Association between obesity and sickness in the past two weeks among middle-aged and elderly women: A cross-sectional study in Southern China

Li-Ying Fu; Xiao-Xiao Wang; Xiao Wu; Bo Li; Ling-Ling Huang; Bing-Bing Li; Qing-Feng Du; Pei-Xi Wang

doi:10.1371/journal.pone.0203034

Abstract

Objectives

Sickness situation in the past two weeks, an indicator of health service needs, is an increasing major health concern. However, data on the relationship between obesity and two-week morbidity in the female population, particularly in middle-aged and elderly women, is sparse. The present study aimed to examine the association between obesity and two-week morbidity among middle-aged and elderly women in Southern China, and to explore the independent contributions of socio-demographic variables, health-related factors, and obesity to two-week morbidity.

Methods

In total, 2364 middle-aged and elderly women were included in this cross-sectional, community-based survey. Obesity was assessed using body mass index (BMI). The outcome variable was sickness situation over the past two weeks (two-week morbidity). Clustered logistic regression was applied to analyze the independent contribution of obesity to two-week morbidity.

Results

Approximately 14.6% of participants experienced sickness in the past two weeks. Obesity (odds ratio [OR] = 1.47, 95% confidence interval [CI] = 1.02–2.12) was significantly associated with two-week morbidity and its independent contribution accounted for 3.7%, lower than that of socio-demographic variables (73.7%) and health-related factors(22.6%).

Conclusions

Some degree of correlation was observed between obesity and two-week morbidity among middle-aged and elderly women in Southern China, which can be used as a reference for health-related decision-making.

Citation: Fu L-Y, Wang X-X, Wu X, Li B, Huang L-L, Li B-B, et al. (2018) Association between obesity and sickness in the past two weeks among middle-aged and elderly women: A cross-sectional study in Southern China. PLoS ONE 13(8): e0203034. https://doi.org/10.1371/journal.pone.0203034

Editor: Chung-Ying Lin, Hong Kong Polytechnic University, HONG KONG

Received: June 19, 2018; Accepted: August 14, 2018; Published: August 28, 2018

Copyright: © 2018 Fu et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Data Availability: All relevant data are within the manuscript and its Supporting Information files.

Funding: This work was supported by the Science and Technology Program of Guangzhou [201607010136] and the Guangzhou 121 Talents program to PXW.

Competing interests: The authors have declared that no competing interests exist.

Introduction

With the rapid increase in global population and the changes in social structure and lifestyle, the prevalence of obesity has rapidly increased over the past four decades worldwide, reaching 18% in men and surpassing 21% in women by 2025, and this has become a major concern [1,2]. As a global epidemic, the number of obese adults exceeded that of underweight adults, particularly in China, which has been on top of the list worldwide. Currently, women account for more than half of the total obese population [3]. Health risks increase with excess weight [4], leading to substantial morbidity and disability, increased work absenteeism due to sickness [5–8], impaired quality of life [9], increased rates of hospitalizations [10], and increased risk for mortality [11–13]. In addition, obesity does not only cause a heavy burden on our health care system, but it has a significant impact on medical costs [14–16]. Accordingly, future studies on obesity and its effects must be performed.

Two-week morbidity is defined as the proportion of individuals who get sick in the past two weeks [17], a primary indicator of overall health status and health service needs of residents in China [18], which significantly identifies the health service content and mode of operation. Numerous epidemiological studies on two-week morbidity have been conducted to identify health service needs and to provide references for health decision-making. The prevalence rate of sickness in the last two weeks varied between 4.9% and 40.6% in the community residents, whereas it ranged from 5.4% to 38.9% among women [18,19]. The wide variations in the two-week morbidity rate in previous studies may be due to the different study designs and characteristics of participants. Generally, the two-week morbidity rate varied by age [19–21]. Elderly individuals have a higher two-week morbidity, with no exception women in rural areas [22]. In addition, two-week morbidity may denote the first signs of emerging health problems and lead to confinement in bed and absence from work for a significant number of days in China [21]. To reduce the two-week morbidity and its associated adverse outcomes in middle-aged and elderly women, the risk factors of two-week morbidity must be identified and understood.

However, referring to the effect of the risk factors on sickness in the last two weeks, numerous studies have paid more attention to the demographic data of the participants, while studies on health-related factors, particularly obesity, have been much less studied. More interestingly, a population-based study in Hangzhou showed that obese individuals were more likely to be sick in the past two weeks than normal-weight individuals [18], but what is at odds with this finding is that obesity was not significantly associated with the two-week illness [19,23]. Unfortunately, the controversy was failed to be deeply studied in China. In addition, the effect of obesity on two-week morbidity was indirectly confirmed by assessing the impact of obesity on short-term illness overseas [5–8].Based on an in-depth literature review, Body mass index (BMI) has been widely and universally used to measure obesity in studies on two-week morbidity. Therefore, assessment on the association between obesity and two-week morbidity based on the Chinese standard criteria for obesity is important.

