ライフサイエンスコーパス: gingival bleeding

1 norrhagia and one child aged 6-11 years with gingival bleeding).

2 d school activities were more likely to have gingival bleeding.

3 ental caries, number of remaining teeth, and gingival bleeding.

4 health, and these individuals had lower mean gingival bleeding.

5 so important for predicting oral hygiene and gingival bleeding.

6 ondition, measured by means of pocketing and gingival bleeding.

7 ntitis active sites, loss of attachment, and gingival bleeding.

8 us and the extent of teeth with calculus and gingival bleeding.

9 ans had the highest prevalence and extent of gingival bleeding.

10 ral hygiene effectiveness directly predicted gingival bleeding.

11 ing needs to be controlled for in studies of gingival bleeding.

12 individual and contextual variables on mean gingival bleeding.

13 = 3 mm gingival recession; 53.2 million have gingival bleeding; 97.1 million have calculus; and 58.3

14 Participants were examined for gingival bleeding according to the community periodontal

15 ratified on baseline levels of pocket depth, gingival bleeding, ACH, and smoking status.

16 ushing plus flossing significantly decreased gingival bleeding after 2 weeks.

17 Gingival bleeding also was more prevalent at the buccal

18 tamin D status was inversely associated with gingival bleeding, an acute measure of oral health and i

19 ombined exposure of periodontitis plus >=10% gingival bleeding and <11 remaining teeth (PR(multiple)

20 resence of dental calculus and the extent of gingival bleeding and attachment loss in these subjects.

21 Gingival bleeding and dental plaque accumulation are als

22 A 9-year-old girl presented with gingival bleeding and discomfort for 2 weeks.

23 In addition, smokers had less gingival bleeding and higher number of missing teeth tha

24 study aims to assess the association between gingival bleeding and how a child perceives its OHRQoL.

25 Given that gingival bleeding and infiltration of host defence cells

26 1.62 (95% CI: 1.12 to 2.33) of having higher gingival bleeding and OR of 1.44 (95% CI: 1.04 to 2.00)

27 Dental calculi can cause gingival bleeding and periodontitis, yet the mechanism u

28 study was to assess the association between gingival bleeding and reports of verbal bullying among a

29 The IAL and JP groups had significantly more gingival bleeding and subgingival calculus than the cont

30 JP had the highest percentage of sites with gingival bleeding and subgingival calculus, and the lowe

31 cally to assess the percentage of sites with gingival bleeding and supragingival calculus only and su

32 roups differed significantly with respect to gingival bleeding and were tentatively significant with

33 elationships include deficient oral hygiene, gingival bleeding, and bone and tooth loss.

34 prevalence and extent of gingival recession, gingival bleeding, and dental calculus in United States

35 Gingival recession, gingival bleeding, and dental calculus were assessed at

36 Dental calculus, gingival bleeding, and gingival recession are common in

37 ures included attachment loss, pocket depth, gingival bleeding, and number of teeth.

38 1.65 (95% CI: 1.22 to 2.23) of having higher gingival bleeding, and OR of 1.36 (95% CI: 1.02 to 1.80)

39 Lastly, gingival, gingival bleeding, and plaque indices were scored.

40 ed probing depth, clinical attachment level, gingival bleeding, and radiographic alveolar crestal hei

41 ed probing depth, clinical attachment level, gingival bleeding, and radiographic alveolar crestal hei

42 attachment level (CAL), probing depth (PD), gingival bleeding, and supragingival plaque and measures

43 AL >/=6 mm and >/=1 site with PD >/=5 mm; 3) gingival bleeding at >/=50% of sites; and 4) supragingiv

44 f tooth brushing were related to higher mean gingival bleeding at follow-up.

45 umber of churches at baseline had lower mean gingival bleeding at follow-up.

46 Gingival bleeding at probing among adolescents (n = 339)

47 = 0.07), and also had an indirect effect on gingival bleeding (beta = 0.011; P = 0.05).

48 was positively associated with the extent of gingival bleeding (beta = 0.24; P = 0.01).

49 Outcome variables were gingival bleeding, clinical attachment loss, alveolar bo

50 health measurements included the presence of gingival bleeding, dental fracture, dental fluorosis, an

51 Oral health was indicated by extent of gingival bleeding, extent of loss of periodontal attachm

52 cal attachment levels (CAL), and whole-mouth gingival bleeding (FMBS) as assessed by two calibrated e

53 affects estimates of the association between gingival bleeding (GB) and oral health-related quality o

54 Measurements of gingival bleeding, gingival recession level, periodontal

55 x (summary of cumulative caries experience), gingival bleeding, gingival recession, gingival probing

56 Adolescents who presented gingival bleeding had an 80% higher prevalence of verbal

57 educing plaque accumulation, gingivitis, and gingival bleeding in a cohort of 60 healthy adults.

58 ocket depth (PPD), attachment loss (AL), and gingival bleeding in addition to assessing their age, ge

59 textual social capital in early childhood on gingival bleeding in children after 7 years.

