ライフサイエンスコーパス: compression fracture

1 d 46 edematous and 66 nonedematous vertebral compression fractures.

2 ould be considered for symptomatic vertebral compression fractures.

3 sed to treat painful, osteoporotic vertebral compression fractures.

4 transplant referrals had prevalent vertebral compression fractures.

5 4 additional rib and 62 additional vertebral compression fractures.

6 eoporotic vertebral fractures, and vertebral compression fractures.

7 th or without spine RFA for pathologic spine compression fractures.

8 tation to be effective for painful vertebral compression fractures.

9 bone marrow edema in patients with vertebral compression fractures.

10 ing traumatic bone marrow edema in vertebral compression fractures.

11 l involvement-and the presence of associated compression fractures and cord compression.

12 onscious sedation in patients with malignant compression fractures and epidural involvement.

13 with which to detect, localize, and classify compression fractures and measure bone density of thorac

14 of 210 thoracic and lumbar vertebrae showed compression fractures and were electronically marked and

15 Neoplastic vertebral compression fractures are a debilitating complication of

16 8+) years on trial, one patient (1.8%) had a compression fracture associated with trauma.

17 ients with Crohn's disease in whom vertebral compression fractures associated with a marked reduction

18 Vertebral compression fracture at 24 months was 19.5% with SRS and

19 tomically localize, and categorize vertebral compression fractures at high sensitivity and with a low

20 c fracture or for technical factors limiting compression fracture detection.

21 acture diagnosis AUROC = 0.85, and vertebral compression fracture diagnosis AUROC = 0.87, all signifi

22 studies, lytic destruction of bone or spine compression fracture from osteopenia, intravenous pamidr

23 f 81 patients with unreported vertebral body compression fractures had a nonosteoporotic T score (gre

24 Most clinically important vertebral body compression fractures in nontrauma patients at risk for

25 ated disability associated with osteoporotic compression fractures in patients treated with vertebrop

26 ection rate of acute thoracolumbar vertebral compression fractures in patients with osteoporosis comp

27 bone marrow edema in thoracolumbar vertebral compression fractures in patients with osteoporosis, wit

28 reatment of pain resulting from osteoporotic compression fractures is described.

29 steoporosis and the development of vertebral compression fractures is well delineated.

30 resence of moderate or severe vertebral body compression fractures of the lower thoracic and lumbar s

31 scribes the case of a woman in whom multiple compression fractures of the lower thoracic and lumbar s

32 Background Osteoporotic vertebral compression fractures (OVCFs) are prevalent, with associ

33 ) for chronic painful osteoporotic vertebral compression fractures (OVCFs) remains limited.

34 older and were more likely to have a severe compression fracture (P < .05).

35 ous in the treatment of osteolytic vertebral compression fractures resulting from multiple myeloma.

36 sty in the treatment of osteolytic vertebral compression fractures resulting from multiple myeloma.

37 med in 18 patients with osteolytic vertebral compression fractures resulting from multiple myeloma.

38 Patients with acute compression fractures secondary to osteoporosis were sel

39 human XylT2 deficiency results in vertebral compression fractures, sensorineural hearing loss, eye d

40 eviewed for patients with moderate or severe compression fractures to determine whether the fracture

41 one to three painful osteoporotic vertebral compression fractures to undergo either vertebroplasty o

42 Vertebral compression fracture (VCF) is a potential adverse effect

43 Vertebral compression fracture (VCF) is increasingly recognized as

44 Osteoporotic vertebral compression fractures (VCFs) frequently cause substantia

45 plasty in patients with cancer and vertebral compression fractures (VCFs).

46 In 18 patients, subsequent diagnosis of a compression fracture was determined by means of another

47 least one moderate or severe vertebral body compression fracture was identified retrospectively at C

48 s with an unreported fracture, the vertebral compression fracture was not known clinically.

49 Sensitivity for detection or localization of compression fractures was 95.7% (201 of 210; 95% confide

50 , 58 men) with (n = 75) and without (n = 75) compression fractures was assembled.

51 vertebroplasty for osteoporotic or traumatic compression fractures were examined.

52 between edematous and nonedematous vertebral compression fractures were found for both readers (P < .

53 Pathologic compression fractures were identified (seven patients).

54 Compression fractures were induced, and the vertebrae we

55 ts with 112 thoracic and/or lumbar vertebral compression fractures were studied between January 2011

56 patients, those with osteoporotic vertebral compression fractures who underwent vertebral augmentati