ライフサイエンスコーパス: postural stability

1 e of abnormal saccades, ocular fixation, and postural stability.

2 ve, visual and vestibular systems, impairing postural stability.

3 ted the less reliable visual information for postural stability.

4 required for optimal spatial orientation and postural stability.

5 ated changes in muscle composition relate to postural stability.

6 ty (62%), bradykinesia (44%), gait (49%) and postural stability (56%) (paired t-tests: P < 0.001).

7 ed with control subjects, patients had worse postural stability and altered patterns of cerebellar DN

8 in UPDRS 3 scores in rigidity, bradykinesia, postural stability and gait correlate with rCBF response

9 ia function frequently lead to problems with postural stability and gait initiation.

10 results indicate that, in older individuals, postural stability and muscle composition, two common fa

11 Trunk motor control is crucial for postural stability and propulsion after low thoracic spi

12 ts (STD) were calculated as a measurement of postural stability and reported in Newton meters (Nm).

13 This cohort study compares dynamic postural stability and risk of falls before and after co

14 G in theta-band activity, and quantified the postural stability and the inflow and outflow of each RO

15 (RBD) on survival, cognitive impairment and postural stability, and discuss pathogenic mechanisms in

16 urses in general practice improves symptoms, postural stability, and dizziness-related handicap in pa

17 Patients underwent evaluation of postural stability by a force platform during presentati

18 Developing zebrafish improve postural stability by changing fin-body coordination.

19 scles is an effective strategy for providing postural stability by modulating mechanical impedance an

20 Motor proficiency and postural stability composite scores also improved signif

21 Postural stability degraded an average 9% from baseline

22 lts suggest the attenuated effects of WMH on postural stability due to PR may be underpinned by funct

23 costs and morphological factors influencing postural stability during hovering remain poorly underst

24 ess capable of adapting their APAs to ensure postural stability during movement.

25 justments (APAs) are crucial for maintaining postural stability during voluntary movements such as ga

26 The enhancement of postural stability expected with visual information was

27 ye alignment (strabismus), stereoacuity, and postural stability (imbalance).

28 ment of symptoms, cognitive functioning, and postural stability immediately, 3 hours, and 1, 2, 3, 5,

29 aneous degradation of muscle composition and postural stability in aging are independently highly inv

30 , oculomotor control, motor proficiency, and postural stability in children with anisometropic amblyo

31 to salient cues, a process likely supporting postural stability in complex environments.

32 e impact of forest canopy characteristics on postural stability in humans.

33 uch as gait disturbance as well as improving postural stability in the 'off' state.

34 trength, vibration perception thresholds and postural stability, in addition to the Expanded Disabili

35 t the beneficial effect of auditory noise on postural stability is applicable to autistic children, r

36 atypical CLN2 disease may confer benefits in postural stability, lower extremity strength, and ankle

37 cussive symptoms, cognitive functioning, and postural stability may enhance clinical management of at

38 The outcomes were: (1) postural stability (movement of the center of pressure d

39 of changes in sensory information related to postural stability on anticipatory postural adjustments

40 in), motor proficiency (BOT-2 subtests), and postural stability (Sensory Organization Test).

41 m assessment, neuropsychological testing and postural stability testing.

42 oskeletal systems is critical in maintaining postural stability under orthostatic challenge.

43 To maintain postural stability, unilateral lower-limb amputees (LLAs

44 cognition, hand motor function, and gait and postural stability via smartphone sensor-based tests req

45 Postural stability was also tested in a completely dark

46 Postural stability was assessed via stance duration and

47 Although postural stability was correlated with sensory processin

48 Shifts in postural stability were evident immediately after onset

49 Patients with MS had worse postural stability, widespread alterations in most white

50 the symptoms of motion sickness and improve postural stability with an altered multisensory reweight

51 ent and incongruent conditions both improved postural stability with different multisensory reweighti

52 uality of life, and objective measurement of postural stability with eyes open and eyes closed.

53 ray-level co-occurrence matrix analysis, and postural stability with the variability of the center of