ライフサイエンスコーパス: toothpaste

1 ts like candies, chewing gums, mouthwash and toothpaste.

2 roxyapatite compared to the fluoride control toothpaste.

3 a placebo (n = 34) or vitamin B-12 (n = 42) toothpaste.

4 ke and caries varies by exposure to fluoride toothpaste.

5 and HDL cholesterol (P = 0.05) than placebo toothpaste.

6 brushed their teeth at least once daily with toothpaste.

7 y with either a F (1450 ppm NaF) or a F-free toothpaste.

8 oth with and without the use of fluoride (F) toothpaste.

9 in household products such as dish soap and toothpaste.

10 Sn speciation within commercially available toothpaste.

11 s established similar regimens with fluoride toothpaste.

12 and the amorphous, semi-solid nature of the toothpaste.

13 on from the genus Fusobacterium for the zinc toothpaste.

14 oride-free) or fluoride (F: 1,100 ppm F/NaF) toothpastes.

15 identified in TCS-TPs and a range of regular toothpastes.

16 es, followed by alkaline and surfactant-rich toothpastes.

17 des and dental sealants, and use of fluoride toothpastes.

18 y augment hypersensitivity to tartar control toothpastes.

19 s with 1425 ppm fluoride as NaF), or (2) NaF toothpaste (1425 ppm fluoride).

20 nts were assigned to 1 of 2 groups: (1) Test toothpaste (5 wt% bioglass with 1425 ppm fluoride as NaF

21 ontrol group, which used a 1450-ppm fluoride toothpaste and a placebo mouthwash for 6 months.

22 regimen with a dual zinc plus arginine (DZA) toothpaste and cetylpyridinium chloride with zinc lactat

23 omponent oral care regimen consisting of DZA toothpaste and CPC + Zn mouthwash is effective in reduci

24 ft materials-such as soap foams, mayonnaise, toothpaste and living cells-display strikingly similar v

25 ng in nurseries and distribution of fluoride toothpaste and toothbrushes for home use, measured as th

26 stry developed effective fluoride-containing toothpastes and other fluoride vehicles.

27 Among personal care products, toothpastes and select sunscreens contained 1% to >10% t

28 arbohydrate consumption, the use of fluoride toothpaste, and enamel demineralization.

29 othbrush, a 50-mL tube of 1,450 ppm fluoride toothpaste, and standardized prevention advice) and cont

30 toothbrush, 50-mL tube of 1,450 ppm fluoride toothpaste, and standardized, evidence-based prevention

31 childhood to fluoride supplements, fluoride toothpaste, and/or infant formula use in nonfluoridated

32 ole blood, white blood cells, mucin, saliva, toothpastes, and oral rinses.

33 y topical administration forms such as gels, toothpastes, and rinses.

34 Fluoride-containing toothpastes are by far the most important way of deliver

35 The toothpastes are complex analytes comprising both known a

36 reduced sensitivity better than the control toothpaste at all times, except potassium nitrate toothp

37 paste at all times, except potassium nitrate toothpaste at Day 3 for tactile sensitivity.

38 tactile sensitivity versus potassium nitrate toothpaste at Day 3.

39 ir sensitivity better than potassium nitrate toothpaste at Week 2 and across all times combined.

40 proach was demonstrated by analyzing several toothpaste brands.

41 mponents for further differentiation between toothpaste brands.

42 ments: no treatment, brushing the teeth with toothpaste, brushing the tongue, rinsing with 5 mL of 3%

43 tition is not inferior to a fluoride control toothpaste (Clinical Trials NCT03553966).

44 ey were randomly assigned to use one of four toothpastes: commercial toothpaste with potassium nitrat

45 n bacterial communities with use of the zinc toothpaste compared to the control product at community

46 ined at least 80% Sn(II), whereas one of the toothpaste contained a significantly higher amount of Sn

47 hat three of the four commercially available toothpastes contained at least 80% Sn(II), whereas one o

48 ubjects were randomized into two groups: (1) toothpaste containing 0.3% triclosan + 2.0% PVM/MA copol

49 dy was to evaluate the clinical effects of a toothpaste containing 0.3% triclosan on the periodontal

50 A toothpaste containing 0.3% triclosan was more effective

51 C + Zn group, which used a 1450-ppm fluoride toothpaste containing 0.96% zinc plus 1.5% arginine and

52 copolymer + 1450 ppm fluoride (test) or (2) toothpaste containing 1450 ppm fluoride (control), and w

53 Toothpaste containing aloe vera may be a useful herbal f

54 Toothpaste containing aloe vera showed significant impro

55 roups: group 1, placebo toothpaste; group 2, toothpaste containing aloe vera; and group 3, toothpaste

56 The results reported here demonstrate that a toothpaste containing enzymes and proteins can augment n

57 The results demonstrate that a toothpaste containing enzymes and proteins can significa

58 rt the overall ecological effects of using a toothpaste containing enzymes and proteins compared to a

59 ar removal of the biofilm, preferably with a toothpaste containing fluoride, delays or even arrests l

60 The toothpaste containing the bioglass demonstrated superior

61 ments were comparable to those achieved with toothpaste containing triclosan.

62 achieved with a NSAID, ketorolac, and Total toothpaste containing triclosan.

63 oothpaste with oxalate, or standard fluoride toothpaste (control) with no antisensitivity ingredient.

64 DMFT was weaker in adults who used fluoride toothpaste daily than in those using it less often than

65 s although greater change was seen with Test toothpaste (DeltaMean 13 vs. 3 g; p = 0.068).

66 B-12 that is applied to the oral cavity via toothpaste enters the circulation and corrects the vitam

67 t rapidly in peroxide-containing "whitening" toothpastes, followed by alkaline and surfactant-rich to

68 8 weeks, and then everyone used the control toothpaste for 3 weeks.

