ライフサイエンスコーパス: maxillary sinus

1 artery that supplies the lateral wall of the maxillary sinus.

2 niation of the orbital soft tissues into the maxillary sinus.

3 ly associated with mucosal thickening of the maxillary sinus.

4 est to the sinus wall, and height of lateral maxillary sinus.

5 thickness (MT), and perforation rate of the maxillary sinus.

6 thickness of the lateral wall (T-LW) of the maxillary sinus.

7 e anticipated antral communications with the maxillary sinus.

8 m, and one each was from bronchial fluid and maxillary sinus.

9 graphic examination to extend into the right maxillary sinus.

10 occus equi subspecies zooepidemicus from the maxillary sinus.

11 bone quality and close approximation to the maxillary sinus.

12 ographic scan showed an opacification of the maxillary sinus.

13 if they contact tooth roots or perforate the maxillary sinus.

14 =0,430) affected the asymmetry in volumes of maxillary sinuses.

15 used to evaluate 200 patients making up 400 maxillary sinuses.

16 in the posterior maxilla often involves the maxillary sinuses.

17 ough either the premalar soft tissues or the maxillary sinuses.

18 #15, and as there was bone erosion into the maxillary sinus, a biopsy of the soft tissue was submitt

19 riptions of sinus involvement other than the maxillary sinus add to the variability of presentation.

20 All bioglass and/or allograft placed in the maxillary sinus after the osteotome technique underwent

21 al findings and mucosal abnormalities of the maxillary sinus among dental patients, using cone-beam c

22 distances from lower margin to the floor of maxillary sinus and alveolar crest in the 1(st) molar an

23 ior superior alveolar artery to the floor of maxillary sinus and alveolar crest.

24 ery (PSAA) is located on the lateral wall of maxillary sinus and may become injured during such surgi

25 s sites with <10 mm between the floor of the maxillary sinus and the alveolar crest were selected.

26 ze the correlation between the dimensions of maxillary sinuses and anthropometric measurements of the

27 wer lobes of both lungs, and sand within the maxillary sinuses and stomach.

28 itive correlation between the development of maxillary sinuses and the growth of the cranium in child

29 mplantitis in implants inserted in augmented maxillary sinuses and to analyze possible risk factors.

30 re lack of bone, surgical perforation of the maxillary sinus, and lack of stable teeth to serve as ab

31 , length, width and volume of right and left maxillary sinuses, and cranial maximum length (glabella-

32 ancer (AJCC) stage, involvement of bilateral maxillary sinuses, and positive margins were associated

33 ourse of bone graft consolidation within the maxillary sinus are rare.

34 e meatus cannot be used as a surrogate for a maxillary sinus aspirate in children with ABS, although

35 A quantitative culture of a maxillary sinus aspirate is the gold standard for determ

36 in bone particles harvested intraorally for maxillary sinus augmentation and to assess the clinical

37 ospective record review was performed of all maxillary sinus augmentation cases performed during the

38 Maxillary sinus augmentation is a routine procedure perf

39 The lateral window approach to maxillary sinus augmentation is a well-accepted treatmen

40 indings suggest that the %VB formation after maxillary sinus augmentation is inversely proportional t

41 Maxillary sinus augmentation is one of the most reliable

42 The maxillary sinus augmentation procedure (SAP) using the l

43 rforation is the most common complication of maxillary sinus augmentation procedures and has been ass

44 nine perforations during 104 lateral window maxillary sinus augmentation procedures.

45 around implants placed in sites treated with maxillary sinus augmentation using anorganic bovine bone

46 eriodontopathogens in individuals undergoing maxillary sinus augmentation with a history of periodont

47 saliva in a group of 30 patients undergoing maxillary sinus augmentation.

48 group of 12 maintenance patients undergoing maxillary sinus augmentation.

49 To overcome this, the maxillary sinus can be augmented through various techniq

50 A 55-year-old man with maxillary sinus cancer.

51 Maxillary sinus carcinoma (MSC) is a rare cancer of the

52 ient with radio- and chemotherapy refractory maxillary sinus carcinoma to gauge the progression of th

53 greatly determined by the dimensions of the maxillary sinus cavity.

54 n 19 of 20 (all 14 patients) and ipsilateral maxillary sinus changes in 12 of 20 (11 patients).

