Passive Smoking Is Not Associated with Risk of Intracranial Aneurysm Rupture in Nonsmoking Women

Passive Smoking Is Not Associated with Risk of Intracranial Aneurysm Rupture in Nonsmoking Women

Accepted Manuscript Passive smoking is not associated with risk of intracranial aneurysm rupture in nonsmoking women Xin Feng, MS, Luyao Wang, MS, Erk...

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Accepted Manuscript Passive smoking is not associated with risk of intracranial aneurysm rupture in nonsmoking women Xin Feng, MS, Luyao Wang, MS, Erkang Guo, MS, Baorui Zhang, Zenghui Qian, MD, Xiaolong Wen, MS, Wenjuan Xu, MS, Youxiang Li, MD, Chuhan Jiang, MD, Zhongxue Wu, MD, Aihua Liu, MD PII:

S1878-8750(17)31220-2

DOI:

10.1016/j.wneu.2017.07.120

Reference:

WNEU 6182

To appear in:

World Neurosurgery

Received Date: 10 June 2017 Revised Date:

18 July 2017

Accepted Date: 20 July 2017

Please cite this article as: Feng X, Wang L, Guo E, Zhang B, Qian Z, Wen X, Xu W, Li Y, Jiang C, Wu Z, Liu A, Passive smoking is not associated with risk of intracranial aneurysm rupture in nonsmoking women, World Neurosurgery (2017), doi: 10.1016/j.wneu.2017.07.120. This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.

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Passive smoking is not associated with risk of intracranial aneurysm rupture in

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nonsmoking women

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Xin Feng, MSa,b,*; Luyao Wang, MSa,b*; Erkang Guo, MSa,b; Baorui Zhanga,b; Zenghui Qian,

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MDa,b; Xiaolong Wen, MSa,b; Wenjuan Xu, MSa,b; Youxiang Li, MDa,b; Chuhan Jiang, MDa,b;

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Zhongxue Wu, MDa,b; Aihua Liu, MDa,b

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Medical University, Beijing 100050, China

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University, Beijing 100050, China

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Department of Interventional Neuroradiology, Beijing Neurosurgical Institute, Capital

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Department of Interventional Neuroradiology, Beijing Tiantan Hospital, Capital Medical

*Xin Feng and Luyao Wang contributed equally to this work.

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Correspondence to: Aihua Liu, MD

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Address: No. 6, Tiantan Xili, Dongcheng District, Beijing 100050, China

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Tel: 86-010-67098850; Fax: 86-010-67098064, E-mail: [email protected]

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Running title: Rupture of intracranial aneurysm in women

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Word count:

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Table Count: 2

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Keywords: female, intracranial aneurysm, passive smoking, risk factors, rupture

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BMI, body mass index

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CI, confidence interval

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HRT, hormone replacement therapy

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IA, intracranial aneurysm

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IAR, intracranial aneurysm rupture

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OR, odds ratio

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SAH, subarachnoid hemorrhage

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Abbreviations and Acronyms:

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Abstract

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Background

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Active smoking is a major risk factor for intracranial aneurysm (IA) rupture (IAR); however,

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little is known about the effects of passive smoking on IAR. In China, female passive

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smoking is widespread and severe. This study aimed to assess whether passive smoking is

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associated with increased risk of IAR among nonsmoking women.

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Methods

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We enrolled and retrospectively analyzed 385 consecutive female patients with IAs (87

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ruptured, 298 unruptured) who were admitted to our center between June 2015 and January

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2017. Data on female active smoking, passive smoking, and other factors potentially

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influencing IAR were precisely compared between ruptured and unruptured IAs.

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Results

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For all aneurysms, when adjusting for potential confounders, current smoking was

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significantly associated with IAR (odds ratio [OR], 3.31; 95% confidence interval [CI], 1.08–

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10.20; P = 0.037). Furthermore, bifurcation location (OR, 5.73; 95% CI, 3.27–10.03; P <

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0.001) and educational level (OR, 1.90; 95% CI, 1.10–3.28; P = 0.022) significantly

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increased the risk of IAR. However, for nonsmoking female patients, approximately one-fifth

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of those with IAs were affected by passive smoking; however, passive smoking was not

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significantly associated with IAR. The results also showed that bifurcation location (OR, 6.21;

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95% CI, 3.46–11.15; P < 0.001) and the location of posterior circulation (OR, 3.23; 95% CI,

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1.31–7.93; P = 0.011) significantly increased the risk of IAR.

