic and reconstructive surgery.

[24]  P Bowker,et al.  Development of a cushion to prevent ischial pressure sores. , 1979, British medical journal.

[25]  R. Patterson,et al.  continuous sitting force measurements with differ- ent support surfaces in the spinal cord injured and able-bodied , 1991 .