Having been inspired by the aforementioned considerations, the present study aimed to examine the association between obesity and two-week morbidity using BMI as a validation index. Furthermore, the independent contributions of socio-demographic variables, health-related factors, and obesity to two-week morbidity in middle-aged and elderly women in southern China were examined.

Materials and methods

Study design and participants

This study was based on a cross-sectional community health survey in Guangdong province, Southern China, 2017. The survey samples were selected using a multistage and stratified random sampling method. The primary sampling units were street communities, second-stage sampling units were communities and the stratification was according to the economic level. A total of 2643 women aged 45 and older were approached, 192(7.3%) of them refused participation or did not respond, 177 of them provided questionnaires with incomplete data. Finally, the total number of women included in the analysis was 2364.

Procedures

Data were collected via face-to-face household interviews by trained personnel. An interview group comprising a medical student (Guangzhou Medical University) and a local healthcare staff member (community health service center) collected research data using standard-structured questionnaires. The interviewers received the same training prior to the survey to standardize data collection and recording procedures. In addition, each group was accompanied by a supervisor to ensure that the interviews were completed accurately. On average, each participant completed the interview for approximately 30 minutes.

Ethics statement

This study was approved by the Ethics Committee of Guangzhou Medical University. Written informed consent was obtained from each study participant prior to investigation.

Measurements

We first conducted a literature search to identify the potential factors associated with two-week morbidity. The variables found through this search were classified into three: socio-demographic characteristics (age, marital status, education level, etc.), health-related factors (current smoking, alcohol drinking, regular exercise, etc.), and obesity.

Socio-demographic characteristics.

Marital status was dichotomized into married and single, “married” as ‘‘married” while ‘‘divorced/widowed/single” as ‘‘single”. Educational level was categorized into primary school or lower, middle school, high school or higher. Employment status was divided into three groups: employed, retired, and unemployed.

Health-related variables.

Current smoking status was defined as smoking one or more cigarettes per day for at least 6 months. Alcohol drinking was defined was defined as drinking alcohol for participants who reported consuming alcohol an average of more than once a week within the last year. Regular exercise was defined as participating in moderate or intensive activity lasting no less than 30 minutes ≥ 3 times per week, except for routine office and house work. Time of sitting was defined based on the response to the question “how long do you sit on an average day?”

BMI.

Weight was determined to the nearest 0.1 kg on a portable batheroom scales, and height was measured to the nearest 0.1 cm with a tape measure by a trained investigator with standard methods. According to the Chinese BMI reference [24], BMI was calculated according to the standard formula, i.e. weight in kilograms divided by squared height in meters, and all study participants were categorized as underweight (<18.5 kg/m²), normal weight (18.5–23.9 kg/m²), overweight (24.0–27.9 kg/m²), and obese (≥ 28.0 kg/m²).

Dependent variables.

The concept of sickness in the past two weeks was defined if the respondents had any of the following three circumstances in the prior two weeks when interviewed: (1) conscious feeling of discomfort, seeking diagnosis and treatment; (2) conscious feeling of discomfort, not seeking diagnosis and treatment but choosing self-treatment; (3) conscious feeling of discomfort, not seeking diagnosis and treatment and choosing self-treatment but being absent from work and school or lying in bed for at least one day because of discomfort [22,25].

The “sickness” defined by the health service research is considered from the perspective of resident’s health service needs. It is not the “sickness” in the strict sense and mainly based on the subjective feelings of the respondents and the objective judgment of the trained investigators [26]. Thereafter, the two-week morbidity was defined as “number of respondents who had sickness in the past two weeks divided by total number of respondents × 100%”[19,23,25,26].

Data analysis

Mean and standard deviations (SD) were presented for continuous variables, while frequency and percentage were used for categorical variables. The main dichotomous outcome variable was two-week morbidity. To assess the differences in the distributions based on continuous or categorical variables, t-test or chi-square test was used accordingly. Logistic regression was employed to calculate the odds ratios (ORs) and 95% confidence intervals (95% CIs). Continuous variables (BMI) were standardized to make the data comparable.

Subsequently, clustered logistic regression was used to explore the impacts of socio-demographic characteristics, health-related factors, and obesity (three clusters) on sickness in the last two weeks[27,28]. Multidirectional associations may exist among the three clusters and the dependent variable. To be specific, cluster 1 may affect cluster 2, cluster 3, and the outcome variable. Likewise, cluster 2 may affect cluster 3 and the dependent variable, whereas cluster 3 may affect the outcome variable. Consequently, the simultaneous consideration of variables from the clusters in a free multiple regression model (i.e., a free forward stepwise logistic regression model) might cause confounded inference. Thus, we adopted clustered logistic regression[27], which may facilitate a more realistic assessment of the relative contribution of the factors to sickness in the last two weeks. The regression model was determined in three steps: (1) A forward stepwise regression of sickness in the past two weeks for the cluster 1 variables; (2) A forward stepwise regression for the cluster 2 variables with the equation derived from step 1 as a fixed part of the new regression model; (3) A forward stepwise regression for the cluster 3 variables with the equation derived from step 2 as a fixed part of the new regression model. The variables for the inclusion and exclusion criteria for the stepwise regression models were P values of 0.05 and 0.10, respectively.