55 The maxillary sinus collapse appears to result from the deve

56 ormal orbital architecture and function from maxillary sinus collapse in the setting of chronic sinus

57 Little is known about maxillary sinus compliance, i.e., the intrinsic potentia

58 r bone height and anatomical features of the maxillary sinus complicate sinus lift procedures and pla

59 to 71.1%) of respondents recommended that a maxillary sinus CT scan should be routinely prescribed b

60 retrieve displaced dental implants from the maxillary sinus depends on the location of the implant a

61 Anatomic variations of the maxillary sinus determine the degree of difficulty in pe

62 of the increased glandular secretions in the maxillary sinus during sinusitis.

63 of the present study, it was concluded that maxillary sinus elevation with 100% ABB gives predictabl

64 lish a referral protocol before performing a maxillary sinus elevation.

65 core-based model including the nasal cavity, maxillary sinuses, ethmoid air cells, sphenoid sinus and

66 Maxillary sinus floor augmentation (MSFA) is a well-esta

67 (i.e., alveolar ridge augmentation [ARA] and maxillary sinus floor augmentation [MSFA]).

68 resent study is to investigate the effect of maxillary sinus floor augmentation on sinus membrane thi

69 s in membrane thickness were evaluated in 65 maxillary sinus floor augmentation procedures via a late

70 findings between periapical abscess and the maxillary sinus flora was found in all instances.

71 re diagnosed with implant migration into the maxillary sinus in four anatomical areas: the sinus floo

72 ifty-five implants were placed in 30 grafted maxillary sinuses in 24 patients.

73 no publications analyzing the development of maxillary sinuses in relation to the development of the

74 ailable studies assessing the development of maxillary sinuses in relation to the viscerocranium.

75 Characteristic radiographic features of the maxillary sinus including opacification and collapse of

76 The maxillary sinus lateral wall tends to increase in thickn

77 Periapical surgeries, implants and maxillary sinus lift are performed on routine basis.

78 the concept that the new bone formed in the maxillary sinus lift procedure emanates from the endoste

79 ophic ridge, and age were shown to influence maxillary sinus LWT.

80 erative complication has been reported to be maxillary sinus membrane perforation (MSMP).

81 The results indicate that the maxillary sinus membrane, even in healthy clinical condi

82 ollagen matrix alone (control) placed in the maxillary sinus of adult chimpanzees.

83 e from the lateral to the medial wall of the maxillary sinus on the outcomes of sinus augmentation pr

84 stability, inadvertent penetration into the maxillary sinus or nasal fossa, sinus lift sequelae, neu

85 pressure from an acquired obstruction of the maxillary sinus outflow.

86 rch on the effect of augmentation surgery on maxillary sinus physiology is recommended.

87 Tracer was placed into the left maxillary sinus; rabbits were killed 3 or 5 days later,

88 bullosa was connected with larger volume of maxillary sinuses (right sinus: p=0.005; left sinus: p=0

89 vity SNSCC and a decrease in HPV-independent maxillary sinus SNSCC.

90 ions of the external nose, internal nose and maxillary sinuses, that are strongly associated with tem

91 are the thickness of the lateral wall of the maxillary sinus (TLWMS) and the thickness of the Schneid

92 ivo were higher than the results in vitro in maxillary sinus volumes with a ratio of 1.05 +/- 0.01 (m

93 Only bilateral concha bullosa affects maxillary sinus volumes.

94 Caucasians had their posterior maxillary sinus wall anterior to their posterior ethmoid

95 The mean T-LW of the maxillary sinus was 0.91 +/- 0.43 mm.

96 Mean volume of the right maxillary sinus was 17.794 cm(3), while for the left one

97 The mean distance between PSAA and floor of maxillary sinus was 9.96 mm.

98 mucosal thickening and mucosal cysts of the maxillary sinus was recorded.

99 projections of nerves innervating the rabbit maxillary sinus were localized by using wheat germ agglu

100 length, width, and volume of right and left maxillary sinuses were used.

101 of the lateral arterial blood supply to the maxillary sinus) were obtained retrospectively from two

102 posterior teeth results in expansion of the maxillary sinus, which can limit the bony support for de

103 After grafting the maxillary sinus with irradiated allogenic bone, 37 intac

104 s) with 315 implants inserted into augmented maxillary sinuses with a follow-up ranging from 1 to 18

105 s) with 315 implants inserted into augmented maxillary sinuses with a follow-up ranging from 1 to 18

106 Maxillary sinuses with acute-angled PNRs might present a