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Conclusion Although active current smoking was strongly associated with aneurysm rupture in

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female patients, passive smoking was not an independent risk factor for aneurysm rupture in

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nonsmoking women.

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Introduction

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Intracranial aneurysm (IA) rupture (IAR) accounts for 85% of cases of spontaneous

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arachnoid hemorrhage (SAH), which is associated with high morbidity and mortality.1 SAH

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occurs with an incidence of 10 per 100,000 person-years and 50–70% more frequently in

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women than in men.2 The female preponderance of SAH is due to the relatively higher

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incidence of IAs in women. However, several epidemiologic studies have also suggested that

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the female preponderance of IAR can be attributed to the effect of hormonal factors.3

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Moreover, some studies have proven that hormone replacement therapy (HRT) is associated

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with reduced risk of IAR.4-6

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In addition, smoking is a major factor for IAR in both women and men. Thousands of

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studies have evaluated the impact of active smoking on IAR, and the toxic impact of active

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smoking is generally recognized.7,8 In comparison, the effects of passive smoking on IAR are

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not fully understood. China is home to more than 300 million smokers, and female passive

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smoking is widespread and severe owing to the high proportion of men who smoke.

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Moreover, the rates of exposure to secondhand smoke in Chinese women are among the

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highest in the world.7,9 Inadequate evaluations of exposure may result in an underestimation

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of the risks, if they do exist.10 Therefore, in this two-part study, we assessed the relationship

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between active smoking and the risk of IAR among women, and then studied the relationship

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between passive smoking and the risk of IAR among female nonsmokers.

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Methods

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Study design and ethics

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The study population consisted of female patients with IAs evaluated and/or treated at the

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Beijing Tiantan Hospital between June 2015 and January 2017. The exclusion criteria were (i)

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fusiform, traumatic, multiple, or mycotic aneurysms; (ii) intracranial hemorrhage for

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unknown reasons; and (iii) aneurysms associated with arteriovenous malformations,

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arteriovenous fistulas, and moyamoya disease.

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This study was approved by the Beijing Tiantan Hospital review committee. All participants

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provided informed consent.

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Data collection and definitions

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All female patients with IAs between the study dates included. The clinical and radiological

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data of female patients with IAs were precisely collected. Socio-demographic characteristics

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including age, sex, and educational level, and clinical characteristics including body mass

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index (BMI), medical comorbidities, alcohol use (current or previous intake >5 drinks per

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day), family history of IA, postmenopausal status, and history of postmenopausal hormone

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treatment were collected. The higher education level consisted of those who graduate from

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high school (higher secondary education), university degree or those with >12 years spent in

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formal education (beginning from first grade). Those who graduate from middle school

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(lower secondary education) or those with <12 years of formal education were classified into

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the lower education level.11 Postmenopausal status was defined as at least 1 year of

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amenorrhea. Postmenopausal HRT was defined as previous or active hormone use (estrogen

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only, or estrogen and progesterone).

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We obtained information through a telephone survey and by using a structured

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questionnaire in a face-to-face interview conducted by trained interviewers. Information on

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smoking and passive smoking was obtained from the medical history recorded by the treating

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physicians during interviews of patients or family members. If the patient's information was

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incomplete, we obtained information using a telephone survey. We collected the women

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patients with ruptured aneurysms from interviews of patients or family members or telephone

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survey. Women were classified as nonsmokers if they reported never smoking or smoking

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<100 cigarettes during their lifetime.12 Women environmentally exposed to cigarette smoke

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were defined as nonsmokers who declared staying at least 1 h/day in rooms where cigarettes

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were smoked, or staying at least 30 min/day in the immediate vicinity of cigarette-smoking

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people, or sharing a flat with one or more persons smoking cigarettes at home.13 We also

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collected data about sources of smoke exposure. First, we asked whether their husband or

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other family members ever smoked in the house. Second, the subject was asked whether

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someone ever smoked within 3 m around her in the workplace.9

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The size and location of the aneurysm were also recorded. Bifurcation IAs were defined

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as aneurysms at artery bifurcations in the circle of Willis, originating from more than one

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parent vessel (internal carotid artery terminus, anterior communicating artery, internal

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carotid–posterior communicating artery, middle cerebral artery bifurcation, and apex of the

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basilar artery).14 If the aneurysm originated from only one parent vessel , the aneurysm was

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defined as sidewall aneurysm.15 Irregular aneurysm shape was defined as the presence of

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blebs, aneurysm wall protrusions, or multiple lobes.16