The independent effect of each cluster was assessed using the corresponding R² value. The independent contribution share of each cluster was calculated as individual R² change/total R² change in the final model × 100%. The R² in logistic regression models was the Nagelkerke “pseudo” R², similar to the classical R² in linear regression models for data interpretation [28].

All analyses were carried out using the Statistical Package for the Social Sciences (SPSS) version 13.0 (SPSS Inc., Chicago, IL, USA). Two-tailed P values less than 0.05 were considered statistically significant.

Results

Participant characteristics

Descriptive statistics on the study variables are presented in Table 1. Among 2364 middle-aged and elderly women (aged 45 years and older), with an average age of 60.2 ± 11.1 years, 2010 (85.0%) were married, and 354 (15.0%) were single. Majority of the participants received an education of primary school or lower (52.4%), they had medical insurance (89.8%). With regard to health-related factors, most did not smoke (99.1%), drink (94.7%), exercised regularly (55.9%) and sat for more than 6 hours per day on average (59.4%). The average BMI was 23.7 ± 3.8 kg/m². Meanwhile, we divided the participants according to the presence of sickness in the past two weeks. The results of the chi-square test and t-test showed that the variables between the two groups differed significantly in terms of age, marital status, education level, employment status, regular exercise, and BMI (P < 0.05) (Table 1). In addition, approximately 14.6% of women experienced illness in the last two weeks before the survey.

Download:

Table 1. Participant characteristics (N = 2364 middle-aged and elderly women) according to dichotomized two-week morbidity in 2017.

https://doi.org/10.1371/journal.pone.0203034.t001

Two-week morbidity and BMI

The two-week morbidity rate was highest in obese women with reference to the normal weight group (22.6% vs 13.7%) (Table 1 and Fig 1). In the univariate analysis, Compare with the normal weight group, obese participants had a near two times risk of two-week morbidity (crude OR = 1.85, 95% CI = 1.31–2.60, P < 0.001), and there were no difference in the underweight and overweight group.(Table 2).

Download:

Fig 1. Prevalence of sickness in the past two weeks in different BMI categories.

https://doi.org/10.1371/journal.pone.0203034.g001

Download:

Table 2. Association of obesity with sickness in the past two weeks^{^a}.

https://doi.org/10.1371/journal.pone.0203034.t002

Determinants of two-week morbidity

In the clustered logistic regression analysis, the variables included in the final progressive cluster model of logistic regression are shown in Table 3. The ORs were adjusted for other variables and are illustrated in Fig 2. Among the socio-demographic variables (cluster 1), age, marital status, education level, and employment status were significantly associated with sickness in the past two weeks. Two elderly groups (60–74, ≥75 years) were almost 2-fold more likely to be sick than the reference group (45–59 years), respectively (P < 0.05). Women who were single and those who went to middle or high school or higher were at higher risk of becoming sick in the last two weeks (P < 0.001). Unemployed women were almost 1.5 times more likely to be sick in the past two weeks (P < 0.05).The independent contributions of socio-demographic variables were 73.7%. In cluster 2 (health-related factors), only regular exercise was associated with the decreased risk of illness in the last two weeks (P < 0.001). The independent contributions of the second cluster in middle-aged and elderly women were 22.6%. In the third cluster, compared with the normal-weight group, obese participants were nearly 1.5 times at risk of two-week morbidity (OR = 1.47, 95% CI = 1.02–2.12, P = 0.039), and no difference was observed in the underweight and overweight groups. The independent contributions on the risk of being sick in the last two weeks were 3.7%.

Download:

Fig 2. Adjusted odds ratios for two-week morbidity with 95% confidence intervals by cluster 1, cluster 2 and cluster 3.

https://doi.org/10.1371/journal.pone.0203034.g002

Download:

Table 3. Cluster logistic regression models explaining sickness in the past two weeks by socio-demographic characteristics (cluster 1), health-related factors (cluster 2) and obesity (cluster 3).

https://doi.org/10.1371/journal.pone.0203034.t003

Discussion

Main findings

To the best of our knowledge, this was the first study showing the association between obesity and two-week morbidity in middle-aged and elderly women in Southern China. Approximately 14.6% of women aged 45 years and older got sick in the past two weeks. Obesity was significantly associated with two-week morbidity after adjusting for socio-demographic and health-related factors. However, the independent contribution of obesity to two-week morbidity was minimal. These findings suggested that some degree of correlation was observed between obesity and two-week morbidity among middle-aged and elderly women.

