Background and Objectives

KJORL

Korean Journal of Otorhinolaryngology-Head and Neck Surgery

Korean J Otorhinolaryngol-Head Neck Surg

2092-5859 2092-6529

Korean Society of Otolaryngology-Head and Neck Surgery

10.3342/kjorl-hns.2022.00500

kjorl-hns-2022-00500

Original Article

Rhinology

우연성 부비동염과 대사증후군 간의 상관 관계: 강북삼성병원 건강검진센터 자료를 바탕으로 한 단면 코호트 연구

Association Between Metabolic Syndrome and Incidental Paranasal Sinusitis: A Cross-Sectional Cohort Study of Kangbuk Samsung Health Care Center

http://orcid.org/0000-0002-2254-8857

Lee

In Buhm

이

인범

¹ ^*

http://orcid.org/0000-0003-3835-144X

Kim

Tae Hwan

김

태환

¹ ^*

http://orcid.org/0000-0003-2119-9226

Lee

Mi Yeon

이

미연

http://orcid.org/0000-0002-0823-4245

Lee

Jung Yup

이

정엽

http://orcid.org/0000-0003-4014-2161

Lee

Kyung Chul

이

경철

http://orcid.org/0000-0003-0714-5862

Jin

Sung Min

진

성민

http://orcid.org/0000-0003-4412-3486

Lee

Sang Hyuk

이

상혁

1Department of Otorhinolaryngology-Head and Neck Surgery, Kangbuk Samsung Hospital, Sungkyunkwan University School of Medicine, Seoul, Korea 1성균관대학교 의과대학 강북삼성병원 이비인후과학교실

2Division of Biostatistics, Department of R&D Management, Kangbuk Samsung Hospital, Sungkyunkwan University School of Medicine, Seoul, Korea 2성균관대학교 의과대학 강북삼성병원 연구지원팀

Address for correspondence Sang Hyuk Lee, MD, PhD Department of Otorhinolaryngology-Head and Neck Surgery, Kangbuk Samsung Hospital, Sungkyunkwan University School of Medicine, 29 Saemunan-ro, Jongno-gu, Seoul 03181, Korea Tel +82-2-2001-2264 Fax +82-2-2001-2273 E-mail entlsh@hanmail.net *

These authors contributed equally to this work.

10 2022

17 10 2022

65 10 602 609 11 06 2022 12 07 2022 13 07 2022

2022

This is an open access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Background and Objectives

Metabolic syndrome is a medical problem featured by the coexistence of several risk factors such as, heart disease, stroke, and diabetes. The association between metabolic syndrome and incidental paranasal sinusitis has not been definitely proved yet. This study was established to prove if metabolic syndrome might be related to incidental paranasal sinusitis.

Subjects and Method

Of 5682 patients who had undergone brain MRI for regular checkups between 2011 and 2018 at Kangbuk Samsung Health Care Center, we analyzed 2882 cases with normal sinus and incidental paranasal sinusitis that had been deciphered by specialized radiologists. Data of various components of metabolic syndrome were also used. Multivariable logistic regression analysis was performed to calculate the odds ratio (OR) of having incidental paranasal sinusitis between subjects with metabolic syndrome components and those without.

Results

Of 2882 patients aged over 18 years (mean age, 51.8±9.47 years; 55.4% male), 353 incidental paranasal sinusitis subjects (232 male with mean age of 51.39±9.27 years and 121 female with mean age of 52.43±9.69 years) were identified. Metabolic syndrome was identified in 554 patients. The adjusted OR of having incidental paranasal sinusitis was 3.03 (95% confidence interval [CI]: 1.58-5.83) in female with metabolic syndrome. In female, the adjusted OR of having incidental paranasal sinusitis was 2.10 (95% CI: 1.20-3.67) in those with low high density lipoprotein (HDL) cholesterol (<50 mg/dL) and 1.83 (95% CI: 1.06-3.16) in those with higher body mass index (BMI) (≥25 kg/m²).

Conclusion

Results of this study suggest that female with metabolic syndrome, low HDL cholesterol, and high BMI have higher risks for incidental paranasal sinusitis.

