ライフサイエンスコーパス: occlusal

1 Although psychologic stresses and occlusal abnormalities have been implicated in temporoma

2 instructions, scaling and root planing, and occlusal adjustment if necessary.

3 ot planing, oral hygiene instruction, and an occlusal adjustment when indicated, followed by re-evalu

4 e periodontal examination records, including occlusal analysis and gingival width, that were recorded

5 xamination including a periodontal charting, occlusal analysis, study casts, electronic pulp test for

6 e periodontal examination records, including occlusal analysis, that were recorded at least 1 year ap

7 a hazard ratio (HR) of 0.53 (p = 0.014) for occlusal and 0.35 (p = 0.006) for buccal/lingual sealant

8 This five-year clinical study scored 617 occlusal and 441 buccal/lingual molar sealants, with use

9 iform thicknesses of either 1.0-mm or 2.0-mm occlusal and axial reduction, then replicated in composi

10 ables that affected success differed between occlusal and buccal/lingual sealants, suggesting that fa

11 With increasing occlusal and interproximal tooth wear, the teeth continu

12 al surfaces, on smooth (buccal and lingual), occlusal, and proximal surfaces.

13 r for both surfaces (HR = 2.91, p = 0.00001, occlusal; and HR = 1.52, p = 0.015, buccal/lingual).

14 An occlusal appliance also was worn during the initial 8 we

15 the recruitment of mononuclear cells in the occlusal area is associated with bone resorption.

16 Bone resorption occurs in the coronal (occlusal) area, whereas bone formation occurs in the bas

17 tions were found between wider PDL spaces or occlusal attrition and exostotic, lipped, or thicker alv

18 s found between widened PDL spaces or severe occlusal attrition and the presence of cervical loss of

19 nction--periodontal ligament (PDL) width and occlusal attrition--were analyzed for their relationship

20 ruption stage of permanent second molars and occlusal caries activity among 12-year-old schoolchildre

21 In conclusion, most occlusal caries lesions tend to arrest/revert when teeth

22 Prevalence of clinical measures of occlusal characteristics and orthodontic treatment was e

23 1, provided an opportunity to assess several occlusal characteristics in the US population: diastema

24 own crocodyliforms, paralleling the level of occlusal complexity seen in mammals and their extinct re

25 ve materials undergo accelerated wear in the occlusal contact area, primarily through a fatigue mecha

26 esented with moderate probing depth, pain on occlusal contact, and a fistula on a mandibular bicuspid

27 Helical axis parameters and occlusal contacts calculated with the use of the aligned

28 .5 degrees to 5.0 degrees yielded equivalent occlusal contacts.

29 ular motion by the measurement of changes in occlusal contacts.

30 gnosis and treatment of periodontal disease, occlusal contributing factors, gingival enlargement, and

31 Non-occlusal dental microwear provides direct evidence of th

32 discrepancies or teeth with treated initial occlusal discrepancies (P < 0.001).

33 base and analyzed for a relationship between occlusal discrepancies and changes in gingival width.

34 does not appear to be a relationship between occlusal discrepancies and gingival recession.

35 n addition, this association between initial occlusal discrepancies and initial periodontal condition

36 ionship was detected between the presence of occlusal discrepancies and initial width of the gingival

37 A causal relationship between occlusal discrepancies and periodontal disease has been

38 r (P < 0.001), whereas teeth without initial occlusal discrepancies and teeth with treated initial oc

39 gnosis, indicated that teeth with no initial occlusal discrepancies and teeth with treated initial oc

40 evidence of an association between untreated occlusal discrepancies and the progression of periodonta

41 here is a strong association between initial occlusal discrepancies and various clinical parameters i

42 hod to test for associations between initial occlusal discrepancies and various initial clinical para

43 In addition, teeth with untreated occlusal discrepancies had a significant increase in pro

44 discrepancies and teeth with treated initial occlusal discrepancies had no significant increase in pr

45 ilable concerning the effect of treatment of occlusal discrepancies on periodontitis.

