ライフサイエンスコーパス: meniscal tear

1 rography to diagnose a residual or recurrent meniscal tear.

2 raphy to demonstrate a residual or recurrent meniscal tear.

3 idered a risk factor for medial degenerative meniscal tear.

4 raphy to demonstrate a residual or recurrent meniscal tear.

5 nly in the absence of other indications of a meniscal tear.

6 site on knee MR images does not represent a meniscal tear.

7 t treatment for patients with a degenerative meniscal tear.

8 anterior cruciate ligament rupture or acute meniscal tear.

9 lar surface and to determine the presence of meniscal tears.

10 lower sensitivity and accuracy for detecting meniscal tears.

11 als ages 45-65 years with knee pain, OA, and meniscal tears.

12 ent tears, medial meniscal tears, or lateral meniscal tears.

13 conventional SE imaging for the detection of meniscal tears.

14 rred treatment over surgery for degenerative meniscal tears.

15 sical therapy for patients with degenerative meniscal tears.

16 llar dislocations, ligamentous injuries, and meniscal tears.

17 ess the healing status of surgically induced meniscal tears.

18 ccuracy (P = .05) for helping detect lateral meniscal tears (73.2% sensitivity and 88.4% accuracy for

19 root tear than in the group without root or meniscal tear (76.7% vs 19.7%, P < .0001) but not in the

20 interval [CI]: 1.01, 1.23), the presence of meniscal tears (adjusted OR, 3.19; 95% CI: 1.13, 9.03),

21 fect was used to evaluate the risk of medial meniscal tear, adjusting for age, sex, body mass index,

22 Four meniscal tears also demonstrated flouncelike folds.

23 A relationship with meniscal tear and degenerative joint disease independent

24 tic patients 45 years of age or older with a meniscal tear and evidence of mild-to-moderate osteoarth

25 She has undergone arthroscopic surgery for a meniscal tear and has taken nonsteroidal anti-inflammato

26 meniscectomy for symptomatic patients with a meniscal tear and knee osteoarthritis results in better

27 For patients with degenerative meniscal tear and knee pain, the addition of physical th

28 administration of R805 to rats after medial meniscal tear and to canines after arthroscopic meniscal

29 ntional MR imaging at helping detect lateral meniscal tears and bone marrow edema lesions.

30 These will be discussed in reference to meniscal tears and injuries of the cruciate ligaments as

31 Among individuals with degenerative meniscal tears and OA, easily obtainable clinical inform

32 Meniscal tears and osteoarthritis (OA) frequently coexis

33 solated medial posterior root tear, 270 with meniscal tear, and 245 with no tear.

34 ificant associations (P < .01) for effusion, meniscal tear, and degenerative arthropathy, independent

35 icant associations (P < .001) with effusion, meniscal tear, and degenerative arthropathy.

36 Thirty-nine patients showed a meniscal tear, and only three of them (7.7%) demonstrate

37 e ligament tears, collateral ligament tears, meniscal tears, and bone marrow edema lesions within the

38 erior and posterior cruciate ligament tears, meniscal tears, and bone marrow edema lesions, first by

39 to detect cartilage lesions, ligament tears, meniscal tears, and bone marrow edema lesions.

40 s were analyzed, including ACL tears, medial meniscal tears, and other lateral femorotibial compartme

41 d to functional knee instability, subsequent meniscal tears, and the development of early degenerativ

42 vitis in posttraumatic joint injury, such as meniscal tears, and the protective role of the pericellu

43 Meniscal tears are a common orthopedic injury, yet their

44 When meniscal tears are found, it is commonly assumed that th

45 Meniscal tears are not the only factors associated with

46 knee osteoarthritis (OA) and without medial meniscal tear at baseline were studied.

47 neration, a meniscal root tear, and a longer meniscal tear at preoperative MR imaging.

48 d for knee pain attributed to a degenerative meniscal tear, but its efficacy has not been established

49 marrow edema in the same compartment as the meniscal tear, greater severity of meniscal extrusion, g

50 tilage damage in the root tear group and the meniscal tear group, with the no tear group serving as a

51 group and 1.84 (95% CI: 1.32, 2.58) for the meniscal tear group.

52 Meniscal tears have a poor healing capacity, and damage

53 Traumatic and degenerative meniscal tears have different anatomic features and diff

54 Traumatic and degenerative meniscal tears have different anatomic features and diff

55 Sixty-one percent of the subjects who had meniscal tears in their knees had not had any pain, achi

56 For meniscal tears, joint line tenderness is sensitive (75%)

57 Cross-sectional associations of severity of meniscal tears, knee malalignment, tibiofemoral cartilag

58 of meniscal extrusion, total BLOK score, and meniscal tear length.

59 Efficacy studies were conducted in a rat meniscal tear model of OA.

60 3965 potently alleviated joint pain in a rat meniscal tear model of osteoarthritis.

61 terior cruciate ligament injuries (MRI), and meniscal tears (MRI)-the RadImageNet models demonstrated

62 in clinical trials for cartilage lesions and meniscal tears, opening new avenues for cartilage and me

63 The prevalence of a meniscal tear or of meniscal destruction in the right kn

64 most always associated with a far peripheral meniscal tear or with a meniscocapsular junction injury

65 of anterior cruciate ligament tears, medial meniscal tears, or lateral meniscal tears.

66 ely to have defects of cartilage (P = .001); meniscal tears (P = .001); and osteophytes, subchondral

67 medial meniscal tears (P = .04) and lateral meniscal tears (P = .01) and significantly higher accura

68 cantly higher accuracy for detecting lateral meniscal tears (P = .03) than IDEAL GRASS.

69 ntly higher sensitivity for detecting medial meniscal tears (P = .04) and lateral meniscal tears (P =

70 ents aged 45 to 70 years with a degenerative meniscal tear participated.

71 itative MRI may be a viable method to assess meniscal tears post-operatively.

72 Patients who had sustained meniscal tears showed a higher average rate of progressi

73 s of age with knee pain, osteoarthritis, and meniscal tear to one of four groups: home exercise (3-mo

74 Laterally, meniscal tears, valgus malalignment, and cartilage damag

75 Medially, meniscal tears, varus malalignment, and cartilage damage

76 odel, the hazard ratio for developing medial meniscal tear was 18.2 (95% confidence interval: 8.3, 39

77 igns of osteoarthritis), the prevalence of a meniscal tear was 63% among those with knee pain, aching

78 Tear length was measured, and type of meniscal tear was classified.

79 The parameters for detecting 31 lateral meniscal tears were 58.0%, 90.6%, and 80.0% for IDEAL GR

80 espective parameters for detecting 50 medial meniscal tears were 85.0%, 91.1%, and 87.9% for IDEAL GR

81 sions, anterior cruciate ligament tears, and meniscal tears were calculated.

82 methods for detecting cartilage lesions and meniscal tears were determined.

83 ents undergoing arthroscopy for degenerative meniscal tears were recruited under Institutional Review

84 he general population and the association of meniscal tears with knee symptoms and with radiographic

85 four with flouncelike folds associated with meniscal tears) with an S-shaped fold in the free edge o

86 solated medial posterior root tear, 294 with meniscal tear without root tear, and 264 without menisca

87 separated into three groups: root tear only, meniscal tear without root tear, and neither meniscal no