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Statistical analysis

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All data were analyzed with SPSS 22.0 (IBM Corp., Armonk, NY, USA). Differences in

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characteristics were assessed by using either χ2 tests for categorical variables or t tests for

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continuous variables. Continuous data were expressed as means ± standard deviations, and

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categorical variables were calculated as frequencies (percentages). As predetermined,

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variables with a P value of <0.20 in the univariate logistic regression analysis were evaluated

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in the multivariate analysis. To identify the independent risk factors that had significant

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correlations with aneurysm rupture in female patients, multivariate logistic regression

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analyses were separately performed for all of the female patients with IAs and for

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nonsmoking female patients. We estimated the odds ratios (ORs) and 95% confidence

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intervals (CIs) for the association between factors and IAR, with P < 0.05 indicating

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statistical significance.

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Results

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Factors related to IAR in all female patients

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A total of 385 women with IAs (87 ruptured and 298 unruptured) were enrolled (age range,

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24–75 years). The mean patient age was 55.1 ± 9.3 years in the unruptured group and 55.9 ±

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9.3 years in the ruptured group. The demographics and main aneurysm characteristics in both

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groups are summarized in Table 1. The following covariates met our previously determined

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level of significance and were entered into the stepwise forward selection for the

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unconditional logistic model: age (P = 0.055), smoking status (P = 0.025), alcohol use (P =

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0.127), education level (P < 0.001), hypertension (P = 0.081), cerebral ischemic

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comorbidities (P = 0.098), postmenopausal HRT (P = 0.146), aneurysm size (P = 0.009),

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bifurcation location (P < 0.001), and location of the anterior circulation artery (P = 0.096).

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However, postmenopausal status was far from being significantly associated with IAR in the

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female patients.

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When adjusting for age, alcohol use, education level, hypertension, cerebral ischemic

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comorbidities, postmenopausal HRT, aneurysm size, and aneurysm location, the multivariate

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analysis indicated that current smoking was significantly associated with IAR (OR, 3.31;

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95% CI, 1.08–10.20; P = 0.037). Furthermore, bifurcation location (OR, 5.73; 95% CI, 3.27–

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10.03; P < 0.001) and educational level (OR, 1.90; 95% CI, 1.10–3.28; P = 0.022)

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significantly increased the risk of IAR (Table 1).

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Factors related to IAR in all nonsmoking female patients

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After excluding smokers (n = 28), 357 female patients who had never smoked were enrolled,

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including 282 with unruptured IAs and 75 with ruptured IAs. Of the 282 patients with

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unruptured IAs, 67 (23.8%) were exposed to passive smoke, including 48 with home

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exposure, 13 with workplace exposure, and 6 with both home and workplace exposure. Of

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the 75 patients with ruptured IAs, 19 (25.3%) were exposed to passive smoke, including 14

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with home exposure, 4 with workplace exposure, and 1 with both home and workplace

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exposure. However, the univariate analysis comparing the two groups indicated that passive

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smoking was not significantly associated with IAR (Table 2).

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The following covariates met our previously determined level of significance and were

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entered into the stepwise forward selection for the unconditional logistic model: age (P =

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0.191), diabetes mellitus (P = 0.143), alcohol use (P = 0.018), postmenopausal HRT (P =

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0.129), aneurysm size (P = 0.019), location of the anterior circulation artery (P = 0.083), and

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bifurcation location (P < 0.001). Table 2 shows the results of multivariate logistic regression analysis of risk factors for

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IAR in nonsmoking female patients. When adjusting for age, alcohol use, diabetes mellitus,

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aneurysm size, location of the anterior circulation artery, and bifurcation location, the

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multivariate analysis indicated that bifurcation location significantly increased the risk of

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IAR (OR, 6.21; 95% CI, 3.46–11.15; P < 0.001) and the location of the posterior circulation

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artery (OR, 3.23; 95% CI, 1.31–7.93; P = 0.011) was associated with an increased risk of

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IAR in nonsmoking female patients.

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Discussion

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In this study, we analyzed the smoking status between female patients with ruptured and

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unruptured IAs, and compared the environmental exposure to cigarette smoke between

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female nonsmokers with ruptured IAs and those with unruptured IAs. The results revealed

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that active tobacco smoking was significantly associated with IAR among female patients.

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However, in both our univariate and multivariate analyses, we failed to detect an effect of

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passive smoking on the risk of IAR. These findings suggest that passive smoking status

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should not be a risk factor for including patients in prophylactic treatment of IAs.