Comparison with previous studies

With the samples drawn in the current study, the morbidity rate was 14.6% among the present study population in the past two weeks, which indicated the poor health status among the middle-aged and elderly women. Wen and colleagues have revealed that the two-week morbidity rate was 13.4% among women in rural areas[22],which was in accordance with the result of our study. However, other studies have reported different two-week morbidity rates. For instance, a study conducted in a western Chinese city has shown that the two-week prevalence rate in the female residents of rural areas was 8.0%[29]. Zhu and colleagues have revealed that the two-week morbidity rate was only 3.42% among rural-urban migrate workers[30]. The differences might be partially explained by the specific characteristics of the study participants, methodology, and region disparity. In brief, the risk factors associated with the high prevalence of sickness in the last two weeks must be identified to initiate preventive measures and health care.

Our study showed that obesity was significantly associated with two-week morbidity among middle-aged and elderly women, even after adjusting for socio-demographic and health-related factors. Obese women had nearly 1.5 times higher risk odds of being sick in the last two weeks than women with normal weight. Our results correspond to the findings of studies that had examined BMI and two-week morbidity and showed that obesity has a negative effect on community residents [18,20]. Lin et al. have shown that the risk of two-week morbidity due to overweight and obesity was 1.64 and 3.38 times than that of normal or thinner individuals living in Chinese communities, respectively [20]. However, a community-based research with relatively small sample sizes have revealed that obesity was not significantly associated with two-week morbidity [23]. The difference in the findings of these studies conducted in China may result from the different region and characteristics of the participants. In addition, this association between obesity and two-week morbidity was also indirectly reflected by assessing the impact of obesity on short-term illness overseas. Khongsdier and colleagues have verified that the risk of becoming sick during the last four weeks was higher in participants with a high body-fat mass index than the normal group [31]. Another cohort study found that stable obesity increased the risk for short sickness absence among women [6], as shown in previous studies [5,7,8]. Unfortunately, most of previous study had a small sample size and did not account for necessary health-related confounders [18,31], such as regular exercise and sitting time [20,23]. The important findings in our study were that the relationship between obesity and two-week morbidity remained significant after controlling for socio-demographic and health-related factors among middle-aged and elderly women. The association may be caused by the tendency that obese participants are more prone to suffer from obesity-related chronic diseases, which results in an increased two-week prevalence rate. Jing and colleagues have elucidated that obesity was a risk factor associated with fatigue [32], which might also affect health status and lead to sickness in the past two weeks. More interestingly, certain studies have also observed a U-shaped relationship between BMI and mortality and other adverse outcomes, with the highest mortality risk observed in the underweight group [33]. Conversely, in our study, only obesity was significantly associated with two weeks of illness, and underweight individuals had the lowest two-week morbidity among middle-aged and elderly women. The lean body mass of the underweight group may partly explain this difference. In summary, the associations between obesity and two-week morbidity are complex and not fully understood. Thus, more studies must be conducted in the future.

The independent contribution of the third cluster to two-week morbidity was minimal. Individuals are more likely to seek treatment or present with sickness in the last two weeks due to individual characteristics or lifestyle habits rather than obesity. Two-week morbidity is a sensitive index reflecting the recent health status of residents and recent health service requirements. Health risks increased with excess weight in a prospective study by Roos and colleagues [6]. It might be partially explained by the fact that two weeks is an extremely short period of time for evaluating the impact of BMI on recent poor health status and two-week morbidity. Future studies must consider a longer follow-up period for assessing the impact on recent health service needs. Of the social demographic factors, age, marital status, education level, and employment status have been associated with two-week morbidity, as shown in previous studies [19,22]. In general, with aging, individuals become less energetic, with deteriorating physiological functions and increased risk for short-term diseases. Single status, which is a risk factor of social support from family members, could also increase the likelihood of two-week morbidity [34]. A higher education level may indicate a higher quality of life [35] and lower number of reported health problems, which were obviously associated with two-week morbidity [36]. As for health-related factors, only regular exercise was significantly associated with two-week morbidity. The positive effects of physical activity, such as improving physical conditions [34]and enhancing psychological well-being [37], which have been emphasized in older adults[38] are possible reasons. However, one literature has shown no significant difference between two-week morbidity and physical exercise among residents aged 65 years [39]. Thus, a better understanding of health-related lifestyle factors may help in the early development and utilization of strategies for health promotion in elderly individuals.