Body mass index Cholesterol, HDL Metabolic syndrome Sinusitis

Introduction

Incidental paranasal sinusitis has been increasingly reported because of the diagnostic use of brain MRI for head and neck disease is becoming more frequent [1,2]. It might be expected that if incidental paranasal sinusitis detected earlier, the faster the management could be taken. However, clinical causes of incidental sinusitis remain unknown [3-7]. Asymptomatic incidental sinusitis patients have been mostly regarded as nonsignificant cases [3]. Several recent studies have revealed that diabetes and body mass index (BMI) are associated with incidental sinusitis [8,9]. It has also been shown that hypertension is associated with incidental sinusitis in female [10].

Metabolic syndrome is a group of components resulting from overnutrition, sedentary modern lifestyle, and excessive adiposity [11]. The prevalence rate of metabolic syndrome in Korea has increased continuously from 24.9% in 1998 to 31.3% in 2007 [12,13]. It has become to the fore in the modern society because metabolic syndrome is well known to increase the risk of cardiovascular diseases and type 2 diabetes [11,12]. Metabolic syndrome is diagnosed when there are three positive results for the following five criteria: high waist circumference, high blood pressure (BP), high triglyceride (TG), high fasting glucose, and low high density lipoprotein (HDL) cholesterol [12,14].

As described earlier, diabetes, BMI, and hypertension as components of metabolic syndrome criteria all have been reported to be associated with incidental paranasal sinusitis. However, the association between metabolic syndrome and incidental paranasal sinusitis has not been definitely proved yet. Thus, the purpose of this study was to clarify if metabolic syndrome might be related to incidental paranasal sinusitis.

Subjects and Methods Study designation and study participants

This was a cross-sectional cohort study analyzing data obtained from regular health checkups performed at Kangbuk Samsung Medical Center, Seoul, Korea to determine the association between metabolic syndrome and incidental paranasal sinusitis. Of a total of 521848 patients with regular health checkups between 2011 and 2018 at Kangbuk Samsung Health Care Center, 5682 patients had undergone brain MRI. Of these 5682 patient, 2882 cases with normal sinus and paranasal sinusitis deciphered by specialized radiologists were analyzed. Data for components of metabolic syndrome were also used. All the patient’s data were obtained by internationally standardized questionnaire survey and body compositions such as height and weight were measured by trained nurses with the participants wearing a lightweight hospital gown and no shoes. Blood sampling was done by highly trained nurses and clinical laboratory scientists with over 8 hours fasting state. This study had some strengths, in terms of its large sample size, cohort design, detailed and standardized clinical and laboratory data. This study was reviewed and acknowledged by the Institutional Review Board (IRB) of Kangbuk Samsung Hospital (approval number: 2020-11-013). The requirement for informed consent was exempted by the IRB because only deidentified data collected during health-screening processes were used.

Metabolic syndrome as an independent variable

Metabolic syndrome was defined following the criteria of NCEP-ATP III, reflecting the waist measurement standard for Koreans. Detailed diagnostic criteria of metabolic syndrome are shown in Table 1 [12]. Following these criteria, subjects with three or more positive index above criteria were determined as metabolic syndrome group.

Paranasal sinusitis as a dependent variable

Brain MRI was performed using a 1.5-tesla scanner (SIGNA HDxt 1.5T; GE Healthcare, Tokyo, Japan). These images were deciphered by educated radiologists who did not know this research. Incidental paranasal sinusitis was defined as the existence of official readings by radiologists including sinusitis in at least one paranasal sinus.

Statistical analysis

Baseline characteristics of study participants are presented as mean±standard deviation for continuous variables and number (percentage) for categorical variables. Continuous variables were compared using student’s t-test. Categorical variables were compared using chi-square test or Fisher’s exact test. For continuous variables having abnormal distribution, they were presented as median (IQR) and compared using Mann-Whitney U test. Graphical method (using histogram) was used for determining whether data had a normal distribution.

