ライフサイエンスコーパス: paranasal

1 ad less ecchymosis compared with controls in paranasal and eyelid ecchymosis at postoperative day (PO

2 The patient subsequently developed paranasal and gastrointestinal zygomycosis and required

3 There was orbital invasion in 4 cases and paranasal and/or cavernous sinus invasion in 3 cases.

4 is a newly described tumor of the nasal and paranasal areas.

5 re sinonasal symptoms, sinonasal changes, or paranasal bone erosion on imaging (P < 0.001).

6 ms or imaging shows sinonasal involvement or paranasal bone erosion.

7 n mediating the local immune reaction in the paranasal cavities.

8 and cervical vasculature, and the sellar and paranasal regions is recommended in every patient presen

9 al runoff CT angiography (-48.6%), CT of the paranasal sinus (-39.6%), cerebral or carotid CT angiogr

10 Paranasal sinus and chest computed tomography showed sin

11 a malignant-appearing soft-tissue mass with paranasal sinus base destruction.

12 ultidetector computed tomography (CT) of the paranasal sinus by using computer simulation of the effe

13 The Lund-Mackay score on paranasal sinus computed tomography and urinary leukotri

14 ectively analysed 214 patients who underwent paranasal sinus computed tomography.

15 The presence of paranasal sinus disease in association with loss of visi

16 iple orbital abscesses, and lack of adjacent paranasal sinus disease may be predictive factors that s

17 nly 3 of 15 patients had documented adjacent paranasal sinus disease on imaging.

18 vely studied in patients with CRS and in the paranasal sinus epithelium thus far.

19 epidemicus is not a well-documented cause of paranasal sinus infection.

20 In today's diagnostics of paranasal sinus infections, the role of evaluation of OM

21 flammatory condition affecting the nasal and paranasal sinus mucosa, often accompanied by olfactory d

22 is an infection of the nasal epithelium and paranasal sinus mucosa, usually caused in children by St

23 We identified studies of nasal cavity and paranasal sinus tumours through searches of databases in

24 MRI and CT scans of the brain with paranasal sinus were performed (Figs 1-3).

25 CT and MRI of the brain with paranasal sinus were performed.

26 d space to the extracranial space, usually a paranasal sinus.

27 ditory canal, while in fungal SBO it was the paranasal sinus.

28 catheter, or trapped into a cavity such as a paranasal sinus.

29 y invasion of adjacent structures, including paranasal sinuses (n = 10), anterior fossa (n = 7), orbi

30 ), tracheobronchial tree (n=4), colon (n=3), paranasal sinuses (n=1), and shoulder joint (n=1) were g

31 ed-release Microsphere-based-delivery to the Paranasal Sinuses (TEMPS) is developed with the corticos

32 usitis (AFS) is a devastating disease of the paranasal sinuses afflicting immunocompromised individua

33 or the presence of fluid and sediment in the paranasal sinuses and airways, mastoid air cell fluid, f

34 or correlations between anatomic variants of paranasal sinuses and chronic or recurrent sinusitis.

35 (CT) showed soft tissue lesions in the left paranasal sinuses and destruction of the left lamina pap

36 All drowning subjects had fluid in the paranasal sinuses and mastoid air cells and had ground-g

37 gested that the upper airways (including the paranasal sinuses and nasopharynx) play an important rol

38 ion between the degree of development of the paranasal sinuses and the growth of the cranium, standar

39 d in 252 patients (30.1%), with nasal cavity/paranasal sinuses and trachea/larynx subsites as the mos

40 ent locoregional mucosal inflammation of the paranasal sinuses and upper airway that has substantial

41 tumours arising within the nasal cavity and paranasal sinuses are rare and composed of several histo

42 he assessment of inflammatory changes in the paranasal sinuses due to different parameters of width (

43 ent underwent unenhanced CT of the brain and paranasal sinuses followed by contrast-enhanced MRI of t

44 ent underwent unenhanced CT of the brain and paranasal sinuses followed by contrast-enhanced MRI of t

45 Delivering localized treatment to the paranasal sinuses for diseases such as chronic rhinosinu

46 examinations of pathological changes in the paranasal sinuses may be due to selection of unsuitable

47 flammatory condition affecting the nasal and paranasal sinuses of approximately 11.5% of the United S

48 Fungal infections of the nose and paranasal sinuses represent a spectrum of diseases rangi

49 rbital involvement, imaging of the orbit and paranasal sinuses should be considered early.

50 pective analysis included 44 CT scans of the paranasal sinuses that were performed in adults.

51 Routine multi-slice CT of the paranasal sinuses was performed to look for mucosal dise

52 red in 290/4155 (7.0%) patients (orbita, 31; paranasal sinuses, 93; main nasal cavity, 38; tongue, 27

53 The nose, paranasal sinuses, and associated lymphoid tissues play

54 inflammatory process in the nasal cavity and paranasal sinuses, and bacteria have been considered to

55 is inaccurate in complex regions such as the paranasal sinuses, but brain region activities in 48 reg

56 performed to look for mucosal disease of the paranasal sinuses, drainage pathways, and presence of an

57 mation and tissue remodeling of the nose and paranasal sinuses, frequently occurring with nasal polyp

58 cavity, oropharynx, larynx, hypopharynx, and paranasal sinuses, is the seventh most common cancer wor

59 to avoid missing inflammatory lesions in the paranasal sinuses, it is reasonable to use CT windows de

60 tracts, leading to chronic infections of the paranasal sinuses, middle ear, and bronchi that begin du

61 Along with the usual sites (nose, paranasal sinuses, orbits), this disease also involves t

62 nflammatory condition affecting the nose and paranasal sinuses, posing a significant socio-economic i

63 e, with or without axial planes, through the paranasal sinuses, reconstructed in a sharp algorithm an

64 ned to demonstrate abnormal processes in the paranasal sinuses, temporal bones, base of the skull, an

65 neck region, especially in the nasal cavity, paranasal sinuses, tonsillar fossa, and oral cavity.

66 neck region, especially in the nasal cavity, paranasal sinuses, tonsillar fossa, and oral cavity.

67 area for the drainage and ventilation of the paranasal sinuses.

68 h malignant diseases of the nasal cavity and paranasal sinuses.

69 ized by inflammation of the nasal mucosa and paranasal sinuses.

70 s by herniation of orbital soft tissues into paranasal sinuses.

71 S) is an inflammation of the nose and of the paranasal sinuses.

72 nvolve the oral cavity, pharynx, larynx, and paranasal sinuses.

73 e epithelium of the submucosal glands in the paranasal sinuses.

74 be associated primarily with diseases of the paranasal sinuses.

75 f asthmatics included computed tomography of paranasal sinuses.

76 ptomatic inflammation of the nasal fossa and paranasal sinuses.

77 tion of specific anatomic regions within the paranasal sinuses.

78 m processing of bacteria in the lumen of the paranasal spaces rather than through invasion or samplin

79 Neutrophils, which are recruited to the paranasal spaces where they associate with and may degra