The present study had several limitations. First, the data in our analyses were based on self-reports, which could lead to biases or could have inaccuracies, although physical examinations were conducted to record their height and body weight. Second, the evaluation of obesity with BMI is cumbersome. BMI does not differentiate body fat distribution or body fat from lean mass, which is associated with increased two-week morbidity. However, BMI is widely and universally used, and it is easily accessible for general practice and fairly reliable in terms of body fat percentage and body fat mass in both developed and developing countries [31]. Third, income was not included in this study considering that income reporting is a sensitive issue and not reliable in China, but we have data on employment status which may partly reflect the relative income status. In addition, we have no data on the residence which is another factor associated with morbidity. Nevertheless, it is known that the Pearl River Delta Region of Guangdong province, our survey field, has basically completed the urbanization now. Almost all the residents are managed within the jurisdiction of the community currently. Finally, considering the cross-sectional study design, the observed associations could not be assumed as causal relationships. Further in-depth studies with longitudinal follow-up data are warranted to explore the cause and effect relationship.

Conclusions

The two-week morbidity in middle-age and older women was high. Obesity was significantly associated with two-week morbidity among middle-aged women. However, the independent contribution of obesity on two-week morbidity was minimal. These findings suggest that the importance of obesity on the health condition of middle-aged and elderly women in the past two weeks should be considered appropriately. Obesity, as an effective indicator, should be considered reasonably and in a timely manner to help health practitioners provide counseling on the consequences of obesity and help policy makers direct public health messages.

Supporting information

S1 Dataset. Association between obesity and sickness in the past two weeks among middle-aged and elderly women.

https://doi.org/10.1371/journal.pone.0203034.s001

(XLSX)

S1 Questionnaire. Community diagnostic questionnaire.

https://doi.org/10.1371/journal.pone.0203034.s002

(PDF)

Acknowledgments

We are grateful to all respondents who completed the surveys.