The association between metabolic syndrome and incidental paranasal sinusitis was then analyzed. Odds ratios (ORs) with 95% confidence intervals (CIs) of having incidental paranasal sinusitis were calculated using a multivariable logistic regression analysis. ORs and 95% CIs were adjusted for several steps. Model 1 was adjusted for age and sex. Model 2 was adjusted for age, sex, regular exercise, smoking status, and alcohol consumption. In model 3, the final model, white blood cell (WBC), high sensitivity C-reactive peptide (hsCRP), and allergic history were further adjusted in addition to those adjusted in model 2. Individual components of metabolic syndrome diagnostic criteria were also analyzed using multivariable logistic regression analysis. ORs and the 95% CIs were calculated after adjustment. Adjusted variables were the same as above. All statistical analyses were performed using STATA version (16.1) (StataCorp LP, College Station, TX, USA). p-values less than 0.05 were considered statistically significant.

Results Baseline characteristics of study population

Of 2882 patients aged over 18 years (mean age, 51.8±9.47 years; 55.4% male), 353 subjects (232 male and 121 female; mean age, 53.24±10.49 years) were identified to have incidental paranasal sinusitis.

Table 2 shows baseline characteristic of participants, including age, sex, smoking status, alcohol intake, regular exercise, systolic and diastolic BP, waist circumference, BMI, total cholesterol, HDL cholesterol, low density lipoprotein (LDL) cholesterol, WBC count, fasting glucose, hemoglobin A1c, TG, C-reactive peptide (CRP), hsCRP, and allergic history. In the paranasal sinusitis group, age and proportion of male were higher compared to those in normal sinus group.

Prevalence comparison of metabolic syndrome and incidental paranasal sinusitis

Table 3 shows prevalence of metabolic syndrome and incidental paranasal sinusitis among total sex, female, and male group. Significant results were seen in total sex group (p=0.029) and female group (p=0.019). In male group, prevalence of metabolic syndrome was seemed high. However, no significant result was seen between metabolic syndrome and incidental paranasal sinusitis (p=0). Also, individual component of metabolic syndrome was analyzed in Table 3.

Association between metabolic syndrome and paranasal sinusitis according to sex

As shown in Table 2, age, sex, smoking status, systolic BP, total cholesterol, HDL cholesterol, WBC count, CRP, hsCRP, and allergic history are related to the prevalence of paranasal sinusitis. Supplementary Table 1 shows sex differences of baseline characteristics. Table 4 shows the association between metabolic syndrome and paranasal sinusitis. Three models were set according to the step-up adjustment. In multivariable logistic regression analysis, the adjusted OR was 1.77 (95% CI: 1.06-2.94) in model 1, 2.60 (95% CI: 1.47-4.60) in model 2, and 3.03 (95% CI: 1.58-5.83) in model 3 of the female group. These results indicated that higher OR was calculated if there were more adjustment variables in the female group. However, there was no significant tendency in the male group. There was no significant result in the total group either. Furthermore, the interaction p-value by sex were 0.023 and 0.013 in model 2 and model 3 respectively. It is assumed that because there were lots of sex differences of baseline characteristics in Supplementary Table 1, more significant results were elicited after step-up adjustment. In this model, relative excess risk due to interaction was -0.689 (95% CI; -1.747 to 0.370), attributable proportion due to interaction was -0.370 (95% CI; -0.975 to 0.235), and synergy index was 0.556 (95% CI; 0.247-1.249).

Association between individual components of metabolic syndrome diagnostic criteria and paranasal sinusitis in female

In succession, sub-analysis was performed to reveal if there were associations between individual components of metabolic syndrome diagnostic criteria and paranasal sinusitis. There were no significant results in the total sex group or the male group. However, in the female group, some components showed significant associations with paranasal sinusitis.

Table 5 shows associations between individual components of metabolic syndrome diagnostic criteria and incidental paranasal sinusitis in female. The association between BMI and incidental paranasal sinusitis in female was also found. The final adjusted OR was 2.10 (95% CI: 1.20-3.67) in those with low HDL cholesterol (<50 mg/dL) and 1.83 (95% CI: 1.06-3.16) in those with high BMI (≥25 kg/m²). However, waist circumference, high BP, TG, and fasting glucose did not show significant correlation with paranasal sinusitis.

Discussion

This large cross-sectional cohort study showed increases of incidental paranasal sinusitis in patients with metabolic syndrome. The association between incidental paranasal sinusitis and metabolic syndrome has been the subject of previous studies. One study showed that the prevalence of paranasal sinusitis was higher in patients with metabolic syndrome, especially in those with a high TG level, reduced high-density lipoprotein level, and elevated BP than in those without metabolic syndrome [15]. However, that study did not consider sex difference. Our study showed associations of paranasal sinusitis with low HDL (<50 mg/dL) and high BMI (≥25 kg/m²) in female. However, BP, TG level, and fasting glucose failed to show significant associations with paranasal sinusitis regardless of sex.

