ライフサイエンスコーパス: joint injury

1 ricin may be a potential biomarker for early joint injury.

2 mation may limit the chronic consequences of joint injury.

3 and is associated with both advanced age and joint injury.

4 itis and has multiple risk factors including joint injury.

5 eniscal repair during arthritis or following joint injury.

6 e niche that regenerate cartilage and repair joint injury.

7 the development of osteoarthritis (OA) after joint injury.

8 ases like osteoarthritis can be initiated by joint injury.

9 inhibitor and studied for 7 or 28 days after joint injury.

10 re protected from cartilage damage following joint injury.

11 , subchondral bone sclerosis, and pain after joint injury.

12 he severity of PTOA and muscle atrophy after joint injury.

13 at is exacerbated two weeks after an induced joint injury.

14 A), female sex, obesity, genetics, and major joint injury.

15 ce of joint hemorrhage and following induced joint injury.

16 graphy enable the diagnosis of simulated MCP joint injuries.

17 Joint injury also increased IL-12p70 concentrations in m

18 present evidence on the incongruity between joint injury and experience of OA pain, and review brain

19 d joint injury and the relationships between joint injury and joint degeneration.

20 ividuals, indicating a possible role in knee joint injury and modulation of such by altering muscular

21 lationships between sports participation and joint injury and the relationships between joint injury

22 the relationships among increased joint use, joint injuries, and injury-induced joint degeneration th

23 e of a compression wrap for closed extremity joint injuries; and temporary storage of an avulsed toot

24 Obesity and joint injury are primary risk factors for osteoarthritis

25 edominant disease risk factors - obesity and joint injury - are well recognized and modifiable.

26 rticular and systemic inflammation following joint injury, as evidenced by lower gene expression of t

27 Joint injury at cohort entry or during follow-up substan

28 ic osteoarthritis (PTOA) are associated with joint injury, biomechanical changes, and synovial bioche

29 e consistent with knee OA being initiated by joint injury, but with progression being a consequence o

30 Traumatic joint injury can damage cartilage and release inflammato

31 History of fracture and bone or joint injury (FBJI) and other injury causing limitation.

32 OA) animal models and in naturally occurring joint injuries in humans and animals, with no consensus

33 age transcriptomic response following direct joint injury in a murine model of PTOA is rescued by pha

34 ble model and a whole-joint approach for how joint injury in humans leads to PTOA.

35 n vitro and in vivo in response to cartilage/joint injury in mice.

36 iage could increase the risk of degenerative joint injury in physically active women.

37 Joint injury in young adults leads to an increased risk

38 es that orchestrate inflammation following a joint injury; in particular, macrophages are central pro

39 When OA develops after a joint injury, it is designated as post-traumatic OA (PTO

40 ow-up of 36 years, 141 participants reported joint injuries (knee alone [n = 111], hip alone [n = 16]

41 Traumatic joint injury leads to an increased risk of osteoarthriti

42 Joint injury leads to cartilage damage, a known determin

43 Acute joint injury leads to increased risk for osteoarthritis

44 Existing biomarker data in the joint-injury literature can provide insights into the pa

45 Furthermore, after joint injury, MRL/MpJ mice had lower gene expression of

46 Traumatic joint injuries often result in elevated proinflammatory

47 for the altered composition of the SF after joint injury or during inflammation.

48 cular function, and people with a history of joint injury or mild osteoarthritis should select sports

49 repair or regeneration for the treatment of joint injury or osteoarthritis, as well as for their app

50 bnormal joint anatomy or alignment, previous joint injury or surgery, osteoarthritis, joint instabili

51 Although various joint injuries result in post-traumatic osteoarthritis (

52 therapeutic intervention, blocking ST2 after joint injury significantly ameliorated joint damage duri

53 d in some samples, indicating that the acute joint injury site can promote osteogenic progression of

54 hritis (PTOA) within 10 years following knee-joint injuries such as anterior cruciate ligament ruptur

55 osteoarthritis (PTOA) develops secondary to joint injury, such as ligament rupture, and there is inc

56 e contribution of synovitis in posttraumatic joint injury, such as meniscal tears, and the protective

57 Obesity and joint injury together can alter systemic levels of infla

58 states of macrophages in synovium following joint injury, underpinned by distinct transcriptomic sig

59 ontrolling for adiposity, high fat diet, and joint injury using lipodystrophic (LD) mice.

60 Acute joint injury was induced in 4 joints by intraarticular i

61 which mimics a mechanical stimulus for facet joint injury, was measured using an algometer.

62 Both WD-induced skin and joint injuries were associated with an expansion of IL-1