ライフサイエンスコーパス: secondhand smoke

1 tions, in the urine of nonsmokers exposed to secondhand smoke.

2 e--is exquisitely sensitive to the toxins in secondhand smoke.

3 tion of the public from unwanted exposure to secondhand smoke.

4 .001) lower than for those with exposure to secondhand smoke.

5 aged dwellings after adjusting age, sex, and secondhand smoke.

6 valence of cigarette smoking and exposure to secondhand smoke.

7 ble to tobacco use in adults, including from secondhand smoke.

8 smoking, bidi smoking, chewing tobacco, and secondhand smoke.

9 sation treatment, and studies on exposure to secondhand smoke.

10 okers, and vulnerable populations exposed to secondhand smoke.

11 o stop smoking or are chronically exposed to secondhand smoke.

12 ciated with traffic-related air pollution or secondhand smoke.

13 urportedly has fewer traditional toxins than secondhand smoke.

14 conomic status and those exposed to familial secondhand smoking.

15 , was highest among children only exposed to secondhand smoke (0.494 mug/L mug/L; 95% CI, 0.386-0.633

16 o stop were reviewed: industry manipulation, secondhand smoke, addiction, cessation, youth access, sh

17 Any exposure to secondhand smoke adversely affects both cross-sectional

18 ntal factors including exposure to active or secondhand smoke, air pollution, poor nutrition and soci

19 from increasing awareness of the dangers of secondhand smoke among nonsmokers and smokers.

20 n active smoking (AS) or passive exposure to secondhand smoke and allergic conditions.

21 ion between objectively measured exposure to secondhand smoke and biomarkers of heart disease risk ha

22 The combination of secondhand smoke and hypercholesterolemia resulted in in

23 Both secondhand smoke and hypercholesterolemia were associate

24 e stress, we hypothesized that risk factors (secondhand smoke and hypercholesterolemia) are associate

25 No significant association was found between secondhand smoke and lung cancer death.

26 uit smoking to reduce children's exposure to secondhand smoke and their risk of ADHD.

27 asthma risk and higher rates of exposures to secondhand smoke and traffic-related air pollution.

28 al smoking during the in utero period and to secondhand smoke are associated with occurrence of child

29 The effects of secondhand smoke are substantial and rapid, explaining t

30 nts indicated that industry manipulation and secondhand smoke are the most effective strategies for d

31 ntial carcinogen for malignancies induced by secondhand smoking are not fully understood yet.

32 likely than current smokers to be exposed to secondhand smoke at home (prevalence 39.1% [95% CI 36.6-

33 o smoking among non-smokers, and exposure to secondhand smoke at home and in public places.

34 spectively on smoking status and exposure to secondhand smoke based on questionnaires and biochemical

35 They not only protect bystanders from secondhand smoke but also contribute to less smoking amo

36 dren who were exposed to secondhand vapor vs secondhand smoke, but higher than in those exposed to ne

37 Secondhand smoke can cause adverse pregnancy outcomes, y

38 eveloping fetuses, and postnatal exposure to secondhand smoke causes adverse health effects during ch

39 Secondhand smoke causes cardiovascular and respiratory d

40 e to asbestos, high systolic blood pressure, secondhand smoke, child wasting, and alcohol use had a c

41 e to asbestos, high systolic blood pressure, secondhand smoke, child wasting, and alcohol use should

42 ronmental tobacco smoke (ETS), also known as secondhand smoking, contains human carcinogens associate

43 % vs 78%; OR = 4.5; 95% CI, 2.8 to 7.2), and secondhand smoke counseling (80% vs 63%; OR = 2.6; 95% C

44 line gaming (OR, 1.56; 95% CI, 1.0-2.3), and secondhand smoke exposure (OR, 1.7; 95% CI, 1.1-2.6).

45 , vaping (OR, 1.99; 95% CI, 1.1-3.5), and/or secondhand smoke exposure (OR, 1.83; 95% CI, 1.2-2.7).

46 rease in blood nitromethane by 150 ng/L, and secondhand smoke exposure (serum cotinine >0.05 ng/mL an

47 Secondhand smoke exposure (SHSe) is a significant modifi

48 We examined trends in and predictors of secondhand smoke exposure among nonsmoking adults to det

49 Analyses using reported secondhand smoke exposure and cotinine-measured exposure

50 the relationship between active smoking and secondhand smoke exposure and critical illness.