Another study has reported a significant positive association between dyslipidemia and paranasal sinusitis in patients with or without nasal polyp (adjusted OR: 1.36, 95% CI: 1.26-1.47, p<0.001) [16]. Both dyslipidemia and paranasal sinusitis are associated with chronic inflammation which has negative effects on the integrity of endothelial cells [16-18]. Dyslipidemia has been reported to be an important factor for oxidative stress causing endothelial dysfunction and atherosclerosis [16,19]. This oxidative stress has been found to be associated with the development of paranasal sinusitis [19].

Kabeya, et al. [8,9] have reported that patients with higher BMI are more likely to have paranasal sinus disease, consistent with our finding. They also reported a significant association of patients with diabetes and the prevalence of paranasal sinus disease (adjusted OR: 1.74, 95% CI: 1.12-2.71 in diabetic patients). Dales, et al. [10] have reported a correlation between hypertension and sinusitis in femlae (adjusted OR: 1.42, 95% CI: 1.04-1.95). However, fasting glucose and high BP showed no significant association with paranasal sinusitis in our study. The reason for such differences might be that numbers of patients analyzed in previous studies were relatively small. In addition, most studies had a cross-sectional design. To have more accurate results, a prospective study is needed.

Metabolic syndrome is associated with insulin resistance, adipose tissue dysfunction, dyslipidemia, especially high TG and low LDL levels [15]. This condition might be linked to abnormal levels of inflammatory markers such as cytokines and adipokines. Meanwhile, the correlation between essential hypertension and insulin resistance is already known [20]. Therefore, among diagnostic criteria of metabolic syndrome, dyslipidemia, elevated BP, and high fasting glucose level might cause chronic inflammatory conditions such as paranasal sinusitis.

Several hypotheses have been suggested for the development of paranasal sinusitis involving many environmental and host factors. ‘Immune barrier hypothesis’ is one of pathophysiologic explanations for paranasal sinusitis [21]. It assumes that chronic inflammation can cause defects in the mechanical barrier or innate immune response, making sinus mucosa become vulnerable to having paranasal sinusitis by microbes. As mentioned above, metabolically unhealthy patients, including those with dyslipidemia, elevated BP, high glucose level could show increased levels of inflammatory cytokines, inflammation-sensitive plasma proteins, and cellular adhesion molecules [16,22-24]. Consequently, these proinflammatory host factors could be linked to the development of paranasal sinusitis.

Strength of this study included its large sample size and randomized selection. As all data used in this study were from randomized regular health checkups, they were highly representative without a selection bias. Sex differences were seen in this study. This is not surprising as sex differences are well known for cardiovascular and immune diseases [10,25]. According to a previous study, female are more likely to have asthma [25] or smoking induced lung disease, suggesting that female show increased susceptibility to respiratory diseases [10,26-28]. Female might also have smaller sinus that could increase the risk of obstruction and paranasal sinus disease. Despite these explanations, further research is necessary to prove why metabolic syndrome and incidental paranasal sinusitis have association only in female.

This study has some limitations. First, paranasal sinusitis was determined according to incidental readings of brain image. Therefore, it might be unclear and controversial that there is the clinical relation of incidental findings detected in brain MRI scanning system. A previous study has shown that there is an association between paranasal sinus abnormality on MRI and symptoms of an upper respiratory infection [29]. However, some studies have suggested that there are differences between clinical symptoms and MRI findings [30,31]. Further research is needed to reveal the correlation between metabolic syndrome and clinically proved paranasal sinusitis. Secondly, brain MRI deciphering was done by several radiologists. Although they were highly trained experts, observer bias could not be completely excluded. Thirdly, the meaningful adjusted OR results were concluded only in female group.