46 h per year than either teeth without initial occlusal discrepancies or teeth with treated initial occ

47 Teeth with untreated occlusal discrepancies were also shown to have a signifi

48 Teeth with initial occlusal discrepancies were found to have significantly

49 discrepancies and teeth with treated initial occlusal discrepancies were only about 60% as likely to

50 n over time compared to teeth with untreated occlusal discrepancies.

51 ly worse mobility than teeth without initial occlusal discrepancies.

52 etc., this study provides some evidence that occlusal discrepancy is an independent risk factor contr

53 Automated probes that use an occlusal disk as the reference landmark have been develo

54 The hominid dental anatomy (occlusal enamel thickness, absolute and relative size of

55 e the knowledge regarding interactions among occlusal factors, attachment loss, and abfractions.

56 oaded at its top surface with a hard sphere (occlusal force) until a radial crack initiated at the ve

57 A relationship between occlusal forces and gingival recession has been postulat

58 to demonstrate a causal relationship between occlusal forces and recession.

59 It has been suggested that eccentric occlusal forces may be an etiologic factor for abfractio

60 It has also been suggested that traumatic occlusal forces may have a damaging effect on the period

61 ic buccal alveolar bone in response to heavy occlusal forces.

62 f complete dentures with different posterior occlusal forms (zero-degree, anatomic, and lingualized o

63 bject satisfaction with 3 types of posterior occlusal forms for complete dentures, in a randomized cr

64 Lingualized and anatomic occlusal forms were perceived to be significantly superi

65 ures can be produced with different types of occlusal forms.

66 ch maintains the integrity of the PDL during occlusal function and inflammation.

67 Two measures of heavy occlusal function--periodontal ligament (PDL) width and

68 phenic) molars that are capable of versatile occlusal functions.

69 Occlusal interface integrity was measured using dye pene

70 d the strategic value of specific teeth, the occlusal jaw relationship, and the esthetic concerns of

71 For occlusal lesions with enamel discoloration/cavitation bu

72 ia surface possesses excellent resistance to occlusal-like sliding contact fatigue.

73 integrity of the periodontium in response to occlusal load.

74 sp(-/-) mice, supporting the hypothesis that occlusal loading contributed to the malocclusion phenoty

75 Finally, occlusal loading is both an important stimulus for remod

76 spherical indenter (r = 3.18 mm), emulating occlusal loading on crowns supported by dentin.

77 is study was to investigate the influence of occlusal loading on recombinant human bone morphogenetic

78 king in the veneer, from enhanced flexure in occlusal loading, as well as in the core.

79 include the influence of root conditioning, occlusal loading, BMP dose, and the release characterist

80 ations often chip and fracture from repeated occlusal loading, making fatigue studies relevant.

81 eered, often chip and fracture from repeated occlusal loading.

82 ws assessment of the pressure, as induced by occlusal loads, on the trigeminal nerve.

83 es a method to characterize and compare worn occlusal morphology in primates using laser scanning and

84 ecome progressively larger distally, complex occlusal morphology of the upper third molar, and relati

85 e dentition is generally small and simple in occlusal morphology.

86 rom the minimal orthal but extensive palinal occlusal movement of multituberculate mammals, which pre

87 The occlusal one-third of the crown was removed from 10 extr

88 crogap if placed at or below the bone crest, occlusal overload, and implant crest module may be the m

89 are hypothesized, including surgical trauma, occlusal overload, peri-implantitis, microgap, biologic

90 r the adhesive to cause veneer failure in an occlusal overload.

91 s tend to arrest/revert when teeth reach the occlusal plan; however, an important proportion of these

92 oriented approximately perpendicular to the occlusal plane.

93 tecting caries lesions; 2) were performed on occlusal, proximal, or free smooth surfaces in primary o

94 evation and furcation defect debridement, an occlusal reference stent and periodontal probes were use

95 possible based on the geometry and predicted occlusal relationships of these teeth, but cannot be con

96 Scotchbond was detrimental to occlusal sealant success, with a HR of 2.96 (p = 0.0003)

97 yielding half the usual risk of failure for occlusal sealants and one-third the risk of failure for

98 p = 0.018) were significant risk factors for occlusal sealants only.

