ライフサイエンスコーパス: ligamentous

1 sical examination, MRI is more sensitive for ligamentous and meniscal damage but less specific.

2 lage lesions, bone marrow edema pattern, and ligamentous and meniscal lesions.

3 picts the anatomy of the TMT joint including ligamentous and osseous structures.

4 common MRI findings related to tendinopathy, ligamentous and osteochondral injuries, and instability

5 patterns, namely cephalad bony fractures and ligamentous and spinal cord injuries without radiographi

6 d including occult fractures, osteonecrosis, ligamentous and tendon injuries, and entrapment neuropat

7 he knee MRI studies for meniscal, tendinous, ligamentous, and osseocartilaginous injuries.

8 s in vitro within short time, including both ligamentous- and bone-derived cells.

9 nt to the periosteum including tendinous and ligamentous attachments.

10 I evaluation and interpretation of meniscal, ligamentous, cartilaginous, and synovial disorders withi

11 wrist pain who had at least one scapholunate ligamentous communicating defect and unremarkable conven

12 CT) of an injury of cervical spine posterior ligamentous complex (PLC).

13 ic tool for accurate evaluation of posterior ligamentous complex injury.

14 to the expanded iliac blade of the pelvis by ligamentous connection.

15 The location and size of each ligamentous defect was recorded.

16 Ligamentous degeneration was detected in only one of the

17 suggest that the demonstration of a complete ligamentous disruption or involvement of the dorsal port

18 nation findings were unremarkable, excluding ligamentous hyperlaxity and joint instability.

19 The frequency of isolated cervical ligamentous injuries diagnosed with dynamic fluoroscopy,

20 mposite examination for specific meniscal or ligamentous injuries of the knee performed much better t

21 ngeal fascial space from subtle fractures or ligamentous injuries should prompt further assessment of

22 immature individuals, patellar dislocations, ligamentous injuries, and meniscal tears.

23 includes osseous and osteochondral injuries, ligamentous injuries, common traumatic and degenerative

24 The frequencies of purely ligamentous injuries, injuries requiring immobilization,

25 cervical cord contusions, four patients had ligamentous injuries, three patients had intervertebral

26 DI) often undergo subsequent MRI to rule out ligamentous injuries.

27 and initial study reports regarding possible ligamentous injuries.

28 Four patients had ligamentous injuries; however, all of these patients had

29 rticularly for the evaluation of osseous and ligamentous injury (eg, creation of quantitative bone ma

30 to developing knee osteoarthritis following ligamentous injury and in those with severe knee osteoar

31 islocation and the pathophysiology of labral-ligamentous injury are discussed.

32 patients (31%) were subsequently treated for ligamentous injury despite being asymptomatic.

33 366 patients and negative for cervical spine ligamentous injury in 362.

34 suspected if MR images show lateral capsular ligamentous injury in the knee; in these cases, evaluati

35 mic fluoroscopy in the diagnosis of unstable ligamentous injury, although other relative advantages o

36 ema, and one patient had a cord contusion, a ligamentous injury, and an intervertebral disk injury.

37 the history suggests a potential meniscal or ligamentous injury, the physical examination is moderate

38 nd was able to discriminate between bony and ligamentous injury.

39 cal examination, and underwent treatment for ligamentous injury.

40 on also allows us to identify the underlying ligamentous injury.

41 tic resonance imaging (MRI) for meniscal and ligamentous knee damage.

42 While most meniscal or ligamentous knee injuries heal with nonoperative treatme

43 Although diagnostic criteria for generalized ligamentous laxity (hypermobility) in children are widel

44 different joint kinematics in patients with ligamentous laxity and instability, or in the presence o

45 ies, increased quadriceps angle, generalized ligamentous laxity, and family history.

46 Hypermobility, also termed ligamentous laxity, may present in different parts of th

47 ay maintain an intact ACL owing to increased ligamentous laxity.

48 bone marrow edema pattern, and meniscal and ligamentous lesions were frequently demonstrated on MR i

49 he articulation of the quadrate, stress of a ligamentous or muscular insertion, and stress of tooth f

50 soft-tissue ossification and sacroiliac soft-ligamentous ossification instead of joint-cavity fusion.

51 volvement, enthesitis primarily manifests in ligamentous soft tissue as 'ligamentitis', with characte

52 PsA, exhibit a thoracic and cervical spinal ligamentous soft-tissue tropism, clinically manifesting

53 inids lack the carpometacarpal articular and ligamentous specializations of extant apes.

54 ith their ability to delineate cartilage and ligamentous structures and to identify edema, are provid

55 in or suspected injury to the posterolateral ligamentous structures.

56 Meniscal and ligamentous tearing are the most frequent indications fo

57 hman test is more sensitive and specific for ligamentous tears than is the drawer sign.

58 rtilage, osteophytes, sclerosis, meniscal or ligamentous tears, joint effusion, and synovitis were st

59 ubchondral cysts, sclerosis, meniscal and/or ligamentous tears, joint effusion, synovial cysts, and s

60 It originated as a strong fan-shaped ligamentous tendon from the superior part of the plantar

61 has been found, for which the name plantaris ligamentous tendon is proposed.

62 detected anatomical structure, the plantaris ligamentous tendon, and to determine its frequency and h

63 orm for the generation of naturally oriented ligamentous tissues consistent with periodontal ligament

64 to developing knee osteoarthritis following ligamentous trauma and in subjects with radiographic evi