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Active smoking, passive smoking, and IAR

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National antismoking laws cover 16% of the global population; however, significant

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exposure of many individuals remains. The World Health Organization has estimated that

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around 6 million people die each year of active smoking, including 600,000 who die of

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exposure to tobacco smoke.17 Active smoking has been well characterized as a major IAR

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risk factor during the recent years. Cigarette smoking has also been proved to affect aneurysm

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growth, and rupture is more likely to occur with faster aneurysm growth.18 However, the

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interaction between the thousands of chemicals comprising tobacco smoke and IAs remains

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incompletely understood. Several interdependent mechanisms were suggested to contribute to

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aneurysm formation and rupture in active smokers, including increased wall shear stress,

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atherosclerosis, endothelial dysfunction, and altered gene regulation.19,20 There is little

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information about the effect of active smoking on IAR in female patients. In our study, active

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smoking contributed to the IAR risk (OR, 3.31; 95% CI, 1.08–10.20; P = 0.037), independent

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of age, BMI, education, drinking status, medical comorbidities, postmenopausal status, and

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postmenopausal HRT. This result was consistent with those of a previous studies in patients

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of both sexes.21,22

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Several studies revealed that both active and passive smokers may develop cerebrovascular

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and cardiovascular diseases owing to continuous exposure to secondhand smoke.7,9,10,23

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However, most studies investigating the association between smoke exposure and IAR

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focused on active smoking, whereas the association between passive smoking and IAR risk is

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rarely investigated. Adams et al.24 directly investigated the vascular endothelium in 25

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healthy active smokers, 23 healthy passive smokers, and 23 healthy control subjects who had

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never smoked and had no regular exposure to secondhand smoke. They used the minimally

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invasive method of endothelial biopsy, and found that passive smoking reduces active

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endothelial nitric oxide synthase and increases vascular endothelial inflammation to a similar

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extent as active tobacco smoking, indicating the direct toxic effects of passive smoking on the

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vasculature. In the present study, we conducted a retrospective analysis to investigate the

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association between passive smoking and IAR in female nonsmokers. It should be noted that

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we excluded male nonsmokers in evaluating the effects of smoking on IAR, because there is

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an obvious sex difference with regard to rupture risk. In fact, passive smoking is widespread

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in women. In our study, of 282 female nonsmokers with unruptured IAs, 67 (23.8%) were

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exposed to passive smoke, and of 75 female nonsmokers with ruptured IAs, 19 (25.3%) were

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exposed to passive smoke. The two main sources of passive smoke exposure are the home

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(e.g., through a smoking spouse) and the workplace. Scientific evidence has proven that there

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is no safe level of exposure to passive smoke.25 Although the results of our study indicated no

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significant association between passive smoking and aneurysm rupture, it remains important

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to provide counseling to all patients with IAs and their families and coworkers about the risks

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of passive smoking.

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Postmenopausal status, postmenopausal HRT, and IAR

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Previous studies examined the sex differences in IAR and found that IAR occurs more

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frequently in women. Moreover, the prevalence of postmenopausal status is also high among

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female patients with IAs, suggesting that reduced levels of estrogen in postmenopausal

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women may increase the risk of aneurysm formation.26,27 In addition, clinical observations

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suggested that postmenopausal women have a higher incidence of IAR than premenopausal

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women,28whereas our study found that the prevalence was similar between female patients

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with ruptured IAs and those with unruptured IAs (74.1% vs. 78.7%, P = 0.539). We

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hypothesize that this result may be partly biased by the use of HRT in some postmenopausal

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women, as HRT use is prevalent in this population.20 Qureshi et al.6 found that the risk of

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SAH was 1.5-fold higher among postmenopausal women receiving HRT (both estrogen only,

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and estrogen and progesterone). Tada et al., in their experimental IA mouse model, showed

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that estrogen prevented aneurysm rupture in ovariectomized mice.28 However, the results of

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our study revealed that the prevalence of postmenopausal HRT in the unruptured IA group

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was higher than that in the ruptured IA group, whereas the difference between the two groups

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was far from being significant after adjusting for potential confounders. Considering the

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relatively low rate of hormone use and limited sample in this series, we could not conclude

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that postmenopausal HRT was not associated with IAR.