51 d beyond the underlying long-term decline in secondhand smoke exposure and demonstrates the positive

52 multivariate regression analyses to examine secondhand smoke exposure as measured by the proportion

53 and exposure to lead, children with reported secondhand smoke exposure at home were more likely to ha

54 2.5 mum or less, 4.7% (95% CI, 1.3%-9.6%) by secondhand smoke exposure at home, and 4.6% (95% CI, 2.1

55 As the magnitude of secondhand smoke exposure declines because of proportion

56 In this study, secondhand smoke exposure during childhood was associate

57 We examined whether secondhand smoke exposure during childhood was associate

58 Secondhand smoke exposure during pregnancy increased the

59 ng history and detected a high prevalence of secondhand smoke exposure in a critically ill population

60 Measures of secondhand smoke exposure in childhood/adolescence consi

61 Our findings suggest that secondhand smoke exposure in children is strongly associ

62 tion Survey data to assess the prevalence of secondhand smoke exposure in nonsmokers in the US popula

63 Secondhand smoke exposure in the home was associated wit

64 Secondhand smoke exposure increased EPCs and plasma vasc

65 Secondhand smoke exposure increases cardiovascular risk.

66 Secondhand smoke exposure increases the risk of acute my

67 Prenatal tobacco and postnatal secondhand smoke exposure is consistently associated wit

68 Secondhand smoke exposure may be a risk factor for incre

69 factors considered in this study, preventing secondhand smoke exposure may be the most effective way

70 inos, suggests that the important effects of secondhand smoke exposure occur acutely.

71 tatus did not confound the adverse effect of secondhand smoke exposure on lung function.

72 Childhood secondhand smoke exposure predicted increased risk for a

73 conclude that avoiding childhood/adolescence secondhand smoke exposure promotes adulthood cognitive f

74 Interaction between gene variants and secondhand smoke exposure resulted in significant percen

75 Participants were also more likely to rate secondhand smoke exposure to cannabis vs tobacco as comp

76 impact of England's smokefree legislation on secondhand smoke exposure was above and beyond the under

77 Secondhand smoke exposure was captured in 2.6% of trials

78 Secondhand smoke exposure was higher among those exposed

79 Secondhand smoke exposure was positively associated with

80 rinogen and homocysteine seen in relation to secondhand smoke exposure were equivalent to approximate

81 ed, and examine the association of postnatal secondhand smoke exposure with ADHD using both reported

82 The association of secondhand smoke exposure with ADHD was examined by two

83 rature examines the association of postnatal secondhand smoke exposure with attention deficit hyperac

84 (86%) "seldom" or "never" ask patients about secondhand smoke exposure, 245 (84%) "always" or "period

85 he home, urine cotinine levels indicative of secondhand smoke exposure, and residence in more densely

86 marital status, education, household income, secondhand smoke exposure, and work status were examined

87 Because of the strong relationship among secondhand smoke exposure, bacterial infection, and sinu

88 tigated the cross-sectional relation between secondhand smoke exposure, measured objectively as cotin

89 for lifetime number of cigarettes smoked and secondhand smoke exposure.

90 ow that male smoking prevalence approximates secondhand smoke exposure.

91 bis vs tobacco in terms of daily smoking and secondhand smoke exposure.

92 rons at risk for adverse events triggered by secondhand smoke exposure.

93 ciation is robust using both measurements of secondhand smoke exposure.

94 HD using both reported and cotinine-measured secondhand smoke exposure.

95 e (TGFbeta1) amplify the negative effects of secondhand smoke exposure.

96 Temporal trends of secondhand smoke exposure: nonsmoking workers in the Uni

97 Secondhand smoking exposure and traffic and industrial p

98 Evidence is less clear for passive (secondhand) smoke exposure.

99 We exposed mice to secondhand smoke for 8 wk, followed by a period of smoke

100 nonexposed nonusers and nonusers exposed to secondhand smoke for either of these two aldehydes.

101 idence to suggest that low-level exposure to secondhand smoke has a clinically important effect on su

102 Exposure to secondhand smoke has been associated with a disproportio

103 Exposure to secondhand smoke has been associated with numerous healt

104 Secondhand smoke has detrimental effects on vascular smo

105 Exposure to secondhand smoke has plummeted.

106 cessation efforts Additional restriction of secondhand smoke in any places where the public may cong

107 Of 812 participants with data on secondhand smoke in the home, 188 (23.2%) were exposed.

108 the importance of investigating paternal and secondhand smoking in addition to maternal smoking in AS

109 Secondhand smoke increased EMPs and decreased FMD.

110 Secondhand smoke increases the risk of coronary heart di

111 Secondhand smoke increases the risk of vascular disease

112 h common urban indoor air pollution sources (secondhand smoke, indoor motorcycle emissions, and cooki

113 Secondhand smoke-induced endothelial dysfunction has bee

114 rmally harmless Ag, and they may explain why secondhand smoke is a major risk factor for the developm

115 ogistic regression models that differ in the secondhand smoke measurement used.