99 ta for each tooth of each patient, including occlusal status and gingival width, were placed in a dat

100 hese findings present the first estimates of occlusal status of the US non-institutionalized populati

101 ta for each tooth of each patient, including occlusal status, were placed in a database and analyzed

102 ta for each tooth of each patient, including occlusal status, were placed in a database and analyzed

103 Traditionally, a manual probe with an occlusal stent of the cementoenamel junction (CEJ) as a

104 An acrylic occlusal stent was used to assure reproducibility of mea

105 plaque index, mobility, and, referencing an occlusal stent, probing depth (PD), probing attachment l

106 on is another possible etiology and involves occlusal stress, producing cervical cracks that predispo

107 showed a significant difference between the occlusal surface and the axial section.

108 e height of proximal walls by 1.5 mm and the occlusal surface by 2.0 mm.

109 old-infiltrated alloy was vulnerable to both occlusal surface contact damage and porcelain lower surf

110 alladium-silver alloy fractured chiefly from occlusal surface damage.

111 ding is more deleterious for contact-induced occlusal surface fracture, but less harmful for flexure-

112 Loads of 200 and 100 N were applied at the occlusal surface in the axial and oblique directions, re

113 dges (50%) whose fracture initiated from the occlusal surface of the connectors.

114 t different frequencies for 5 min/day on the occlusal surface of the maxillary right first molar at a

115 ing technique revealed that deep-penetrating occlusal surface partial cone fracture is the predominan

116 longer in the direction perpendicular to the occlusal surface than parallel.

117 l surface to the gingival margin (OS-GM); 3) occlusal surface to the alveolar crest (OS-AC); and 4) o

118 lowing criteria at baseline and re-entry: 1) occlusal surface to the apical depth of probe penetratio

119 urface to the alveolar crest (OS-AC); and 4) occlusal surface to the base of the osseous defect (OS-B

120 pical depth of probe penetration (OS-DP); 2) occlusal surface to the gingival margin (OS-GM); 3) occl

121 r-contact-induced partial cone cracks on the occlusal surface under mastication.

122 /2 crown exposed; and stage 3, fully erupted occlusal surface, >1/2 crown exposed.

123 ted occlusal surface; stage 2, fully erupted occlusal surface, <1/2 crown exposed; and stage 3, fully

124 rod orientation by propagating cracks in the occlusal surface, and in the axial section in directions

125 directions parallel and perpendicular to the occlusal surface.

126 to the loaded cusp from the gingival to the occlusal surface.

127 3, respectively: stage 1, partially erupted occlusal surface; stage 2, fully erupted occlusal surfac

128 cidence of smooth-surface caries (p = .100), occlusal-surface caries (p = .408), or proximal-surface

129 ar findings were found for net increments of occlusal surfaces and deep dentinal lesions SBCPRs (H =

130 mo and 98% effective over 44 mo in managing occlusal surfaces at ICDAS 0-4 (i.e., only 4 of 228 teet

131 ductions in dental caries on both smooth and occlusal surfaces compared with the sham-immunized group

132 Lesions on occlusal surfaces were more likely to cavitate, followed

133 This study suggests that occlusal surfaces without frank cavitation (ICDAS 0-4) t

134 The device is presently limited in scope to occlusal surfaces, and only limited ECM data from clinic

135 ty, when compared with zero-degree posterior occlusal surfaces.

136 f failure from fractures initiating from the occlusal table below the contact areas.

137 ent of GPs treated at least one patient with occlusal therapies, and 50% reported treating one to fiv

138 reported treating one to five patients with occlusal therapies.

139 or defined separate criteria for smooth and occlusal tooth surfaces.

140 Occlusal trauma (OT) is an injury of the supportive peri

141 over a 3-month period despite relief of the occlusal trauma and resolution of the fistula.

142 hat DM enhances bone loss in the presence of occlusal trauma associated with EP.

143 f the gingival tissue (P = 0.414) or between occlusal treatment and changes in the width of the gingi

144 In addition, this study shows that occlusal treatment significantly reduces the progression