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Limitations and strengths

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This study has several strengths. First, to our knowledge, this cohort study is the first to

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investigate the association between secondhand smoke and IAR. Second, we included only

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nonsmoking women, which allowed us to distinguish the effects of active smoking. The

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present study also has several limitations. First, this is a retrospective study from a single

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center, Beijing Tiantan hospital is one of the largest cerebrovascular intervention centers in

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China, patients who come from all over the country, especially those who have complex

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intracranial aneurysms which difficulty in treatment in the local hospital, went to our hospital,

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suggesting that the collection of data was potentially biased. Besides, secondhand smoke

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exposure data and postmenopausal HRT were collected by using self-reported measures, with

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no biomarker data (e.g., nicotine or polycyclic aromatic hydrocarbon levels) obtained.

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Therefore, recall and reporting biases may have affected the accuracy of our results, for

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example, with respect to exposure level misclassifications. Finally, some studies have

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reported an increased risk of rupture in patients with multiple aneurysms 29,30However,it has

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been still unclear if the results of study confounding by patient-specifc characteristics by

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studying patients with aneurysmal SAH and multiple intracranial aneurysms, and patients

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with multiple aneurysms may be subject to the cumulative risk of all individual

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aneurysms,31so the patients with multiple intracranial aneurysms were excluded in our study.

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Conclusion

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Although active current smoking was strongly associated with aneurysm rupture in

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female patients, passive smoking was not an independent risk factor for aneurysm rupture in

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nonsmoking women.

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Funding:

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This research was supported by the Natural Science Foundation of Beijing, China

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(No.7142032),

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(2014-3-2044).

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Conflicts of Interest:

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None

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References

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1. Nieuwkamp DJ, Setz LE, Algra A, et al. Changes in case fatality of aneurysmal

277

subarachnoid haemorrhage over time, according to age, sex, and region: a meta-analysis.

278

Lancet Neurol. 2009;8:635–642.

279

2. Eden SV, Meurer WJ, Sánchez BN, et al. Gender and ethnic differences in subarachnoid

TE D

Specific Research

Projects

for Capital

Health

Development

AC C

EP

and

M AN U

266

Feng

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hemorrhage. Neurology. 2008;71:731–735.

281

3. De Rooij NK, Linn FHH, van der Plas JA, et al. Incidence of subarachnoid haemorrhage. J

282

Neurol Neurosurg Psychiatry. 2015;78:1365–1372.

283

4. Shiue I, Arima H, Anderson CS. Life events and risk of subarachnoid hemorrhage: the

284

Australasian cooperative research on subarachnoid hemorrhage study (ACROSS). Stroke.

285

2010;41:1304-1306.

286

5. Mhurchu CN, Anderson C, Jamrozik K, et al. Hormonal factors and risk of aneurysmal

287

subarachnoid hemorrhage: an international population-based, case-control study. Stroke.

288

2001;32:606–612.

289

6. Qureshi AI, Malik AA, Saeed O, et al. Hormone replacement therapy and the risk of

290

subarachnoid hemorrhage in postmenopausal women. Stroke. 2016;124:45–50.

291

7. Schwartländer B, Pratt A. Tobacco in China: taming the smoking dragon. Lancet.

292

2015;385:2123-2124.

293

8. Brown RD Jr, Broderick JP. Unruptured intracranial aneurysms: epidemiology, natural

294

history, management options, and familial screening. Lancet Neurol. 2014;13:393–404.

295

9. Li N, Li Z, Chen S, et al. Effects of passive smoking on hypertension in rural Chinese

296

nonsmoking women. J Hypertens. 2015;33:2210–2214.

297

10. Jha P, Ramasundarahettige C, Landsman V, et al. 21st-century hazards of smoking and

298

benefits of cessation in the United States. N Engl J Med. 2013;368:341–350.

299

11. Fan Q, Verhoeven V J, Wojciechowski R, et al. Meta-analysis of gene-environment-wide

AC C

EP

TE D

M AN U

SC

RI PT

280

Feng

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association scans accounting for education level identifies additional loci for refractive error.

301

Nature Communications, 2016; 7:11008.

302

12. Sulsky SI, Fuller WG, Landingham CV, et al. Evaluating the association between menthol

303

cigarette use and the likelihood of being a former versus current smoker. Regul Toxicol

304

Pharmacol. 2014;70:231–241.

305

13. Gać P, Jaźwiec P, Mazur G, et al. Exposure to cigarette smoke and the carotid arteries

306

calcification index in patients with essential hypertension. Cardiovasc Toxicol. 2016.