69 volume, which presents the mode of action of toothpaste for treating dentin hypersensitivity.

70 AIN LANGUAGE SUMMARY: This study tested four toothpastes for sensitivity relief, including speed and

71 lysis was to compare the relative effects of toothpaste formulations for dentin hypersensitivity (DH)

72 Most toothpaste formulations showed evidence of superiority a

73 bial agent that is widely used in commercial toothpaste formulations.

74 divided into three groups: group 1, placebo toothpaste; group 2, toothpaste containing aloe vera; an

75 Stannous fluoride toothpaste had greater improvements in tactile sensitivi

76 described: (i) the detection of chitosan in toothpaste, (ii) the analysis of dexamethasone acetate (

77 of conjoint exposure (e.g., use of fluoride toothpaste in a fluoridated area) are additive.

78 demonstrates the importance of F-containing toothpaste in enamel re-/demineralization by varying the

79 n was more effective than a regular fluoride toothpaste in improving the periodontal clinical conditi

80 hydroxyapatite is not inferior to a fluoride toothpaste in prevention of caries in children.

81 composition and function by zinc-containing toothpaste in-vivo for oral care benefits.

82 c citrate trihydrate and the other a control toothpaste, in a parallel design.

83 and efficacy of a bioglass incorporated in a toothpaste, in reducing dentin hypersensitivity (DH) com

84 criptomic analysis show that use of the zinc toothpaste is associated with an in-vivo reduction in gl

85 Triclosan toothpaste is effective in controlling plaque and gingiv

86 Triclosan toothpaste led to a greater decrease in TC (P = 0.03), L

87 ominant MG dysfunction phenotype, with white toothpaste-like secretions observed obstructing MG orifi

88 These data suggest that triclosan toothpaste may influence some inflammatory biomarkers of

89 riety of consumer products (including soaps, toothpaste, medical devices, plastics, and fabrics) that

90 itive in many personal care products such as toothpastes, mouthwashes and soaps.

91 y used in antiseptic formulations, including toothpastes, mouthwashes, lozenges, throat and nasal spr

92 sis revealed that when the subjects used a F toothpaste, net demineralization was evident only with t

93 g enzymes and proteins compared to a control toothpaste on the plaque microbiome.

94 ffect of the use of a vitamin B-12-fortified toothpaste on vitamin-status markers in vegans and asses

95 was analysed after brushing with one of two toothpastes, one containing zinc citrate trihydrate and

96 + 5% NaF varnish, and 5,000-ppm F (1.1% NaF) toothpaste or gel were the most effective for arresting

97 ity (DH) compared to a sodium fluoride (NaF) toothpaste over a 2-week period.

98 1.51 [95% CI, 1.18-1.94]), and use fluoride toothpaste (pooled OR, 1.46 [95% CI, 1.06-2.01]) compare

99 xidation state within commercially available toothpaste products due to the low weight loading of SnF

100 Also, daily use of fluoride toothpaste reduced but did not eliminate the association

101 Stannous fluoride toothpaste reduced cold air sensitivity better than pota

102 sium nitrate, stannous fluoride, and oxalate toothpastes reduced sensitivity better than the control

103 linded randomized control trial compared two toothpastes regarding the occurrence of caries lesions u

104 ontitis subjects were randomly assigned to a toothpaste regimen: control dentifrice (n = 21) or tricl

105 magic-angle turning (MAT) 2D NMR spectra of toothpastes resolve Sn(II) and Sn(IV) by their (119)Sn c

106 applied to detect F(-) ions in a commercial toothpaste sample.

107 The absorbed TCS was gradually released into toothpaste slurries after switching to TCS-free alternat

108 ts of TCS after brushing with TCS-formulated toothpastes (TCS-TPs).

109 m cold air sensitivity for stannous fluoride toothpaste than potassium nitrate toothpaste through Wee

110 st group used a fluoride-free hydroxyapatite toothpaste three times daily while control group used a

111 s fluoride toothpaste than potassium nitrate toothpaste through Week 8.

112 populations of Sn(II) and Sn(IV) within the toothpastes to be estimated.

113 Participants used their toothpaste twice daily for 8 weeks, and then everyone us

114 d were instructed to brush with the assigned toothpaste twice/day for 2 years.

115 nterval (CI) 1.06-33.53), and early fluoride toothpaste use (OR=6.35, 95% CI 1.21-33.40).

116 0.83, 95% CI 1.90-61.55), and early fluoride toothpaste use (OR=8.37, 95% CI 1.68-41.72).

117 Toothpaste use in children was also positively associate

118 g, sugar-sweetened beverages, diet, fluoride toothpaste use, and preventive dental visits), which wer

119 Overall, stannous fluoride toothpaste was superior at relieving sensitivity.

120 When F-free toothpaste was used, statistically significant demineral

121 orosis were ingestion of fluoride-containing toothpaste, water fluoridation, fluoride tablets (which

122 three times daily while control group used a toothpaste with fluoride.

123 aim of this trial was to determine whether a toothpaste with microcrystalline hydroxyapatite is not i

124 n children, the impact of the daily use of a toothpaste with microcrystalline hydroxyapatite on ename

125 thpaste with stannous fluoride, experimental toothpaste with oxalate, or standard fluoride toothpaste

126 oothpaste containing aloe vera; and group 3, toothpaste with polymer and fluoride containing triclosa

127 d to use one of four toothpastes: commercial toothpaste with potassium nitrate, commercial toothpaste

128 oothpaste with potassium nitrate, commercial toothpaste with stannous fluoride, experimental toothpas

129 pectrum antimicrobial, is used in commercial toothpastes with reported dental benefits.