ライフサイエンスコーパス: rib fracture

1 dyspnoea or cough, and one [3%] fatigue and rib fracture).

2 es, age is a risk factor for mortality after rib fracture.

3 ent Sample was queried for all patients with rib fracture.

4 erstitial disease, alveolar infiltrates, and rib fracture.

5 ma and often occur with multiple consecutive rib fractures.

6 ed radiologists to determine the presence of rib fractures.

7 debridement, laceration repair, and multiple rib fractures.

8 n zone characteristics had on development of rib fractures.

9 rly, let alone pain resulting from traumatic rib fractures.

10 diagnostics and interpretation of traumatic rib fractures.

11 breathing is recommended for suspected upper rib fractures.

12 eumonia and mortality in patients sustaining rib fractures.

13 lvis fractures, and 2.4 (CI, 1.5 to 3.9) for rib fractures.

14 ay provide a viable approach to identify all rib fractures.

15 s limited evidence for analgesic benefits in rib fractures.

16 se to the chest wall should be monitored for rib fractures.

17 ons (32.3%) of the lung, as well as multiple rib fractures (29.6%).

18 Only 30 rib fractures (36%) were visible with skeletal survey ex

19 .27-9.38 vs 4.05%; 95% CI, 3.87%-4.24%), and rib fracture (4.53%; 95% CI, 3.63%-5.64% vs 3.62%; 95% C

20 s) for hematuria, 6.0% (13 of 216) for lower rib fractures, 7.6% (eight of 105) for lumbar spine frac

21 as used to estimate patients' probability of rib fracture after ablation as a function of time.

22 7 patients (30.5%) presented with at least 1 rib fracture and 59 subjects (12.2%) with delayed hemoth

23 ant predictors of mortality in patients with rib fractures and multiple-system injury.

24 scapula), 93% for the detection of posterior rib fractures, and 67% for the detection of classic meta

25 ractures, 73% for the detection of posterior rib fractures, and 80% for the detection of CMLs.

26 ed body weight curves, reduced the number of rib fractures, and improved bone mineralization and bone

27 Acute and healing rib fractures are common in infants who died with inflic

28 Rib fractures are highly predictive of non-accidental tr

29 everal types of trauma, including (a) healed rib fractures, (b) hairline skull fractures and a compre

30 lung injury in an animal model with multiple rib fractures, both with and without acute lung injury,

31 und that the addition of an SAPB to standard rib fracture care significantly increased the proportion

32 s also increase with increments of number of rib fracture detected on radiograph.

33 Rib fracture detection in pediatric radiographs is chall

34 determine the optimal views and to simplify rib fracture diagnostics.

35 tients with solely delayed hemothorax and no rib fracture had the lowest global physical health score

36 Pain management for traumatic rib fractures has been described in literature, but ther

37 truction of radiographic images of traumatic rib fractures in order to determine the optimal views an

38 8)F-NaF PET was superior in the detection of rib fractures in particular.

39 ll) performance for detecting and localizing rib fractures in pediatric chest radiographs to help aug

40 Rib fractures in proximity to the ablation zone were fou

41 Age, gender, number of rib fractures, Injury Severity Score, comorbidities, pne

42 Rib fracture is the most common thoracic injury.

43 Disparate problems such as rib fractures, lung injury, hemothorax, pneumothorax, me

44 1:1) to receive an SAPB in addition to usual rib fracture management or standard care alone.

45 Prior studies have shown up to two-thirds of rib fractures may be missed during initial interpretatio

46 Bilateral multiple consecutive rib fractures occurred in 36% (41 of 114) versus 14% (64

47 ace was unaffected by chest wall dissection, rib fractures, or subsequent lung injury but decreased a

48 phenotypes, including osteolytic lesions and rib fractures, osteoporosis, slow growth and reduced sur

49 Nerve blocks are instrumental in treating rib fracture pain along with utilization of opioids and

50 ax, aortic or great vessel injury, 2 or more rib fractures, ruptured diaphragm, sternal fracture, and

51 Rib fractures secondary to blunt thoracic trauma typical

52 n of pneumothorax, interstitial disease, and rib fracture showed statistically significant difference

53 ory, fractures of various ages, particularly rib fractures, subdural hematoma of the brain, and retin

54 No patients with rib fractures that were apparently induced by RFA and MW

55 nagement regimen for geriatric patients with rib fractures to decrease the morbidity and mortality as

56 ence of delayed hemothorax and the number of rib fracture were associated with increased functional l

57 Vertebral compression and rib fractures were 100- and 10-fold more common than exp

58 linically suspected or radiologically proven rib fractures were included in the study.

59 Rib fractures were present in 13.5% of patients after pe

60 useful in the prediction of hip, pelvis, and rib fractures when bone mineral density has not been mea

61 rted as being associated with PPIs, such as 'rib fractures', where signals were detected for overall

62 signs of fracture, e.g. evaluation of lower rib fractures, while 45 degrees oblique view during fast

63 increased after animals underwent bilateral rib fractures without (12.7%, p <.05) and with (19.9%, p