ライフサイエンスコーパス: subsegmental

1 tched defect numbers and sizes (segmental or subsegmental).

2 main and/or interlobar, 33 segmental, and 14 subsegmental).

3 main and/or interlobar, 24 segmental, and 21 subsegmental), 17 (94%) of which had PE at multiple site

4 mainly involved segmental (37/41 [90.2%]) or subsegmental (25/41 [61.0%]) arteries and affected mainl

5 ma and right upper lobe apical segmental and subsegmental airway dimensions, and multiple patient his

6 Of the 12 subsegmental airway nodules that were obstructive, three

7 Sub-subsegmental airways were CT-invisible or missing in 69

8 q is enriched in human BAL samples following subsegmental allergen challenge, and human RNA sequencin

9 Subsegmental analysis revealed geographic dominance of i

10 tool identified positive PE diagnoses, with subsegmental and/or indeterminate diagnoses removed by m

11 all areas in anatomically matched segmental, subsegmental, and subsubsegmental airways.

12 quality exceeded that of MR angiography for subsegmental arteries (3.5 +/- 0.7 vs 2.9 +/- 0.5, P = .

13 ), 53% (422 of 800), and 78% (621 of 800) of subsegmental arteries (P <.001) as well visualized using

14 ), 56% (451 of 800), and 71% (572 of 800) of subsegmental arteries (P <.001) as well visualized using

15 ntly improves visualization of segmental and subsegmental arteries and interobserver agreement in det

16 ), 56% (448 of 800), and 76% (608 of 800) of subsegmental arteries as well visualized (P <.001) using

17 m was significantly better for segmental and subsegmental arteries for all readers with technique 3 (

18 n COVID-19 involves mainly the segmental and subsegmental arteries of segments affected by consolidat

19 To evaluate subsegmental arteries, techniques that improve the visua

20 Among 22 patients with PE limited to the subsegmental arteries, the average co-positivity was 66%

21 t precise for the diagnosis of PE limited to subsegmental arteries.

22 ateral non-uniform stenoses in segmental and subsegmental arteries.

23 f acute pulmonary emboli are confined to the subsegmental arteries.

24 etermine if each main, lobar, segmental, and subsegmental artery was well visualized for presence of

25 linear atelectasis; 16, by thicker linear or subsegmental atelectasis; two, by contiguous tumor infil

26 was no difference in the smallest detectable subsegmental branch (P = .87) or in the average estimate

27 t mite antigen, and saline in three distinct subsegmental bronchi.

28 Subsegmental bronchoprovocation with allergen in patient

29 nal review board-approved protocol for human subsegmental bronchoprovocation with allergen, mouse mod

30 s of human patients with asthma subjected to subsegmental bronchoprovocation with allergen.

31 One patient had an isolated subsegmental clot.

32 scan of included patients showed only small subsegmental defects ( < 25% of a segment) in the presen

33 diagnostic value of 1 to 3 versus > 3 small subsegmental defects on perfusion lung scans of patients

34 r PE and perfusion lung scans with > 3 small subsegmental defects satisfy the criteria for a low prob

35 Perfusion lung scans with 1-3 small subsegmental defects satisfy the criterion for a very lo

36 or PE of perfusion lung scans with 1-3 small subsegmental defects was 1% to 3%, depending on the grou

37 he PE of perfusion lung scans with > 3 small subsegmental defects was 11% to 17% depending on the gro

38 domain-containing genes that occupy opposing subsegmental domains under the control of both bone morp

39 itivity, especially in instances of isolated subsegmental emboli.

40 d segmental emboli and lower sensitivity for subsegmental emboli.

41 m was lobar in 14 patients, segmental in 38, subsegmental in 20, and smaller in three.

42 e largest missed thrombus at angiography was subsegmental in eight patients, segmental in two patient

43 s, and lobar in three patients; at CT it was subsegmental in two patients.

44 h technique 1 (segmental, kappa = 0.47-0.75; subsegmental, kappa = 0.28-0.54).

45 h technique 3 (segmental, kappa = 0.79-0.80; subsegmental, kappa = 0.71-0.76) than that with techniqu

46 We use single-cell/nucleus transcriptomics, subsegmental laser microdissection transcriptomics and p

47 the segmental level in four cases and at the subsegmental level in 11 cases.

48 t, and T2 imaging were made at segmental and subsegmental levels.

49 ations and by apical and posterior segmental/subsegmental locations in an upper lobe (60%).

50 number of mismatch defects and the number of subsegmental mismatch defects or equivalent.

51 ion, a diagnostic cutoff of 1 segmental or 2 subsegmental mismatches seems best for confirming or exc

52 agnostic cutoff of at least 1 segmental or 2 subsegmental mismatches, with sensitivity and specificit

53 stered according to predefined segmental and subsegmental models and was blindly analyzed for abnorma

54 ta regarding the significance of symptomatic subsegmental PE (SSPE) are conflicting, making it diffic

55 sensitivity and specificity for segmental or subsegmental PE were 67% and 100%, respectively, and the

56 ader sensitivity for detecting segmental and subsegmental PE without significant loss of specificity.

57 inty include the therapeutic implications of subsegmental PE, the optimal diagnostic approach to the

58 els along the nephron are congruent with the subsegmental physiological activity.

59 by the thrombosis observed in segmental and subsegmental pulmonary arterial vessels despite the use

60 n pulmonary artery: 5.0 +/- 0 and 5.0 +/- 0; subsegmental pulmonary arteries 4.9 +/- 0.1 and 4.9 +/-

61 lmonary angiograms showed PE in segmental or subsegmental pulmonary arteries but not in larger orders

62 any isolated distal deep vein thromboses and subsegmental pulmonary emboli are identified.

63 den Exter et al highlight the importance of subsegmental pulmonary emboli.

64 velopment of bilateral pleural effusions and subsegmental pulmonary emboli.

65 e dual-source CT (DSCT) for the detection of subsegmental pulmonary embolism (SSPE) in patients suspe

66 The clinical significance of subsegmental pulmonary embolism (SSPE) remains to be det

67 enous thromboembolism was 6.4% in those with subsegmental pulmonary embolism compared with 6.0% in th

68 Of the 666 outpatients with acute subsegmental pulmonary embolism included in this study,

69 Patients with subsegmental pulmonary embolism seemed to have a risk of

70 Adult outpatients with acute subsegmental pulmonary embolism were included.

71 gulation for select ambulatory patients with subsegmental pulmonary embolism who do not have active c

72 cohort study of lower-risk outpatients with subsegmental pulmonary embolism, few were eligible for s

73 ile age was associated with the size of most subsegmental regions of the cerebral cortex, telomere le

74 telomere length was associated with certain subsegmental regions.

75 teral pneumonia was present in 53 (91%), and subsegmental vessel enlargement (>3 mm) was present in 5

76 ior involvement, bilateral distribution, and subsegmental vessel enlargement (>3 mm).

77 e quality (i.e., sharpness, opacification of subsegmental vessels, and exposure) was judged on a thre