In conclusion, this study suggests that female with metabolic syndrome, low HDL cholesterol, and high BMI are associated with incidental paranasal sinusitis. As for clinical appliance, otorhinolaryngologists and physicians should keep it in mind that patients with metabolic syndrome might have an increased risk of paranasal sinusitis. At the society level, metabolic syndrome is an increasing trend due to the modern lifestyle. It could lead to excessive healthcare expenditure. Therefore, it is necessary to make preventive effort for reducing the risk of paranasal sinusitis by taking regular sinus endoscopy examination or paranasal sinus X-ray check-up. More prospective studies are necessary to reveal the correlation between metabolic syndrome and paranasal sinusitis.

Supplementary Material

The Data Supplement is available with this article at https://doi.org/10.3342/kjorl-hns.2022.00500.

Supplementary Table 1. Baseline characteristics of participants

None

Author Contribution

Conceptualization: In Buhm Lee, Sang Hyuk Lee. Data curation: In Buhm Lee. Formal analysis: In Buhm Lee, Tae Hwan Kim, Jung Yup Lee. Investigation: In Buhm Lee, Kyung Chul Lee. Methodology: In Buhm Lee, Tae Hwan Kim. Project administration: Tae Hwan Kim, Sung Min Jin. Resources: In Buhm Lee, Tae Hwan Kim. Software: Mi Yeon Lee. Supervision: Sang Hyuk Lee. Validation: In Buhm Lee, Tae Hwan Kim, Sang Hyuk Lee. Visualization: In Buhm Lee. Writing—original drift: In Buhm Lee. Writing—review & editing: In Buhm Lee, Tae Hwan Kim, Sang Hyuk Lee.

REFERENCES 1

Hansen

Helvik

Nordgård

Bugten

Stovner

Håberg

Incidental findings in MRI of the paranasal sinuses in adults: A population-based study (HUNT MRI)

BMC Ear Nose Throat Disord 2014 14 1 13

Børretzen

Lysdahl

Olerud

Diagnostic radiology in Norway trends in examination frequency and collective effective dose

Radiat Prot Dosimetry 2007 124 4 339 47

Rosenthal

Lundy

Massoglia

Payne

Gilbert

Gebregziabher

Incidental paranasal sinusitis on routine brain magnetic resonance scans: Association with atherosclerosis

Int Forum Allergy Rhinol 2016 6 12 1253 63

Lim

Ram

Fasulakis

Kane

Incidental magnetic resonance image sinus abnormalities in asymptomatic Australian children

J Laryngol Otol 2003 117 12 969 72

Pazera

Bornstein

Pazera

Sendi

Katsaros

Incidental maxillary sinus findings in orthodontic patients: A radiographic analysis using cone-beam computed tomography (CBCT)

Orthod Craniofac Res 2011 14 1 17 24

Brüllmann

Schmidtmann

Hornstein

Schulze

Correlation of cone beam computed tomography (CBCT) findings in the maxillary sinus with dental diagnoses: A retrospective crosssectional study

Clin Oral Investig 2012 16 4 1023 9

Phothik hun

Suphanantachat

Chuenchompoonut

Nisapakultorn

Cone-beam computed tomographic evidence of the association between periodontal bone loss and mucosal thickening of the maxillary sinus

J Periodontol 2012 83 5 557 64

Kabeya

Kato

Tomita

Katsuki

Oikawa

Shimada

Higher body mass index and increased prevalence of paranasal sinus disease

J Epidemiol 2016 26 5 258 63

Kabeya

Kato

Tomita

Katsuki

Oikawa

Shimada

Association between diabetes and increased prevalence of paranasal sinus disease: A cross-sectional study in Japanese adults

J Epidemiol 2015 25 4 297 302

Dales

Chen

Lin

Chronic sinusitis and arterial hypertension in a national population health survey

Int J Cardiol 2006 107 2 230 4

Cornier

Dabelea

Hernandez

Lindstrom

Steig

Stob

The metabolic syndrome

Endocr Rev 2008 29 7 777 822

Yoo

Kim

Lee

Choi

Song

Study on the relevance of metabolic syndrome and incidence of gastric cancer in Korea

Int J Environ Res Public Health 2019 16 7 1101

Lim

Shin

Song

Kwak

Kang

Yoon

Increasing prevalence of metabolic syndrome in Korea: The Korean national health and nutrition examination survey for 1998-2007

