ライフサイエンスコーパス: cavitary

1 ar opacities, only three (19%) of which were cavitary.

2 an immunodeficiency virus (non-HIV)-infected cavitary and noncavitary TB patients and from HIV-infect

3 vo bacteria that elicit antibodies differ in cavitary and noncavitary TB.

4 Congenital cavitary anomalies of the optic disc, including typical

5 be promising biomaterials for injection into cavitary brain lesions to recruit endogenous NPCs and en

6 out chemotactic cues and structural support, cavitary brain lesions typically fail to recruit endogen

7 M. bovis infections generated cavitary CFU counts of 10(6) to 10(9) bacilli, while non

8 TB patients with both a positive smear and a cavitary chest radiograph were more likely to have TB in

9 s (81.8%laparotomy, 18.2% sternotomy) before cavitary closure.

10 eased mortality by 68%, infarct size by 40%, cavitary dilation by 26%, and diastolic stress by 70%.

11 healed infarct, foci of myocardial scarring, cavitary dilation, and impaired ventricular performance.

12 ging studies of 22 consecutive patients with cavitary disc maculopathy evaluated by a single surgeon

13 tely 50% of non-AIDS patients had upper-lobe cavitary disease and 50% had nodular bronchiectasis.

14 was less effective for MAC-PD patients with cavitary disease and a history of chronic obstructive pu

15 due to MAC whereas patients with upper lobe cavitary disease are usually infected with only a single

16 (OR, 5.07; 95% CI, 1.73-14.9; P = .003), and cavitary disease in the absence of directly observed the

17 th M. bovis results in chronic, progressive, cavitary disease leading to death.

18 g use, and a history of incarceration and/or cavitary disease were predictors of clustering of high-c

19 collected from nine patients with upper lobe cavitary disease who were younger (mean age 52 yr), pred

20 ysis of the PET region of interest predicted cavitary disease with 100% sensitivity and 76% specifici

21 lysis of the CT region of interest predicted cavitary disease with 83.3% sensitivity and 76.9% specif

22 other animals, two had chronic, progressive cavitary disease, a phenotype usually seen only with M.

23 l models of tuberculosis (TB) rarely develop cavitary disease, limiting their value for assessing the

24 In patients with smear-positive and/or cavitary disease, macrophages or polymorphonuclear leuko

25 for patients with baseline drug resistance, cavitary disease, or HIV infection.

26 notypes were identified in the patients with cavitary disease, with only 1 of 9 (11%) having two or m

27 h bronchiectasis and 27 (53%) had upper lobe cavitary disease.

28 at elicits antibodies during noncavitary and cavitary disease.

29 sera from a subset of patients with advanced cavitary disease.

30 a from TB patients with early noncavitary or cavitary disease.

31 Having noncavitary, compared with cavitary, disease increased culture response by 4.0 time

32 ng normal and abnormal beats with the use of cavitary electrograms measured with a noncontact multiel

33 The feasibility of measuring cavitary electrograms using a noncontact probe and recon

34 At histopathologic analysis, focal cavitary enlargement with at least doubling of the ureth

35 , increased number of involved lung areas or cavitary formation.

36 myopathy in 3 siblings, characterized by mid-cavitary hypertrophy and restrictive physiology.

37 al tuberculosis (TB), whether noncavitary or cavitary, is the late stage of a chronic disease process

38 ng Mycobacterium tuberculosis recovered from cavitary isolates compared with paired sputum isolates s

39 ing the pathway for fluid migration from the cavitary lesion into and under the retina.

40 a risk factor for shorter survival, while a cavitary lesion on initial chest film and institution of

41 Surgical resection of the patient's solitary cavitary lesion was done as adjunctive treatment, and a

42 Patients who have stage I NSCLC with cavitary lesions have an adverse prognosis and are likel

43 The presence of cavitary lesions in patients with tuberculosis poses a s

44 omography (CT) to predict the development of cavitary lesions in rabbits.

