ライフサイエンスコーパス: range of motion

1 e beliefs, lumbar mobility, and hip rotation range of motion).

2 rate the ability to tune the flexibility and range of motion.

3 All KOA knees had a significantly reduced range of motion.

4 ecular wedges," sterically blocking the full range of motion.

5 e-length relationship for a 90 degrees joint range of motion.

6 ive joints and number of joints with limited range of motion.

7 had joints with active arthritis or limited range of motion.

8 physical therapy to achieve effective joint range of motion.

9 been shown to be capable of producing a wide range of motions.

10 volume are sufficient to achieve significant ranges of motion.

11 ess >45 minutes (2 points), hip pain/limited range of motion (1 point), absence of rheumatoid factor

12 xibility (-4.7 +/- 1.6 cm), and dorsiflexion range of motion (-3.1 +/- 0.9 degrees ) and higher modif

13 y of therapy were 8.0 (5.0-14.0) for passive range of motion, 5.0 (3.0-8.0) for physical therapy, and

14 elicit active vasomotor responses through a range of motion (85% to 130% of in vivo length; sarcomer

15 nsemble of the HU dimer and characterize the range of motions accessible to its flexible beta-arms.

16 g, and sleep disturbance, with improved knee range of motion after TKA.

17 doing so supports the notion that increased range of motion and associations of SOD1 ALS variants co

18 e of the BMI over one month led to increased range of motion and force at the shoulders in chronic su

19 ScGVHD had significant impairments of joint range of motion and grip strength (P < .001).

20 d surrounding tissues, resulting in impaired range of motion and hand function.

21 Functionally, this is reflected in loss of range of motion and muscle strength and the development

22 Bedside cycle ergometry can provide range of motion and muscle strength training for intensi

23 Therapy began with active range of motion and progressed to activities of daily li

24 ual-analogue pain scale, and measurements of range of motion and straight-leg raising, to assess the

25 For a physiologically realistic joint range of motion and therefore range of muscle fibre leng

26 al motion patterns begin to establish normal ranges of motion and constitute a necessary first step i

27 fixed-flexion deformity, restricted-flexion range of motion, and crepitus.

28 normal or abnormal in terms of alignment and range of motion, and expressed the results as the total

29 , flattening of cutaneous lesions, increased range of motion, and improved performance status.

30 ), body mass index, pain, functional status, range of motion, and laxity were measured.

31 llary seroma, paresthesia, arm morbidity and range of motion, and lymphedema.

32 ns from other impairments such as knee pain, range of motion, and quadriceps strength.

33 hange, step length, lower extremity strength/range of motion, and transfers.

34 arthritis; 5) number of joints with limited range of motion; and 6) erythrocyte sedimentation rate.

35 ver, spikes are generated over only a narrow range of motion angles, indicating that spike generation

36 In the shoulder, the advantages of range of motion are traded for the disadvantages of vuln

37 y to radiation, including active and passive range of motion (AROM and PROM), muscle strength, limb e

38 no terminal glycine had essentially the same range of motion as the backbone carbons.

39 Stride, cadence, and range of motion at the lower extremity joints also chang

40 ercise program designed to improve strength, range of motion, balance and agility, and physical funct

41 spected by the GNM to determine the type and range of motions, both at the residue level and on a glo

42 The lengthening may improve the range of motion, but not necessarily the plagiocephaly,

43 ignificantly worse limb strength, edema, and range of motion, but these deficits were often transient

44 ractions with the index finger over a 10 deg range of motion by using 6 s shortening and lengthening

45 approaches shed light on a rich and diverse range of motions covering timescales from picoseconds to

46 locomotor challenges including limited limb range of motion, crowding, and visual sensory deprivatio

47 ic solvents and that proteins exhibit a wide range of motions depending on the specific solvent envir

48 n which dense fibrous tissue prevents normal range of motion, develops in ~3-10% of TKA patients.

49 easurements to calibrate the two-dimensional range of motion (excursion) versus DNA length were carri

50 Mobilization goals varied from range of motion exercises (81%) to ambulation (22%).

51 hieved increased knee extension with passive range-of-motion exercises once his skin thickening and t

52 ranslate into a significantly reduced active range of motion for the fingers.

53 cture of the primase-helicase permits a free range of motion for the primase and helicase domains tha

54 cantly reduced contractures and improved the range of motion in joints affected by advanced Dupuytren

55 he binding of extracellular subdomains whose range of motion in the 2D environment is reduced upon di

56 h migration that is retained despite a broad range of motion in the arms of the junction.

57 Overall, the range of motion in the joints was significantly improved

58 alcium-saturated calmodulin indicates a wide range of motion in the subnanosecond time regime.

59 tructured core of PrP(C), a markedly diverse range of motions is observed, consistent with the inhere

60 Range of motion, laxity, radiographic severity, and func

61 sphorus levels, measured reductions in joint range of motion, low-frequency conductive hearing loss,

62 between these structures suggest that large ranges of motion may be required for substrate transport

63 of the abdomen and brain, echocardiography, range-of-motion measurements, polysomnography, clinical

64 The shoulder joint has the greatest range of motion of any joint in the body and as a result

65 The morphology and range of motion of appendages can be revealed in fossils

66 The mean maximal range of motion of shoulder flexion and elbow extension

67 paring these structures illustrates the full range of motion of the activation gate, from closed with

68 AVN-related pain and limited range of motion of the affected joint were present in on

69 gnificantly, except for durometer scores and range of motion of the elbows.

70 function of the elbow joint and full active range of motion of the extrinsic muscles of the hand, bu

71 actors describing, respectively, the spatial ranges of motions of the adhesive domains, and their rot

72 that objects move slowly can explain a wide range of motion phenomena.

73 il hospital discharge, consisting of passive range of motion, physical therapy, and progressive resis

74 cus (STS) may provide a neural basis for the range of motion-processing deficits observed in ASD, inc

75 We compared impingement free range of motion (ROM) using a novel computer navigated f

76 se Activity Score (DAS) for skin and muscle, range of motion (ROM), and calcification.

77 factors for deviations from normal in joint range of motion (ROM), we used cross-sectional data coll

78 tion, which is associated with reduced ankle range of motion (ROM).

79 e tibia) to the participants' volitional end range of motion (ROM).

80 were randomized to strength training (ST) or range-of-motion (ROM) exercises.

81 nd complex structure-from-motion, for a wide range of motion speeds, all centrally displayed, was ass

82 All ipRGCs responded robustly to a wide range of motion speeds, and M1-M4 cells appeared tuned t

83 tide experience much larger changes in their range of motion than those that are loosely tethered.

84 e tool that measures overall change in joint range of motion that affects physical function in JIA.

85 a dynamically stabilized joint with a large range of motion; therefore, we examined the effects of m

86 Knee range of motion, Timed Up and Go, Stair-Climbing Test, a

87 high resistance and contractions over a wide range of motion to mimic the range occurring in Earth's

88 Secondary outcomes were durometry, range of motion, visual analog scale scores for disease

89 ced, sensation and reflexes were intact, and range of motion was full, though painful.

90 paresthesia, seroma, and impaired extremity range of motion were more common in the immediate group

91 Radius, frequency, and angular range of motion were systematically varied.

92 Respiratory physiotherapy and passive range of motion were the most frequently applied rehabil

93 ge-bore bearings, which provide an increased range of motion with enhanced stability and very low wea

94 ange of 21 bp to 5.5 kbp exhibited a similar range of motion within the cytoplasm of myoblast cells r

95 are highly motile organelles that display a range of motions within a short time frame.