307

14. Feng X, Wang L, Guo E, et al. Progressive occlusion and recanalization after

308

endovascular treatment for 287 unruptured small aneurysms (<5 mm): a single-center 6-year

309

experience. World Neurosurg. 2017;103:576-583

310

15. Backes D, Vergouwen M D, Velthuis B K, et al. Difference in aneurysm characteristics

311

between ruptured and unruptured aneurysms in patients with multiple intracranial aneurysms.

312

Stroke; 2014; 45(5):1299.

313

16. Kotowski M, Naggara O, Darsaut TE, et al. Safety and occlusion rates of surgical

314

treatment of unruptured intracranial aneurysms: a systematic review and meta-analysis of

315

unruptured

316

2014;45:1299–1303.

317

17. Durante AS, Massa B, Pucci B, et al. Effect of passive smoking on auditory temporal

318

resolution in children. Int J Pediatr Otorhinolaryngol. 2017;97:18–23.

319

18. Juvela S, Poussa K, Porras M. Factors affecting formation and growth of intracranial

AC C

EP

TE D

M AN U

SC

RI PT

300

aneurysms

in

patients

with

multiple

intracranial

aneurysms.

Stroke.

Feng

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aneurysms: a long-term follow-up study. Stroke. 2001;32:485–491.

321

19. Davis MC, Broadwater DR, Amburgy JW, et al. The clinical significance and reliability

322

of self-reported smoking status in patients with intracranial aneurysms: a review. Clin Neurol

323

Neurosurg. 2015;137:44–49.

324

20. Backes D, Rinkel GJE, Greving JP, et al. ELAPSS score for prediction of risk of growth

325

of unruptured intracranial aneurysms. Neurology. 2017;88:1600-1606.

326

21. Greving JP, Wermer MJ, Brown RD Jr, et al. Development of the PHASES score for

327

prediction of risk of rupture of intracranial aneurysms: a pooled analysis of six prospective

328

cohort studies. Lancet Neurol. 2014;13:59-66.

329

22. Ho AL, Lin N, Frerichs KU, et al. Smoking and intracranial aneurysm morphology.

330

Neurosurgery. 2015;77:59-66.

331

23. Simsek E, Karaman Y, Gonullu M, et al. The effect of passive exposure to tobacco smoke

332

on perioperative respiratory complications and the duration of recovery. Braz J Anesthesiol.

333

2016;66:492–498.

334

24. Adams T, Wan E, Wei Y, et al. Secondhand smoking is associated with vascular

335

inflammation. Chest. 2015;148:112–119.

336

25. Bizoń A, Milnerowicz H. The effect of passive and active exposure to tobacco smoke on

337

lipid profile parameters and the activity of certain membrane enzymes in the blood of women

338

in the first trimester of pregnancy. Environ Toxicol Pharmacol. 2017;53:74-80.

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26. Hamdan A, Barnes J, Mitchell P. Subarachnoid hemorrhage and the female sex: analysis

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EP

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SC

RI PT

320

Feng

ACCEPTED MANUSCRIPT

18

of risk factors, aneurysm characteristics, and outcomes. J Neurosurg. 2014;121:1367–1373.

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27. Andreasen TH, Bartek J Jr, Andresen M, et al. Modifiable risk factors for aneurysmal

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subarachnoid hemorrhage. Stroke. 2013;44:3607-3612.

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28. Tada Y, Wada K, Shimada K, et al. Estrogen protects against intracranial aneurysm

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rupture in ovariectomized mice. Hypertension. 2014;63:1339–1344.

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29. Sonobe M, Yamazaki T, Yonekura M, Kikuchi H. Small unruptured intracranial aneurysm

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verification study: SUAVe study, Japan. Stroke 2010; 41: 1969-1977.

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30. Thompson BG, Brown RD, Jr., Amin-Hanjani S, Broderick JP, Cockroft KM, Connolly,

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ES, Jr., et al. Guidelines for the Management of Patients With Unruptured Intracranial

349

Aneurysms: A Guideline for Healthcare Professionals From the American Heart

350

Association/American Stroke Association. Stroke 2015;46:2368-2400.

351

31. Backes, D., Vergouwen, M. D., Velthuis, B. K., Ic, V. D. S., Bor, A. S., & Algra, A., et al.

352

Difference in aneurysm characteristics between ruptured and unruptured aneurysms in

353

patients with multiple intracranial aneurysms. Stroke;2014: 45(5), 1299.