References

1. Ng M, Fleming T, Robinson M, Thomson B, Graetz N, Margono C, et al. Global, regional, and national prevalence of overweight and obesity in children and adults during 1980–2013: a systematic analysis for the Global Burden of Disease Study 2013. Lancet. 2014;384(9945):766–781. pmid:24880830.
- View Article
- PubMed/NCBI
- Google Scholar
2. WHO Global status report on noncommunicable diseases 2014. http://www.who.int/nmh/publications/ncd-status-report-2014/en/. Accessed March 29, 2018.
3. Di CM, Bentham J, Stevens GA, Zhou B, Danaei G, Lu Y, et al. Trends in adult body-mass index in 200 countries from 1975 to 2014: a pooled analysis of 1698 population-based measurement studies with 19Â·2 million participants. Lancet. 2016;387(10026):1377–1396. pmid:27115820.
- View Article
- PubMed/NCBI
- Google Scholar
4. Hajek A, Lehnert T, Ernst A, Lange C, Wiese B, Prokein J, et al. Prevalence and determinants of overweight and obesity in old age in Germany. Bmc Geriatrics. 2015;15(1):83. pmid:26170016.
- View Article
- PubMed/NCBI
- Google Scholar
5. Korpela K, Roos E, Lallukka T, Rahkonen O, Lahelma E, Laaksonen M. Different measures of body weight as predictors of sickness absence. Scandinavian Journal of Public Health. 2013;41(1):25–31. pmid:23221374.
- View Article
- PubMed/NCBI
- Google Scholar
6. Roos E, Laaksonen M, Rahkonen O, Lahelma E, Lallukka T. Weight change and sickness absence—a prospective study among middle-aged employees. Eur J Public Health. 2015;25(2):263–267. pmid:24997201.
- View Article
- PubMed/NCBI
- Google Scholar
7. Roos E, Lallukka T, Lahelma E, Rahkonen O. The joint associations of smoking and obesity with subsequent short and long sickness absence: a five year follow-up study with register-linkage. BMC Public Health. 2017;17(1):978. Epub 2017/12/29. pmid:29282110; PubMed Central PMCID: PMCPmc5745910.
- View Article
- PubMed/NCBI
- Google Scholar
8. Ferrie JE, Head J, Shipley MJ, Vahtera J, Marmot MG, Kivimäki M. BMI, obesity, and sickness absence in the Whitehall II study. Obesity. 2012;15(6):1554–1564. pmid:17557993.
- View Article
- PubMed/NCBI
- Google Scholar
9. Zhu YB, Luo XX, Wang Q. A study on the realationship between body mass index and health-reated quality of life in middle-aged or older Chinese adults. Chin J Epidemiol. 2009;30(7):687–691. PubMed PMID: 29282110; PubMed Central PMCID: PMCPMC5745910.
- View Article
- Google Scholar
10. Rossi AP, Bianchi L, Volpato S, Bandinelli S, Guralnik J, Zamboni M, et al. Dynapenic Abdominal Obesity as a Predictor of Worsening Disability, Hospitalization, and Mortality in Older Adults: Results From the InCHIANTI Study. J Gerontol A Biol Sci(Med Sci). 2017;72(8):1098–1104. Epub 2017/03/23. pmid:28329134; PubMed Central PMCID: PMCPmc5861871.
- View Article
- PubMed/NCBI
- Google Scholar
11. Moore SC, Mayne ST, Graubard BI, Schatzkin A, Albanes D, Schairer C, et al. Past body mass index and risk of mortality among women. International Journal of Obesity. 2008;32(5):730–739. pmid:18209736.
- View Article
- PubMed/NCBI
- Google Scholar
12. Wardell S, Wall A, Bryce R, Gjevre J, Laframboise K, Reid JK. The association between obesity and outcomes in critically ill patients. Canadian Respiratory Journal Journal of the Canadian Thoracic Society. 2016;22(1):23–30. pmid:25379653.
- View Article
- PubMed/NCBI
- Google Scholar
13. Adams KF, Schatzkin A, Harris TB, Kipnis V, Mouw T, Ballard-Barbash R, et al. Overweight, obesity, and mortality in a large prospective cohort of persons 50 to 71 years old. The New England journal of medicine. 2006;355(8):763–778. Epub 2006/08/24. pmid:16926275.
- View Article
- PubMed/NCBI
- Google Scholar
14. Qin X, Pan J. The Medical Cost Attributable to Obesity and Overweight in China: Estimation Based on Longitudinal Surveys. Health economics. 2016;25(10):1291–1311. pmid:26223895.
- View Article
- PubMed/NCBI
- Google Scholar
15. Zhao W, Zhai Y, Hu J, Wang J, Yang Z, Kong L, et al. Economic burden of obesity-related chronic diseases in Mainland China. Obesity Reviews. 2008;9(Suppl s1):62–67. pmid:18307701.
- View Article
- PubMed/NCBI
- Google Scholar
16. Gazmararian JA, Frisvold D, Zhang K, Koplan JP. Obesity is associated with an increase in pharmaceutical expenses among university employees. Journal of obesity. 2015;2015:298698. Epub 2015/03/06. pmid:25741444; PubMed Central PMCID: PMCPmc4337045.
- View Article
- PubMed/NCBI
- Google Scholar
17. Mao Y, Xu F, Zhang MJ, Liu JL, Yang J, Wang MJ, et al. Equity of health service utilization of urban residents: data from a western Chinese city. Chin Med J (Engl). 2013;126(13):2510–2516. Epub 2013/07/05. pmid:23823826.
- View Article
- PubMed/NCBI
- Google Scholar
18. Chen J, Yu KM, Jin T, Ye JJ. Influencing factors of two- week prevalence rate among residents in Shangcheng District of Hangzhou. Chinese medicine and clinic (in Chinese). 2016;16(11):1573–1575.
- View Article
- Google Scholar
19. Xu LT, Du XP, Sun YL. Factors associated with two week prevalence rate among community residents in Yue Tan. Chinese community physician (in Chinese). 2016;32(22):184–185.
- View Article
- Google Scholar
20. Lin YY, Zhang SC, Wu J, Zeng XZ, Yang TT, Yin XX, et al. Factors associated with two week prevalence rate among adults aged 15 years or above in Shenzhen. Journal of Public Health and Preventive Medicine (in Chinese). 2017;28(3):133–135.
