ライフサイエンスコーパス: cruciate

1 n the distal femur and proximal tibia in the cruciate-deficient limb.

2 s found between the rostral edge of the post-cruciate dimple (PCD) and the rostral edge of the ansate

3 ells), tendon (Achilles), ligament (anterior cruciate), elastic cartilage, meniscus, and hyaline cart

4 acic phrenic nerve in the contralateral post-cruciate gyrus of all animals (n = 42).

5 ictive lung disease, and variable absence of cruciate knee ligaments.

6 g on the insertion site between the anterior cruciate ligament (ACL) and bone, the objectives of this

7 ntaneous age-related changes in the anterior cruciate ligament (ACL) and their relationship to articu

8 Although anterior cruciate ligament (ACL) injuries are not gender specific

9 lly, femoral notch narrowing at the anterior cruciate ligament (ACL) insertion site is associated wit

10 There are >200,000 anterior cruciate ligament (ACL) ruptures each year in the United

11 Anterior cruciate ligament (ACL) tears had a borderline significa

12 Associated anterior cruciate ligament (ACL) tears were found in 25 of the 25

13 OA was induced in rabbits by anterior cruciate ligament (ACL) transection.

14 Primary cells from a human anterior cruciate ligament (ACL) were used to engineer ligament c

15 jor joint stabilizing ligament, the anterior cruciate ligament (ACL), than in the flexor digitorum lo

16 The anterior cruciate ligament (ACL), which lacks a functional healin

17 al epitopes, for replacing ruptured anterior cruciate ligament (ACL).

18 ed joint stability by rupturing the anterior cruciate ligament (except for 6N) and instigated a casca

19 of the tibia of more than 7 mm, a posterior cruciate ligament (PCL) angle of less than 100 degrees ,

20 ture investigating injuries to the posterior cruciate ligament (PCL), despite the fact that it is an

21 , which are related anatomically to anterior cruciate ligament [ACL]/posterior cruciate ligament [PCL

22 o anterior cruciate ligament [ACL]/posterior cruciate ligament [PCL] insertions, and type 2 BMLs, whi

23 The importance of the anterior cruciate ligament and its relationship with other anatom

24 sterior drawer, and one also had an anterior cruciate ligament graft tear.

25 possibly help improve evaluation of anterior cruciate ligament grafts in patients after surgery.

26 instability and "gymnast's wrist"; anterior cruciate ligament injuries and patellofemoral pain syndr

27 concrete guidelines in treatment of anterior cruciate ligament injuries in the prepubescent populatio

28 More specifically, anterior cruciate ligament injury in the skeletally immature indi

29 or knee osteoarthritis (obesity and anterior cruciate ligament injury) reported a relationship betwee

30 nia and trabecular thinning noted around the cruciate ligament insertions.

31 iographs of dogs that underwent DRG with the cruciate ligament left intact (n = 8) or of neurological

32 We examined cruciate ligament mechanics and metabolism and the inter

33 Cruciate ligament metabolism was determined by measuring

34 3 weeks later by transection of the anterior cruciate ligament of the ipsilateral knee (ACLT).

35 mongrel dogs by transection of the anterior cruciate ligament of the left knee.

36 mongrel dogs by transection of the anterior cruciate ligament of the left knee.

37 tion, synovial hyperplasia and fibrosis, and cruciate ligament pathology, with a severity that was de

38 e in the literature suggesting that anterior cruciate ligament reconstruction in the adolescent popul

39 Anterior cruciate ligament reconstruction in the skeletally immat

40 nd 0.2%, respectively, after 21,062 anterior cruciate ligament reconstruction, 0.5% and 0.3% after 57

41 tectomy, breast-conserving surgery, anterior cruciate ligament reconstruction, and hernia repair from

42 ology will help the surgeon perform anterior cruciate ligament reconstruction.

43 eons have been reluctant to perform anterior cruciate ligament reconstructions in skeletally immature

44 , (2) orthopedic patients with torn anterior cruciate ligament replaced by a ligament made of pig pat

45 Future anterior cruciate ligament surgery techniques will evolve from em

46 on was found between Baker cyst and anterior cruciate ligament tear or medial collateral ligament inj

47 pecific examination maneuver for a posterior cruciate ligament tear, but the composite assessment had

48 ervative management of midsubstance anterior cruciate ligament tears in the skeletally immature popul

49 Cruciate ligament tears were found in five of 12 knees w

50 ternal derangement (meniscal and/or anterior cruciate ligament tears), medial collateral ligament inj

51 the detection of cartilage lesions, anterior cruciate ligament tears, and meniscal tears were calcula

52 ng protocol for detecting cartilage lesions, cruciate ligament tears, collateral ligament tears, meni

53 maging protocol in the detection of anterior cruciate ligament tears, medial meniscal tears, or later

54 ct cartilage lesions, anterior and posterior cruciate ligament tears, meniscal tears, and bone marrow

55 etic resonance images were read for anterior cruciate ligament tears.

56 haracterized the changes in the rat anterior cruciate ligament transection (ACLT) model of OA and eva

57 SF) was investigated using a rabbit anterior cruciate ligament transection (ACLT) model.

58 to altered mechanical loading in an anterior cruciate ligament transection (ACLT) mouse model of oste

59 tively follow and remove SnCs after anterior cruciate ligament transection (ACLT).

60 mental OA was induced in rabbits by anterior cruciate ligament transection (ACLT).

61 OA was induced in rabbits by anterior cruciate ligament transection (ACLT).

62 A novel mouse model of OA was generated by cruciate ligament transection (CLT) and evaluated by his

63 unstable knee at arthroscopy 16 weeks after cruciate ligament transection (P = 0.04) and at the time

64 bilization of the knee joint in the anterior cruciate ligament transection and destabilization of the

65 All dogs underwent anterior cruciate ligament transection and were exercised.

66 mature and 6 aged rabbits underwent anterior cruciate ligament transection and were killed 4 and 8 we

67 oderately sensitive (meniscus, 87%; anterior cruciate ligament, 74%; and posterior cruciate ligament,

68 terior cruciate ligament, 74%; and posterior cruciate ligament, 81%) and specific (meniscus, 92%; ant

69 terior cruciate ligament, 95%; and posterior cruciate ligament, 95%).

70 , 81%) and specific (meniscus, 92%; anterior cruciate ligament, 95%; and posterior cruciate ligament,

71 cartilaginous structures in the knee such as cruciate ligament, synovium and some blood vessels are f

72 between the tibial eminence and the anterior cruciate ligament, the latter being a key component in m

73 ysical examination for tears of the anterior cruciate ligament, using the anterior drawer test, were

74 edial meniscus and resection of the anterior cruciate ligament.

75 erence to meniscal tears and injuries of the cruciate ligaments as well as injuries of the posterolat

76 The influence of the cruciate ligaments in spontaneous osteoarthritis (OA) is

77 pro and active MMP-2, PICP, and DHLNL in the cruciate ligaments of DH animals at most ages, compared

78 tensor tendons and collateral ligaments, the cruciate ligaments, tibialis anterior, the lateral colla

79 ng transection of the anterior and posterior cruciate ligaments.

80 vity was observed on the ventral bank of the cruciate sulcus in area 6aalpha.

81 e sagittal sulcus and the lateral end of the cruciate sulcus.