Diabetes Care 2011 34 6 1323 8

Alberti

Eckel

Grundy

Zimmet

Cleeman

Donato

Harmonizing the metabolic syndrome: A joint interim statement of the International Diabetes Federation Task Force on Epidemiology and Prevention; National Heart, Lung, and Blood Institute; American Heart Association; World Heart Federation; International Atherosclerosis Society; and International Association for the Study of Obesity

Circulation 2009 120 16 1640 5

Lee

Hwang

Jung

Kim

Kang

Kim

The relationship between chronic rhinosinusitis and metabolic syndrome

Am J Rhinol Allergy 2017 31 4 222 7

Wee

Min

Park

Byun

Lee

Song

Association between dyslipidemia and chronic rhinosinusitis in a Korean population

Diagnostics (Basel) 2020 11 1 26

Steven

Frenis

Oelze

Kalinovic

Kuntic

Bayo Jimenez

Vascular inflammation and oxidative stress: Major triggers for cardiovascular disease

Oxid Med Cell Longev 2019 2019 7092151

Kinlay

Ganz

Role of endothelial dysfunction in coronary artery disease and implications for therapy

Am J Cardiol 1997 80 9 11 6

Anderson

Meredith

Charbonneau

Yeung

Frei

Selwyn

Endothelium-dependent coronary vasomotion relates to the susceptibility of LDL to oxidation in humans

Circulation 1996 93 9 1647 50

Zhou

Wang

Link between insulin resistance and hypertension: What is the evidence from evolutionary biology?

Diabetol Metab Syndr 2014 6 1 12

Lam

Schleimer

Kern

The etiology and pathogenesis of chronic rhinosinusitis: A review of current hypotheses

Curr Allergy Asthma Rep 2015 15 7 41

Stokes

Cooper

Tailor

Granger

Hypercholesterolemia promotes i nflammation a nd m icrovascular dysfunction: Role of nitric oxide and superoxide

Free Radic Biol Med 2002 33 8 1026 36

Al -Shawwa

Al -Huniti

Titus

Abu-Hasan

Hypercholesterolemia is a potential risk factor for asthma

J Asthma 2006 43 3 231 3

Engström

Lind

Hedblad

Stavenow

Janzon

Lindgärde

Effects of cholesterol and inf lammation-sensitive plasma proteins on incidence of myocardial infarction and stroke in men

Circulation 2002 105 22 2632 7

Witzemann

Pardue

Exploring the biological contributions to human health: Does sex matter? Washington, DC

National Academies Press

2001

Chen

Breithaupt

Muhajarine

Occurrence of chronic obstructive pulmonary disease among Canadians and sex-related risk factors

J Clin Epidemiol 2000 53 7 755 61

Bone

Higgins

Hurd

Reynolds

NHLBI workshop summary. Research needs and opportunities related to respiratory health of women

Am Rev Respir Dis 1992 146 2 528 35

Prescott

Bjerg

Andersen

Lange

Vestbo

Gender difference in smoking effects on lung function and risk of hospitalization for COPD: Results from a Danish longitudinal population study

Eur Respir J 1997 10 4 822 7

Cooke

Hadley

MRI of the paranasal sinuses: Incidental abnormalities and their relationship to symptoms

J Laryngol Otol 1991 105 4 278 81

Moser

Panush

Rubin

Honigsberg

Sprayregen

Eisig

Incidental paranasal sinus abnormalities on MRI of the brain

Clin Radiol 1991 43 4 252 4

Wani

Ruckenstein

Parikh

Magnetic resonance imaging of the paranasal sinuses: Incidental abnormalities and their relationship to patient symptoms

J Otolaryngol 2001 30 5 257 62

Tables

Table 1.

Diagnostic criteria for the clinical diagnosis of metabolic syndrome

Category	Details
Waist circumference	≥90 cm in male, ≥85 cm in female
BP	≥130 mm Hg systolic BP or ≥85 mm Hg diastolic BP or treatment of previously diagnosed hypertension^*
Triglyceride	≥150 mg/dL
HDL cholesterol	＜40 mg/dL in male, ＜50 mg/dL in female
Fasting glucose	≥100 mg/dL or treatment of previously diagnosed type 2 DM^†

previously diagnosed hypertension: have been diagnosed with hypertension by a doctor or being treated for hypertension;

†

previously diagnosed type 2 DM: have been diagnosed with diabetes by a doctor or being treated for diabetes.