- View Article
- Google Scholar
21. Tian D, Sun L, Zhang L, Zhang L, Zhang W, Li L, et al. Large urban-rural disparity in the severity of two-week illness: updated results based on the first health service survey of Hunan Province, China. International journal for equity in health. 2016;15:37. Epub 2016/03/02. pmid:26926446; PubMed Central PMCID: PMCPmc4772339.
- View Article
- PubMed/NCBI
- Google Scholar
22. Gao ZF, Qiao H, Li Y, Li JP. Analysis of the two-week prevalence and influence factors of rural residents in in five counties of Ningxia Province (in Chinese). Chinese Journal of Health Statistics. 2016;33(5):800–802.
- View Article
- Google Scholar
23. Chen L. Health status and its influencing factors in a community population in Yuzhong District of Chongqing. Master thesis. Chongqing: Third Military Medical University (in Chinese). 2016.
24. Chen CM. Overview of obesity in Mainland China. Obesity reviews: an official journal of the International Association for the Study of Obesity. 2008;9(Suppl 1):14–21. Epub 2008/03/01. pmid:18307694.
- View Article
- PubMed/NCBI
- Google Scholar
25. Center for Health Statistics and Information, the Ministry of Health of China. Report of National Health Services Survey in China, 2008: The Fourth National Household Health Interview Survey. Beijing: Peking Union Medical Press; 2009.
26. Gong YL. Health service reasearch. 1st ed. Shanghai: Fudan University Press; 2002.
27. YC C, HR R, L F, B M. Use of a clustered model to identify factors affecting hospital length of stay. Journal of clinical epidemiology. 1999;52:1031–1036. pmid:10526996.
- View Article
- PubMed/NCBI
- Google Scholar
28. Nagelkerke NJD. A note on a general definition of the coefficient of determination. Biometrika. 1991;78(3):691–692.
- View Article
- Google Scholar
29. He LP, Li XM, Yu Z, Chen Y, Meng Q, Wang J. Analysis of influencing factors of two week prevalence rate among rural residents with different gender in Zhaotong. Chinese Journal of Health Statistics (in Chinese). 2017;34(1):104–105.
- View Article
- Google Scholar
30. Liu SL, Ji Y, Zhang DJ, Shi YH, Chang C. A study on health status and equity of health service utilization among floating population. Health Economics Research (in Chinese). 2018;1:39–42.
- View Article
- Google Scholar
31. Khongsdier R. BMI and morbidity in relation to body composition: a cross-sectional study of a rural community in North-East India. British Journal of Nutrition. 2007;93(1):101–107.
- View Article
- Google Scholar
32. Jing MJ, Wang JJ, Lin WQ, Lei YX, Wang PX. A community-based cross-sectional study of fatigue in middle-aged and elderly women. J Psychosom Res. 2015;79(4):288–294. Epub 2015/06/02. pmid:26028605.
- View Article
- PubMed/NCBI
- Google Scholar
33. Hastie CE, Padmanabhan S, Slack R, Pell AC, Oldroyd KG, Flapan AD, et al. Obesity paradox in a cohort of 4880 consecutive patients undergoing percutaneous coronary intervention. European heart journal. 2010;31(2):222–226. Epub 2009/08/19. pmid:19687163.
- View Article
- PubMed/NCBI
- Google Scholar
34. Huang X, Yang H, Wang HH, Qiu Y, Lai X, Zhou Z, et al. The Association Between Physical Activity, Mental Status, and Social and Family Support with Five Major Non-Communicable Chronic Diseases Among Elderly People: A Cross-Sectional Study of a Rural Population in Southern China. Int J Environ Res Public Health. 2015;12(10):13209–13223. Epub 2015/10/28. pmid:26506364; PubMed Central PMCID: PMCPmc4627026.
- View Article
- PubMed/NCBI
- Google Scholar
35. Song T, Ding YW, Sun Y, He YN, Qi DJ, Wu Y, et al. A population-based study on health-related quality of life among urban community residents in Shenyang, Northeast of China. BMC Public Health. 2015;15:921. Epub 2015/09/21. pmid:26386951; PubMed Central PMCID: PMCPmc4575423.
- View Article
- PubMed/NCBI
- Google Scholar
36. Zhu CY, Wang JJ, Fu XH, Zhou ZH, Zhao J, Wang CX. Correlates of quality of life in China rural-urban female migrate workers. Quality of life research: an international journal of quality of life aspects of treatment, care and rehabilitation. 2012;21(3):495–503. pmid:21695594.
- View Article
- PubMed/NCBI
- Google Scholar
37. Barcelos-Ferreira R, Nakano EY, Steffens DC, Bottino CM. Quality of life and physical activity associated to lower prevalence of depression in community-dwelling elderly subjects from Sao Paulo. Journal of affective disorders. 2013;150(2):616–622. Epub 2013/03/19. pmid:23499164.
- View Article
- PubMed/NCBI
- Google Scholar
38. Salguero A, Martinez-Garcia R, Molinero O, Marquez S. Physical activity, quality of life and symptoms of depression in community-dwelling and institutionalized older adults. Archives of gerontology and geriatrics. 2011;53(2):152–157. Epub 2010/11/03. pmid:21035206.
- View Article
- PubMed/NCBI
- Google Scholar
39. Wen J, Shi YK, Li YP, Yuan P, Wang F. Quality of life, physical diseases, and psychological impairment among survivors 3 years after Wenchuan earthquake: a population based survey. PLoS One. 2012;7(8):e43081. Epub 2012/09/01. pmid:22937014; PubMed Central PMCID: PMCPmc3427990.
- View Article
- PubMed/NCBI
- Google Scholar