45 Seventy-one (70%) of the cases had cavitary lesions on chest radiograph, and 94 (92%) had s

46 -positive and culture-positive specimens and cavitary lesions on chest radiograph; both died of MDR T

47 toms, more extrapulmonary disease, and fewer cavitary lesions on chest radiographs.

48 The size of cavitary lesions was reduced in all patients, 2 months a

49 Weight loss and cavitary lesions were more common (P< .01 for both compa

50 Cavitary lesions were significantly associated with shor

51 Cavitary lesions were significantly more common in squam

52 lin sparing U-fibers, axonal disruption, and cavitary lesions without inflammation.

53 ctions at 33 weeks were associated with more cavitary lesions.

54 We report a case of cavitary lung abscess caused by a Capnocytophaga species

55 On further stratification, cavitary lung disease (P < 0.0001 for interaction) and s

56 f a woman presenting with bronchiectasis and cavitary lung disease associated with nontuberculous myc

57 ts only when they are smear-negative or lack cavitary lung disease.

58 ally resistant to infection but may manifest cavitary lung lesions.

59 This unique cavitary model provides a reliable animal model to study

60 10 days; P = .0615), increased frequency of cavitary necrosis at follow-up CT (seven of seven [100%]

61 se illness and may herald the development of cavitary necrosis in children with pneumonia.

62 ntensive care unit, length of hospital stay, cavitary necrosis in the lung at follow-up CT, and frequ

63 At histopathologic examination, diffuse cavitary necrosis was present in resected lobes in two p

64 All emergent trauma and nontrauma cavitary operations over a 5-year period (January 2010-D

65 intraretinal barrier to fluid migration from cavitary optic disc anomalies can be safely achieved in

66 The peculiar features of cavitary optic disc maculopathy can be explained only by

67 Cavitary optic disc maculopathy develops when fluctuatin

68 Children with tuberculosis, especially cavitary or laryngeal tuberculosis, should be considered

69 atous lesions in the peribronchial region or cavitary peripheral disease in smokers.

70 Aspergillus fumigatus causes chronic cavitary pulmonary aspergillosis (CCPA) and allergic bro

71 lower zones of the lungs, whereas infectious cavitary pulmonary disease develops at the lung apices.

72 novel follow-up therapy in patients without cavitary pulmonary disease who develop hepatotoxicity du

73 ndicated in almost all patients with chronic cavitary pulmonary infections, chronic invasive and gran

74 2% vs 33% for positive smear only vs 44% for cavitary radiograph only vs 37% for neither characterist

75 s in water at a micromolar level, based on a cavitary recognition process.

76 ercentage points in Senegal) and in baseline cavitary status (P=0.04 for interaction) and body-mass i

77 phenotype characterized by the formation of cavitary structures.

78 high rates of multidrug resistance (12%) and cavitary TB (80%).

79 Strategies targeting patients with cavitary TB have the potential to improve cure rates and

80 Since cavitary TB is associated with higher sputum bacillary l

81 contacts and contacts to highly smear(+) or cavitary TB patients were most likely to be TST(+).

82 r set of antigens is recognized primarily by cavitary TB patients.

83 igens recognized during both noncavitary and cavitary TB will enhance the sensitivity of antibody det

84 ecognized by antibodies from noncavitary and cavitary tuberculosis (TB) patients and (ii) to determin

85 animals, the rabbit is the only one in which cavitary tuberculosis can be readily produced.

86 xygenase orthologue, ALOX12, is expressed in cavitary tuberculosis lesions; the abundance of its prod

87 luding acute flares of rheumatoid arthritis, cavitary tuberculosis, acute myocardial infarction, and

88 describe and analyze the complete course of cavitary tuberculosis, produced by aerosolized virulent

89 the Marshall Islands in 1996, had bilateral cavitary tuberculosis.

90 ges in wall thickness, chamber diameter, and cavitary volume were 41, 58, and 48% smaller in infarcte