BP, blood pressure; DM, diabetes mellitus; HDL, high density lipoprotein

Table 2.

Baseline characteristics of participants

Variable		Overall	Control	PNS	p-value
Number (%)		2882	2529 (87.75)	353 (12.25)
Age (years)^*		51.8±9.47	51.59±9.31	53.24±10.49	0.005
Sex, male^*		1597 (55.41)	1365 (53.97)	232 (65.72)	＜0.001
Smoking status^*					0.014
	Never smoker	1241 (43.06)	1109 (43.85)	132 (37.39)
	Former smoker	764 (26.51)	661 (26.14)	103 (29.18)
	Current smoker	497 (17.24)	419 (16.57)	78 (22.10)
	Unknown	380 (13.19)	340 (13.44)	40 (11.33)
Alcohol intake (g/day)		6 (1-25)	6 (1-25)	9 (1-30)	0.108
Regular exercise					0.200
	＜3 times per week	2203 (76.44)	1946 (76.95)	257 (72.80)
	≥3 times per week	488 (16.93)	421 (16.65)	67 (18.98)
	Unknown	191 (6.63)	162 (6.41)	29 (8.22)
SBP (mm Hg)^*		112.40±12.92	112.18±12.96	114.00±12.60	0.013
DBP (mm Hg)		72.70±9.61	72.58±9.62	73.57±9.51	0.069
Waist circumference (cm)		83.46±8.91	83.37±8.85	84.14±9.35	0.127
BMI (kg/m²)		23.98±3.06	23.95±3.05	24.20±3.13	0.151
Total cholesterol (mg/dL)^*		198.65±37.71	199.23±37.59	194.54±38.34	0.029
HDL cholesterol (mg/dL)^*		57.63±15.59	57.92±15.57	55.59±15.59	0.009
LDL cholesterol (mg/dL)		128.23±34.80	128.35±34.81	127.39±34.82	0.627
WBC (×103/mm³)^*		5.99±1.63	5.96±1.61	6.19±1.77	0.019
Fasting glucose (mg/dL)		99.29±18.51	99.15±18.60	100.33±17.82	0.261
HbA1c (%)		5.75±0.66	5.74±0.65	5.80±0.68	0.085
TG (mg/dL)		102 (73-148)	102 (73-148)	103 (73-145)	0.926
CRP (mg/dL)^*		0.05 (0.02-0.11)	0.05 (0.02-0.10)	0.07 (0.03-0.14)	＜0.001
hsCRP (mg/dL)^*		0.05 (0.03-0.10)	0.05 (0.03-0.10)	0.06 (0.03-0.13)	0.002
Allergic history^*†		312 (10.83)	263 (10.4)	49 (13.88)	0.049

Data are presented as n (%), mean±standard deviation or median (interquartile range).

significant result (p＜0.05);

†

allergic history: allergic rhinitis, atopic dermatitis, allergic conjunctivitis, food allergy.

PNS, paranasal sinusitis; SBP, systolic BP; DBP, diastolic BP; BP, blood pressure; BMI, body mass index; HDL, high density lipoprotein; LDL, low density lipoprotein; WBC, white blood cell; HbA1c, hemoglobin A1c; TG, triglyceride; CRP, C-reactive peptide; hsCRP, high sensitivity C-reactive peptide

Table 3.

Prevalence comparison of metabolic syndrome

	Total			Female			Male
	Control	PNS	p-value	Control	PNS	p-value	Control	PNS	p-value
Metabolic syndrome			0.029^*			0.019^*			0.706
No	2058 (88.40)	270 (11.60)		1036 (91.28)	99 (8.72)		1022 (85.67)	171 (14.33)
Yes	471 (85.02)	83 (14.98)		128 (85.33)	22 (14.67)		343 (84.90)	61 (15.10)
Metabolic syndrome component
Abdominal obesity	725 (86.21)	116 (13.79)	0.029^*	257 (90.18)	28 (9.82)	0.760	468 (84.17)	88 (15.83)	0.285
High BP	753 (85.67)	126 (14.33)	0.100	261 (90.31)	28 (9.69)	0.857	492 (83.39)	98 (16.61)	0.071
TG	619 (87.80)	86 (12.20)	0.024^*	166 (91.71)	15 (8.29)	0.575	453 (86.45)	71 (13.55)	0.438
HDL	415 (86.82)	63 (13.18)	0.963	225 (87.21)	33 (12.79)	0.038^*	190 (86.36)	30 (13.64)	0.686
Fasting glucose	905 (87.02)	135 (12.98)	0.498	279 (89.71)	32 (10.29)	0.545	626 (85.87)	103 (14.13)	0.679

significant result (p＜0.05).