355

356

357

358

SC

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EP

AC C

354

RI PT

340

Feng

ACCEPTED MANUSCRIPT

19

359

360

RI PT

361

362

Figure legends and Tables

364

Figure 1. Study flowchart

365 366 367 368

Table 1. Summary of statistic data for all women with ruptured and unruptured intracranial aneurysms Table2. Summary of statistic data of nonsmoking women with ruptured and unruptured intracranial aneurysms

M AN U

SC

363

369

373

374

EP

372

AC C

371

TE D

370

ACCEPTED MANUSCRIPT Table 1. Summary of statistic data for all women with ruptured and unruptured intracranial aneurysms Multivariate Analysis

P=0.479

UIA, n (%)

RIA, n (%)

Number

298

87

Age (years)

55.1 ± 9.3

55.9 ± 9.3

< 65

40 (13.4)

19 (21.8)

≥ 65

258 (86.6)

68 (78.2)

P=0.055

< 25

169 (56.7)

49 (56.3)

P=0.949

≥ 25

129 (43.3)

38 (43.7)

M AN U

BMI category

Smoking

0.78 (0.38–1.57)

SC

Characteristics

OR (95% CI)

RI PT

Univariate Analysis

P=0.025 *

282 (94.6)

75 (86.2)

Former smoker

4 (1.3)

4 (4.6)

P=0.146

3.16(0.67–14.8)

Current smoker

12 (4.0)

8 (9.2)

P=0.037 *

3.31(1.08–10.2)

Yes

55 (18.5)

10 (11.5)

P=0.127

P=0.053

0.43 (0.18–1.01)

No

243 (81.5)

77 (88.5)

49 (56.3)

P < 0.001 *

P=0.022 *

1.90 (1.10–3.28)

P=0.081

P=0.686

1.12 (0.64–1.96)

AC C

Educational level

EP

Alcohol use

TE D

Never smoker

Junior high school or less

167 (56.0)

High school or more 131(44.0)

38

43.7

Hypertension Yes

14 (48.0)

51 (58.6)

No

15 (52.0)

36 (41.4)

Hyperlipidemia

ACCEPTED MANUSCRIPT Yes

30 (10.1)

6 (6.9)

No

268 (89.9)

81 (93.1)

Yes

34 (11.4)

6 (6.9)

No

264 (88.6)

81 (93.1)

Yes

16 (5.4)

9 (10.3)

No

282 (94.6)

78 (89.7)

Yes

14 (4.7)

7 (8.0)

No

28 (95.3)

80 (92.0)

Yes

232 (77.9)

65 (74.7)

No

66 (22.1)

P=0.372

Diabetes mellitus

Cerebral ischemic comorbidities

No

SC P=0.226

P=0.539

22 (25.3)

EP 13 (4.4)

AC C

Yes

1.40 (0.51–3.89)

TE D

Postmenopausal status

Postmenopausal hormone replacement therapy

P=0.516

M AN U

Cardiac comorbidities

P=0.098

RI PT

P=0.225

1 (1.1)

285 (95.6)

86 (98.9)

Yes

29 (9.7)

6 (6.9)

No

269 (90.3)

81 (93.1)

65 (21.8)

53 (60.9)

P=0.146

P=0.110

0.17 (0.02–1.50)

P < 0.001 *

5.73(3.27–10.0)

History of ovariectomy

P=0.418

Bifurcation location Yes

P < 0.001 *

ACCEPTED MANUSCRIPT No

233 (78.2)

34 (39.1)

Yes

165 (55.4)

4 (51.7)

No

13 (44.6)

42 (48.3)

<7

173 (58.1)

64 (73.6)

≥7

125 (41.9)

23 (26.4)

AC

277 (93.0)

76 (87.4)

PC

21 (7.0)

11 (12.6)

Irregular shape

Size, mm

0.23 (0.10–0.56)

SC

P=0.001 *

M AN U

Location

P=0.009 *

RI PT

P=0.548

P=0.096

P=0.007

3.46 (1.40–8.52)

AC C

EP

TE D

UIA: unruptured intracranial aneurysm; RIA: ruptured intracranial aneurysm; CI: confidence interval; OR: odds ratio; BMI: body mass index; AC: anterior circulation artery PC: posterior circulation artery

ACCEPTED MANUSCRIPT

Table 2. Summary of statistic data of nonsmoking women with ruptured and unruptured intracranial aneurysms RIA, n (%)

n

282

75

Age (years)

54.90 ± 9.39

55.28 ± 9.20

≥ 65

36 (12.8)

14 (18.7)

< 65

246 (87.2)

61 (81.3)

No passive smoking

219 (77.7)

< 20

9 (3.2)

≥ 20

54 (19.1)

P=0.533

0.78 (0.37–1.69)