116 active smokers (n = 6, 21%) or as exposed to secondhand smoke (n = 21, 75%).

117 search describing the mechanistic effects of secondhand smoke on the cardiovascular system, emphasizi

118 Interactions between diet and exposure to secondhand smoke on the prevalence of childhood obesity:

119 ke or vapor indoors in the past 7 days (only secondhand smoke, only secondhand vapor, or neither).

120 Although secondhand smoke or environmental tobacco smoke (ETS) ha

121 Reported exposure to secondhand smoke or vapor indoors in the past 7 days (on

122 crease in the weekly duration of exposure to secondhand smoke (P<0.001 by the chi-square test for tre

123 osure to sidestream cigarette smoke (SS), or secondhand smoke, promoted nicotinic acetylcholine recep

124 men who reported smoking or being exposed to secondhand smoke (rho = 0.24).

125 gated the independent effects of exposure to secondhand smoke, road vehicle traffic, and dietary frui

126 , recent smokers or significantly exposed to secondhand smoke (SHS) (0.5-13.9 ng/mL), lightly exposed

127 n developed for the detection of cotinine, a secondhand smoke (SHS) biomarker.

128 line in smoking rates over time, exposure to secondhand smoke (SHS) continues to cause harm to nonsmo

129 the association between objectively measured secondhand smoke (SHS) exposure and incident cardiovascu

130 We have previously demonstrated that secondhand smoke (SHS) exposure exacerbates bacterial in

131 Secondhand smoke (SHS) exposure has been linked to the w

132 Secondhand smoke (SHS) exposure has been related to vari

133 Secondhand smoke (SHS) exposure is a known risk factor f

134 Although secondhand smoke (SHS) exposure is predominant in Bangla

135 ing pregnancy (in utero smoking) and current secondhand smoke (SHS) exposure on asthma control is poo

136 study sought to analyze the effects of acute secondhand smoke (SHS) exposure on the number and functi

137 We sought to determine the effects of secondhand smoke (SHS) exposure on vascular reactivity i

138 Despite progress in tobacco control, secondhand smoke (SHS) exposure remains prevalent worldw

139 tandard biomarkers to differentiate THS from secondhand smoke (SHS) exposure.

140 Secondhand smoke (SHS) has been associated with a variet

141 Children's exposure to secondhand smoke (SHS) has been causally linked to a num

142 The scientific consensus that secondhand smoke (SHS) increases cardiovascular disease

143 Secondhand smoke (SHS) is associated with a 30% increase

144 The issue of adolescent secondhand smoke (SHS) is globally significant, given th

145 Exposure to secondhand smoke (SHS) may increase risk for obesity, bu

146 creased risk of dementia, but the effects of secondhand smoke (SHS) on dementia risk are not known to

147 oth active smoking and household exposure to secondhand smoke (SHS) on subsequent bladder cancer risk

148 characterized the exposure of nonsmokers to secondhand smoke (SHS) outside a restaurant and bar in A

149 uch intervention has not yet been applied to secondhand smoke (SHS) reduction programs that target sm

150 levels of individual VOCs in freshly emitted secondhand smoke (SHS) were in the range of 1-300 mug m(

151 alence have been associated with exposure to secondhand smoke (SHS), maternal smoking during pregnanc

152 nge of relatively low concentrations of aged secondhand smoke (SHS), similar to those encountered com

153 side of the home for nonsmokers' exposure to secondhand smoke (SHS).

154 effects of low levels of exposure including secondhand smoke (SHS).

155 njunction with the industry manipulation and secondhand smoke strategies.

156 High exposure to secondhand smoke suggests a need for countries to pass s

157 t ultraviolet radiation, 4-aminobiphenyl and secondhand smoke that are known to be strong, moderate a

158 -control messages emphasizing the dangers of secondhand smoke to smokers and nonsmokers undermine the

159 A public ordinance reducing exposure to secondhand smoke was associated with a decrease in AMI h

160 increase of surface-bound TSNAs when sorbed secondhand smoke was exposed to 60 ppbv HONO for 3 hours

161 Student exposure to secondhand smoke was high both at home (more than four i

162 Exposure to secondhand smoke was not associated with individual driv

163 Marital status and exposure to secondhand smoke were linked to higher stress in univari

164 nd apoE(-/-) mice exposed to filtered air or secondhand smoke were quantified.

165 nor vape and were not frequently exposed to secondhand smoke were recruited into 3 cohorts: 2 chroni

166 ged 4-15 years who were exposed to postnatal secondhand smoke with prevalence in those who were not e

167 shed since 1995, and compared the effects of secondhand smoke with the effects of active smoking.