PNS, paranasal sinusitis; BP, blood pressure; TG, triglyceride; HDL, high density lipoprotein

Table 4.

Association between metabolic syndrome and paranasal sinusitis

Subgroup	Multivariable-adjusted OR (95% CI)
Subgroup	Model 1	Model 2	Model 3
Total sex (n=2882)
Non metabolic syndrome group (n=2328)	1 (reference)	1 (reference)	1 (reference)
Metabolic syndrome group (n=554)	1.17 (0.89-1.54)	1.25 (0.94-1.66)	1.16 (0.84-1.61)
Female (n=1285)
Non metabolic syndrome group (n=1135)	1 (reference)	1 (reference)	1 (reference)
Metabolic syndrome group (n=150)	1.77 (1.06-2.94)^*	2.60 (1.47-4.60)^*	3.03 (1.58-5.83)^*
Male (n=1597)
Non metabolic syndrome group (n=1193)	1 (reference)	1 (reference)	1 (reference)
Metabolic syndrome group (n=404)	1.04 (0.75-1.43)	1.05 (0.76-1.47)	0.91 (0.62-1.34)
Interaction p-value by sex	0.147	0.023	0.013

Model 1: adjusted for age, sex^†; Model 2: adjusted for age, sex^†, regular exercise, alcohol intake, smoking status; Model 3: adjusted for age, sex^†, regular exercise, alcohol intake, smoking status, white blood cell, high sensitivity C-reactive peptide, allergic history.

significant odds ratio result;

†

sex was adjusted only in the total sex group.

OR, odd ratio; CI, confidence interval

Table 5.

Association between individual components of metabolic syndrome diagnostic criteria and paranasal sinus disease in female

Subgroup	Multivariable-adjusted OR (95% CI)
Subgroup	Model 1	Model 2	Model 3
Waist circumference (≥85 cm in female)
Control group	1 (reference)	1 (reference)	1 (reference)
Case group	1.04 (0.66-1.63)	1.14 (0.68-1.92)	1.02 (0.55-1.86)
High BP (≥130 mm Hg systolic BP or ≥85 mm Hg diastolic BP)
Control group	1 (reference)	1 (reference)	1 (reference)
Case group	0.98 (0.61-1.57)	1.31 (0.77-2.23)	1.69 (0.92-3.10)
Triglyceride (≥150 mg/dL)
Control group	1 (reference)	1 (reference)	1 (reference)
Case group	0.83 (0.47-1.46)	1.05 (0.56-1.97)	1.12 (0.54-2.31)
HDL cholesterol (＜50 mg/dL)
Control group	1 (reference)	1 (reference)	1 (reference)
Case group	1.54 (1-2.37)^*	2.33 (1.43-3.77)^*	2.10 (1.20-3.67)^*
Fasting glucose (≥100 mg/dL)
Control group	1 (reference)	1 (reference)	1 (reference)
Case group	1.11 (0.72-1.71)	1.34 (0.83-2.18)	1.56 (0.90-2.69)
Obesity (BMI≥25 kg/m²)
Control group	1 (reference)	1 (reference)	1 (reference)
Case group	1.43 (0.94-2.19)^*	1.91 (1.19-3.06)^*	1.83 (1.06-3.16)^*

Model 1: adjusted for age; Model 2: adjusted for age, regular exercise, alcohol intake, smoking status; Model 3: adjusted for age, regular exercise, alcohol intake, smoking status, white blood cell, high sensitivity C-reactive peptide, allergic history.

significant odds ratio result.

OR, odd ratio; CI, confidence interval; BP, blood pressure; HDL, high density lipoprotein; BMI, body mass index