ライフサイエンスコーパス: pulmonary emphysema

1 ical scanner can be used in the diagnosis of pulmonary emphysema.

2 ine of AAT levels in sera is responsible for pulmonary emphysema.

3 itor activity, resulting in liver injury and pulmonary emphysema.

4 g-induced senescence of lung fibroblasts and pulmonary emphysema.

5 n and airspace enlargement characteristic of pulmonary emphysema.

6 arget for the treatment and/or prevention of pulmonary emphysema.

7 ng and age-related human diseases, including pulmonary emphysema.

8 nsidered an environmental hazard that causes pulmonary emphysema.

9 oxidative stress, and inflammation, such as pulmonary emphysema.

10 lmonary disease including bronchiectasis and pulmonary emphysema.

11 1 (MMP-1) is up-regulated in the lung during pulmonary emphysema.

12 tation of increased feature sizes related to pulmonary emphysema.

13 epithelial alveolar cells type 2, leading to pulmonary emphysema.

14 the major cause of sterile inflammation and pulmonary emphysema.

15 activation/apoptosis in the pathogenesis of pulmonary emphysema.

16 Pulmonary emphysema, a significant global health problem

17 ncy is an inherited disorder associated with pulmonary emphysema and a higher risk of chronic obstruc

18 oxidative capacity coexist in patients with pulmonary emphysema and are independently associated wit

19 Entities such as pulmonary emphysema and cystic bronchiectasis can simula

20 idant N-acetylcystein significantly improved pulmonary emphysema and dysfunction.

21 Genetic ablation of FoxO3 led to pulmonary emphysema and exaggerated inflammatory respons

22 rized by local tissue destruction coexist in pulmonary emphysema and other diseases.

23 cifications, bone mineral density reduction, pulmonary emphysema and senile atrophy of skin.

24 the preceding generation, the mother died of pulmonary emphysema and she was blind after the age of 5

25 Three excised murine lungs with pulmonary emphysema and three excised murine control lun

26 contribute to destructive processes such as pulmonary emphysema and vascular aneurysm formation.

27 iseases, including capillary stress failure, pulmonary emphysema, and vessel wall aneurysms.

28 e mitochondria, which is consistent with the pulmonary emphysema animal data.

29 field chest radiography in participants with pulmonary emphysema as compared with those in healthy co

30 ant protein D (SP-D) gene caused progressive pulmonary emphysema associated with pulmonary infiltrati

31 ing is a major factor for the development of pulmonary emphysema because it induces abnormal inflamma

32 rs +/- 8 [standard deviation]) with advanced pulmonary emphysema before lung volume reduction surgery

33 mphocytes, neutrophils, and macrophages, and pulmonary emphysema coexist in lungs from patients with

34 Two million Americans suffer from pulmonary emphysema, costing $2.5 billion/year and contr

35 cation, severe muscle wasting, hypogonadism, pulmonary emphysema, distention of intestinal wall, and

36 Pulmonary emphysema impairs lung and respiratory muscle

37 ntary contrasts could allow the diagnosis of pulmonary emphysema in a murine model.

38 The volume and severity of pulmonary emphysema in individual lungs were measured by

39 ted whether Notch3 signaling plays a role in pulmonary emphysema in MFS.

40 dicates that Notch3 signaling contributes to pulmonary emphysema in mgR mice.

41 Pulmonary emphysema is a common disease in which destruc

42 Pulmonary emphysema is a disease characterized by alveol

43 Pulmonary emphysema is associated with dysregulated inna

44 Pulmonary emphysema is believed to result from an imbala

45 gulates myofiber respiration in experimental pulmonary emphysema, it does not control muscle mass or

46 Conclusion Pulmonary emphysema leads to reduced signal intensity on

47 e for the lung destruction characteristic of pulmonary emphysema, macrophage elastase-deficient (MME-

48 es to induce alveolar remodeling in a murine pulmonary emphysema modeling system.

49 o address the role of neutrophil elastase in pulmonary emphysema, neutrophil elastase-deficient mice

50 in development, and during diseases such as pulmonary emphysema or vascular aneurysm.

51 Pulmonary emphysema overlaps partially with spirometrica

52 netic associations with distinct patterns of pulmonary emphysema quantified by computed tomography sc

53 Using a mouse with genetically induced pulmonary emphysema that recapitulates muscle dysfunctio

54 tion of latent TGF-beta causes age-dependent pulmonary emphysema through alterations of macrophage Mm

55 Pulmonary emphysema, together with chronic bronchitis is

56 ts that the stripe sign is caused by central pulmonary emphysema, we report a case of an identical pe

57 Cigarette smoke is the most common cause of pulmonary emphysema, which results in an irreversible lo

58 The ensuing systemic AAT deficiency leads to pulmonary emphysema, while intracellular polymers are to

59 uted tomography (CT) in patients with severe pulmonary emphysema who were scheduled to undergo lung v