The Force and Endurance of Wheelchair Propulsion in Persons with Cervical Cord Injuries

OBJECTIVE: This study was carried out to help the comprehensive rehabilitation of cervical cord injuries by measuring propulsion force and endurance on their wheelchair hand- rims, predicting the differences between neurological levels and analysing the factors which contributed to maintain the wheelchair propulsion force. METHOD: The BTE work simulator was used on 17 cervical cord injuries to test the force and endurance during wheel chair propulsion. The 141 large wheel of BTE work simulator and standard wheelchair which was removed handrims was used for simulating wheelchair propulsion. Wilcoxon rank sum test was used to compare force and endurance among the groups. RESULTS: The wheelchair propulsion force and endurance showed significant differences between neurological levels and types of the life style. The lower the level, the higher the strength and endurance (p<0.001). The wheelchair propulsion force of cervical cord injuries showed statistically significant differences between those with and without jobs (p<0.05). The outdoor wheelchair users and wheelchair propulsion exercise group showed significantly high maximum isometric strengths compared to the indoor users and the only ROM exercise group, respectively (p<0.05). CONCLUSION: During the rehabilitation period cervical cord injured persons need the wheelchair propulsion exercise using BTE work simulator to improve the quality of life.

The Measurement of Force and Endurance during Wheelchair Propulsion in Paraplegics Using BTE Work Simulator

OBJECTIVE: To evaluate the force, endurance and influencing factors for wheelchair propulsion in paraplegics using BTE work simulator, and to find out a better method improving fitness levels for the paraplegics. METHOD: Seventeen paraplegic men were enrolled for the study. Isometirc and isotonic strength and dynamic endurance levels for wheelchair propulsion were measured using BTE work simulator. Neurological and demographical characteristics of patients were collected by personal interviews and direct examinations. RESULT: The spinal cord injured level showed a significant correlation with dynamic endurance (r=0.503, p<0.05) but not with the isometric and isotonic strength. The total duration of wheelchair use showed a significant correlation with the isotonic strength (r=0.497, p<0.05), but not with the isometric strength and dynamic endurance. The age and outdoor activities or exercise time during one week showed no significant correlation. CONCLUSION: Spinal cord injured level positively correlated with dynamic endurance. Both cardiorespiratory effect and trunk balance may influence this correlation. The total duration of wheelchair use wasn't correlate with dynamic endurnace. It seems to be more advisable trunk balance training goes with dynamic endurance training in rehabilitation program.

Measurement of the Steering Torque in Cervical Cord Injured Persons Using BTE Work Simulator

OBJECTIVE: To evaluate the standards of handicapped driver's ability test in Korea and available driving aids in cervical cord injured persons. METHOD: Forty-two cervical cord injured persons (C5~C8) were evaluated with BTE (Baltimore Therapeutic Equipment) work simulator. The isotonic turning torque was measured during clockwise and counter-clockwise turning. And isometric turning torque was measured at 12 directions. RESULTS: By the isotonic measurement, the turning torque increased in the lower level of injury. In the C6 tetraplegics, the counter-clockwise turning torque was significantly higher than clockwise. Among 25 persons with C5 or C6 tetraplegia, only 2 with C6 tetraplegia could operate the power steering with the lowest wheel turning torque (3.0 Nm). Only three persons (1 person with C7 tetraplegia, 2 persons with C8 tetraplegia) could pass the handicapped driver's ability test of Korea (9.4 Nm). By the isometric measurement, turning torque was lowest at left upper quadrant (10 to 12 o'clock direction) in clockwise rotation. CONCLUSION: Among the 42 cervical cord injured persons, only 3 persons with C7 and C8 tetraplegia could pass the handicapped driver's ability test of Korea. And among 25 C5 and C6 tetraplegia, only 2 persons with C6 tetraplegia could operate the power steering. It seems to be essential to modify the standards of handicapped drivers ability test and to evolve the driving aids for the C5 and C6 tetraplegics in Korea.

The Static Rotation Force of Wheel by the Wheel Angle and Hand Position

OBJECTIVE: The purpose of this study is to determine the proper hand position during driving by measuring of the wheel rotation strength according to the wheel angle and hand position to the wheel. METHOD: BTE Work Simulator was used to measure the clockwise and counter clockwise static wheel rotation force of twenty healthy men in three different hand position (2~10 spot, 3~9 spot, and 4~8 spot) and two different wheel angle (45 degrees and 60 degrees), average and peak force were measured during maximal isometric contraction. RESULTS: The average and peak force was significantly different by the wheel angle, and hand position (p<0.01), but the direction of rotation didn't an effect on the rotation force. The hand position was the most significant factor, especially wheel rotation force at 2~10 spot hand position was significantly lower than that of 3~9 spot and 4~8 spot (p<0.05). The rotation force by the wheel angle was influenced by hand position, and lower in 60 degrees wheel angle in the 2~10 spot (p<0.05). CONCLUSION: The rotation force of wheel was influenced by the hand position. Therefore proper hand position is recommended during driving to reduce muscle fatigue.

Grip, Key Pinch, and Three Point Pinch Strength Measurement Using BTE Work Simulator

Recently, increased emphasis has been placed on the need for rehabilitation professionals to objectively evaluate a patient's potential for and progress toward a return to normal function. But as medical recovery nears completion, additional questions are commonly asked by physicians regarding work function and ability to return to full active employment. In the past, therapists have attempted to reestablish the work situation using real tools, but these machines were expensive, have space limitations and in some cases, potentially dangerous as well. A Baltimore Therapeutic Equipment(BTE) Work Simulator overcomes these shortcomings. It can be used for isometric and isotonic evaluation and treatment and assisted in providing the information needed to make determinations regarding progress in therapy, return-to-work status and job modifications. We are going to obtain normative isometric, dynamic and endurance of grip strength, key pinch strength and three point pinch strength data using BTE Work Simulator model WS20. We also compare these data between ages and sexs. This study will be helpful in clinical applications of the BTE Work Simulator and providing the more specific job related occupational therapy and developing special vocational rehabilitation program.