ライフサイエンスコーパス: hemiparetic

1 y human walking is symmetric and economical; hemiparetic and amputee gait is often asymmetric and req

2 erent measures of movement smoothness in the hemiparetic arm of 31 patients recovering from stroke.

3 in premotor cortical areas of patients with hemiparetic CD provide evidence for altered brain struct

4 riparetic CP (OR, 4.1; 95% CI, 1.8-9.3), and hemiparetic CP (OR, 2.7; 95% CI, 1.3-5.7), after control

5 as did frontal gait (hazard ratio, 4.32) and hemiparetic gait (hazard ratio, 13.13).

6 31 subjects), frontal gait (in 12 subjects), hemiparetic gait (in 11 subjects), neuropathic gait (in

7 creasing the capacity to meet the demands of hemiparetic gait improves endurance for activities of da

8 al in 3/102 patients, 47/102 patients showed hemiparetic grasping ability and 52/102 patients could n

9 ray (256 leads) electroencephalography in 12 hemiparetic patients (7.3 +/- 4.0 months post-stroke, ag

10 ncreases in the bilateral premotor cortex of hemiparetic patients relative to controls and a trend to

11 ly preserved grasping ability is possible in hemiparetic patients with pre- or perinatal lesions, and

12 cation for hand rehabilitation in elderly or hemiparetic patients.

13 botics in 17 individuals with severe chronic hemiparetic stroke and 12 age-matched controls.

14 ii of both limbs of individuals with chronic hemiparetic stroke and in age-matched, unimpaired contro

15 have demonstrated that motor recovery after hemiparetic stroke is associated with functional and str

16 question, 8 individuals with severe chronic hemiparetic stroke participated in a device-assisted int

17 e sought to test the hypothesis that chronic hemiparetic stroke patients exhibit structural plasticit

18 omotor rotations in the ipsilesional arms of hemiparetic stroke patients with left (LHD) and right he

19 Although patients with hemiparetic stroke undergo various treatments to improve

20 herapy for upper extremity rehabilitation in hemiparetic stroke.

21 r networks occurs during early recovery from hemiparetic stroke.

22 ait kinematics and kinetics in patients with hemiparetic stroke.

23 is structurally and functionally altered by hemiparetic stroke.

24 ol and motor performance in healthy-aged and hemiparetic-stroke subjects (n = 93 and 167, respectivel

25 Controls and hemiparetic subjects performed two different reaching mo

26 Hemiparetic subjects present with movement deficits incl

27 Hemiparetic subjects showed varying degrees of impairmen

28 Hemiparetic subjects tended to produce concurrent flexio

29 me aspects of voluntary reaching deficits of hemiparetic subjects.

30 nt for a fictional patient who was obese and hemiparetic, used a wheelchair, and could not self-trans