56 (74.7)

P=0.658

4 (5.3)

15 (20.0)

P=0.926

TE D

Exposed Environment 219 (77.7)

56 (74.7)

Home

48 (16.0)

14 (18.7)

Workplace

13 (4.6)

4 (5.3)

EP

No

6 (1.8)

AC C

workplace

OR (95% CI)

M AN U

Duration of passive Smoking (years)

Home and

P=0.191

Multivariate Analysis

SC

Characteristics

Univariate Analysis

RI PT

UIA, n (%)

1 (1.3)

Alcohol use Yes No

50 (17.7)

5 (6.7)

232 (82.3)

70 (93.3)

160 (56.7)

41 (54.7)

122 (43.3)

34 (45.3)

P=0.018*

BMI category < 25 ≥ 25

P=0.748

P=0.079

0.41 (0.15–1.11)

ACCEPTED MANUSCRIPT Educational level Junior high school or lower or

155 (55.0)

36 (48.0)

127 (45.0)

39 (52.0)

Yes

135 (47.9)

42 (56.0)

No

147 (52.1)

33 (44.0)

Yes

29 (10.3)

6 (8.0)

No

253 (89.0)

P=0.282

High school or higher Hypertension

Diabetes mellitus

No

251 (89.0)

71 (94.7)

16 (5.7)

6 (8.0)

EP

No

4 (5.3)

TE D

31 (11.0)

Yes

266 (94.3)

SC

69 (92.0)

Yes

Cerebral ischemic comorbidities

P=0.554

M AN U

Hyperlipidemia

P=0.211

P=0.143

P=0.457

69 (92.0)

AC C

Heart comorbidities Yes

14 (5.0)

6 (8.0)

268 (95.0)

69 (92.0)

Yes

215 (76.2)

18 (24.0)

No

67 (23.8)

57 (76.0)

No

P=0.310

Menopause status

Postmenopausal hormone replacement

RI PT

unknown

P=0.965

P=0.088

0.37 (0.12–1.16)

ACCEPTED MANUSCRIPT therapy Yes

13 (4.6)

1 (1.3)

No

269 (95.4)

74 (98.7)

Yes

28 (9.9)

5 (6.7)

No

254 (90.1)

70 (93.3)

Yes

61 (21.6)

46 (61.3)

No

221 (78.4)

29 (38.7)

P=0.194

P=0.129

0.19 (0.02-1.63)

P=0.386

Bifurcation

Yes

154 (54.6)

No

12 (45.4)

Maximum aneurysm 7.0 ± 5.4 height (mm), mean ± SD

≥7

4.0 ± 2.2

0.47 (0.25–0.88)

SC

P=0.002 *

ratio, 1.1 ± 0.5

1.1 ± 0.5

P=0.505

8.1 ± 5.8

5.9 ± 3.3

165 (58.5)

55 (73.3)

117 (41.5)

20 (26.7)

262 (92.9)

65 (86.7)

Location AC

P=0.019

P < 0.001 *

4.9 ± 3.3

EP

<7

6.21(3.46–11.1)

34 (45.3

P < 0.001 *

AC C

Size ratio

P < 0.001 *

P=0.873

5.0 ± 2.9

Maximum aneurysm 7.2 ± 5.5 width (mm), mean ± SD Width/height mean ± SD

4 (54.7)

TE D

Aneurysm neck (mm), 5.2 ± 3.2 mean ± SD

P < 0.001 *

M AN U

Irregular shape

RI PT

History of ovariectomy

P=0.019 *

ACCEPTED MANUSCRIPT PC

20 (7.1)

10 (13.3)

P=0.083

P=0.011

3.23 (1.31–7.93)

*P < 0.05

AC C

EP

TE D

M AN U

SC

RI PT

UIA: unruptured intracranial aneurysm; RIA: ruptured intracranial aneurysm; SD: standard deviation; CI: confidence interval; OR: odds ratio; BMI: body mass index; AC: anterior circulation artery PC: posterior circulation artery

AC C

EP

TE D

M AN U

SC

RI PT

ACCEPTED MANUSCRIPT

ACCEPTED MANUSCRIPT Highlights

1. This cohort study is the first to investigate the association between secondhand

RI PT

smoke and intracranial aneurysm rupture. 2. We concluded that active current smoking was strongly associated with aneurysm

AC C

EP

TE D

M AN U

aneurysm rupture in nonsmoking women.

SC

rupture in female patients, but, passive smoking was not an independent risk factor for