60 inc lactate (CPC + Zn) mouthwash in reducing gingival bleeding in patients with gingivitis.

61 ition, measured as periodontal pocketing and gingival bleeding in this low-risk, low-25(OH)D status p

62 visible plaque index (VPI) (r = 0.667), and gingival bleeding index (GBI) (r = 0.767), and salivary

63 gingival index (GI), plaque index (PI), and gingival bleeding index (GBI) scores were recorded.

64 h mobility (TM), probing pocket depth (PPD), gingival bleeding index (GBI), and alveolar bone height

65 level (CAL), full-mouth plaque score (FMPS), gingival bleeding index (GBI), and the number of pocket

66 ding plaque index (PI), gingival index (GI), gingival bleeding index (GBI), community periodontal ind

67 al parameters of visible plaque index (VPI), gingival bleeding index (GBI), probing depth (PD), and b

68 s were recorded: visible plaque index (VPI), gingival bleeding index (GBI), probing depth (PD), clini

69 The following parameters were evaluated: gingival bleeding index (GBI), probing depth (PD), myelo

70 ses of the following periodontal parameters: gingival bleeding index (GBI), probing pocket depth (PPD

71 Gingival bleeding index (GI), probing depth (PD), clinic

72 Gingival bleeding index and oxidative stress parameters

73 by probing depth, clinical attachment level, gingival bleeding index, and the presence of calculus.

74 sess the eruption stage of permanent molars, Gingival Bleeding Index, and, after tooth cleaning and d

75 Periodontal health indicators included the gingival bleeding index, calculus index, and periodontal

76 on the basis of clinical criteria, including gingival bleeding index, probing depth, and clinical att

77 Gingival bleeding is an objective, easily assessed sign

78 bserved between the percentage of sites with gingival bleeding, mean PPD, AL, F, and either gastritis

79 Our results suggest that the presence of gingival bleeding negatively impacts the social life of

80 Periodontal probing depth (PD), gingival bleeding on probing (BOP), clinical attachment

81 ed probing depth (PD), supragingival plaque, gingival bleeding on probing, and calculus.

82 Probing depth, gingival bleeding on probing, clinical attachment loss (

83 iance were used to evaluate the influence of gingival bleeding on the occurrence of verbal bullying.

84 by ACH (OR = 1.23; 95% CI: 0.81 to 1.85) and gingival bleeding (OR = 1.20; 95% CI: 0.81 to 1.77).

85 ing depth (OR = 2.53; 95% CI: 0.98 to 6.53), gingival bleeding (OR = 1.99; 95% CI: 0.21 to 18.94), ca

86 dontitis plus the number of remaining teeth, gingival bleeding, or caries.

87 confidence, planning), and clinical (plaque, gingival bleeding) outcomes.

88 Self-perceived gingival bleeding (P <0.001), pain on chewing (P <0.001)

89 ges of sites with dental plaque (P <0.0001), gingival bleeding (P <0.05), and supragingival calculus

90 Clinical endpoints were gingival bleeding (papillary bleeding score [PBS]) and o

91 ic H. pylori in the percentage of sites with gingival bleeding, PPD, CAL, D, M, and F with adjustment

92 que scores, calculus scores, tooth mobility, gingival bleeding, probing depth, recession, and clinica

93 gher mean score than those with low-level/no gingival bleeding (rate ratio = 1.20; 95% confidence int

94 tion, MEG and GED gels significantly reduced gingival bleeding responses by 8 weeks (P<0.05).

95 who maintain excellent oral hygiene and low gingival bleeding scores.

96 iabetes (p = 0.002) and a high proportion of gingival bleeding sites (p = 0.01) were associated with

97 e oral hygiene (beta = -0.101; P = 0.01) and gingival bleeding status (beta = -0.024; P = 0.01).

98 s had significantly more gingival recession, gingival bleeding, subgingival calculus, and more teeth

99 Clinical assessment of supragingival plaque, gingival bleeding, subgingival calculus, probing depth,

100 seline evaluation of plaque, gingivitis, and gingival bleeding, subjects were randomly assigned to on

101 Measurement of gingival bleeding tendency should be an integral part of

102 Gingival bleeding upon mechanical stimulation of the bot

103 ng had a deleterious effect on the extent of gingival bleeding via a worse oral hygiene status of chi

104 beliefs and self-esteem indirectly predicted gingival bleeding via toothbrushing frequency and oral h

105 Prevalence of gingival bleeding was 92.4%.

106 Gingival bleeding was assessed through adolescent self-p

107 The presence and extent of gingival bleeding was associated mainly with emotional l

108 Gingival bleeding was associated with higher AL at ages

109 Gingival bleeding was recorded during follow-up (T2).

110 rrence of periodontitis, visible plaque, and gingival bleeding was significantly higher among crack u

111 High levels of gingival bleeding were associated with the genera Prevot

112 evidence that smokers have less, or delayed, gingival bleeding when compared with non-smokers; theref