ライフサイエンスコーパス: stress fracture

1 ation to look for alternative causes such as stress fracture.

2 he gold standard for definitive diagnosis of stress fractures.

3 uptions of the alveolar walls, suggestive of stress fractures.

4 rains, and reflex sympathetic dystrophy; and stress fractures.

5 o volunteers, the changes resembled those of stress fractures.

6 ation of tissue following experimental ulnar stress fracture and assessed the impact of loss of TrkA

7 s differed in runners with history of tibial stress fractures and current Achilles tendinopathy (p <

8 ention of hip pain, and the reduction of the stress fractures and fall risks.

9 on the interactions between thermal tensile stress, fracture and ice wedges.

10 requent main diagnoses to be osteoarthritis, stress fracture, and bone marrow edema.

11 sible disorders such as impaction syndromes, stress fractures, and neurovascular lesions.

12 cate dehydration, meteoroid impacts, thermal stress fracturing, and secondary impacts.

13 Stress fractures are common in racehorses, with the meta

14 Bone stress injuries, including stress fractures, are overuse injuries that lead to subs

15 jects suffered more than three times as many stress fractures as "low risk" subjects.

16 s to be a risk factor for the development of stress fracture, but this difference may be secondary to

17 These data suggest that risk of stress fracture during rigorous physical training is inc

18 nce imaging may be required to differentiate stress fractures from other processes such as malignant

19 biomechanics can have an etiological role in stress fracture, gait re-training may be an important fe

20 Although the etiology of stress fractures is multifactorial, lower bone strength

21 Management of stress fractures is usually conservative, with variation

22 tact forces, the risk of hip pain, falls and stress fractures might be greater during stair descent t

23 bnormal marrow signal intensity (n = 5), and stress fracture (n = 2).

24 sient osteoporosis of the hip and one with a stress fracture of the sacral bone.

25 There were no stress fractures of long bones with prolonged therapy.

26 Stress fractures of the lower extremity and sacrum occur

27 rate an essential role of TrkA signaling for stress fracture repair and implicate skeletal sensory ne

28 Stress fracture risk is elevated during initial military

29 gnosis of bone stress injury that includes a stress fracture (SF) and stress reaction (SR).

30 al diagnosis of exertional leg pain includes stress fractures, stress reaction, periostitis, claudica

31 isposed to different sites and mechanisms of stress fractures than their skeletally mature counterpar

32 individuals at high risk for lower extremity stress fracture when beginning a rigorous physical train

33 and treatment strategies of lower extremity stress fractures, while highlighting new research relate