[ref1] 1. Ng M, Fleming T, Robinson M, Thomson B, Graetz N, Margono C, et al. Global, regional, and national prevalence of overweight and obesity in children and adults during 1980–2013: a systematic analysis for the Global Burden of Disease Study 2013. Lancet. 2014;384(9945):766–781. pmid:24880830.
View Article
PubMed/NCBI
Google Scholar

[2] View Article

[3] PubMed/NCBI

[4] Google Scholar

[ref2] 2. WHO Global status report on noncommunicable diseases 2014. http://www.who.int/nmh/publications/ncd-status-report-2014/en/. Accessed March 29, 2018.

[ref3] 3. Di CM, Bentham J, Stevens GA, Zhou B, Danaei G, Lu Y, et al. Trends in adult body-mass index in 200 countries from 1975 to 2014: a pooled analysis of 1698 population-based measurement studies with 19Â·2 million participants. Lancet. 2016;387(10026):1377–1396. pmid:27115820.
View Article
PubMed/NCBI
Google Scholar

[7] View Article

[8] PubMed/NCBI

[9] Google Scholar

[ref4] 4. Hajek A, Lehnert T, Ernst A, Lange C, Wiese B, Prokein J, et al. Prevalence and determinants of overweight and obesity in old age in Germany. Bmc Geriatrics. 2015;15(1):83. pmid:26170016.
View Article
PubMed/NCBI
Google Scholar

[11] View Article

[12] PubMed/NCBI

[13] Google Scholar

[ref5] 5. Korpela K, Roos E, Lallukka T, Rahkonen O, Lahelma E, Laaksonen M. Different measures of body weight as predictors of sickness absence. Scandinavian Journal of Public Health. 2013;41(1):25–31. pmid:23221374.
View Article
PubMed/NCBI
Google Scholar

[15] View Article

[16] PubMed/NCBI

[17] Google Scholar

[ref6] 6. Roos E, Laaksonen M, Rahkonen O, Lahelma E, Lallukka T. Weight change and sickness absence—a prospective study among middle-aged employees. Eur J Public Health. 2015;25(2):263–267. pmid:24997201.
View Article
PubMed/NCBI
Google Scholar

[19] View Article

[20] PubMed/NCBI

[21] Google Scholar

[ref7] 7. Roos E, Lallukka T, Lahelma E, Rahkonen O. The joint associations of smoking and obesity with subsequent short and long sickness absence: a five year follow-up study with register-linkage. BMC Public Health. 2017;17(1):978. Epub 2017/12/29. pmid:29282110; PubMed Central PMCID: PMCPmc5745910.
View Article
PubMed/NCBI
Google Scholar

[23] View Article

[24] PubMed/NCBI

[25] Google Scholar

[ref8] 8. Ferrie JE, Head J, Shipley MJ, Vahtera J, Marmot MG, Kivimäki M. BMI, obesity, and sickness absence in the Whitehall II study. Obesity. 2012;15(6):1554–1564. pmid:17557993.
View Article
PubMed/NCBI
Google Scholar

[27] View Article

[28] PubMed/NCBI

[29] Google Scholar

[ref9] 9. Zhu YB, Luo XX, Wang Q. A study on the realationship between body mass index and health-reated quality of life in middle-aged or older Chinese adults. Chin J Epidemiol. 2009;30(7):687–691. PubMed PMID: 29282110; PubMed Central PMCID: PMCPMC5745910.
View Article
Google Scholar

[31] View Article

[32] Google Scholar

[ref10] 10. Rossi AP, Bianchi L, Volpato S, Bandinelli S, Guralnik J, Zamboni M, et al. Dynapenic Abdominal Obesity as a Predictor of Worsening Disability, Hospitalization, and Mortality in Older Adults: Results From the InCHIANTI Study. J Gerontol A Biol Sci(Med Sci). 2017;72(8):1098–1104. Epub 2017/03/23. pmid:28329134; PubMed Central PMCID: PMCPmc5861871.
View Article
PubMed/NCBI
Google Scholar

[34] View Article

[35] PubMed/NCBI

[36] Google Scholar

[ref11] 11. Moore SC, Mayne ST, Graubard BI, Schatzkin A, Albanes D, Schairer C, et al. Past body mass index and risk of mortality among women. International Journal of Obesity. 2008;32(5):730–739. pmid:18209736.
View Article
PubMed/NCBI
Google Scholar

[38] View Article

[39] PubMed/NCBI

[40] Google Scholar

[ref12] 12. Wardell S, Wall A, Bryce R, Gjevre J, Laframboise K, Reid JK. The association between obesity and outcomes in critically ill patients. Canadian Respiratory Journal Journal of the Canadian Thoracic Society. 2016;22(1):23–30. pmid:25379653.
View Article
PubMed/NCBI
Google Scholar

[42] View Article

[43] PubMed/NCBI

[44] Google Scholar

[ref13] 13. Adams KF, Schatzkin A, Harris TB, Kipnis V, Mouw T, Ballard-Barbash R, et al. Overweight, obesity, and mortality in a large prospective cohort of persons 50 to 71 years old. The New England journal of medicine. 2006;355(8):763–778. Epub 2006/08/24. pmid:16926275.
View Article
PubMed/NCBI
Google Scholar

[46] View Article

[47] PubMed/NCBI

[48] Google Scholar

[ref14] 14. Qin X, Pan J. The Medical Cost Attributable to Obesity and Overweight in China: Estimation Based on Longitudinal Surveys. Health economics. 2016;25(10):1291–1311. pmid:26223895.
View Article
PubMed/NCBI
Google Scholar

[50] View Article

[51] PubMed/NCBI

[52] Google Scholar

[ref15] 15. Zhao W, Zhai Y, Hu J, Wang J, Yang Z, Kong L, et al. Economic burden of obesity-related chronic diseases in Mainland China. Obesity Reviews. 2008;9(Suppl s1):62–67. pmid:18307701.
View Article
PubMed/NCBI
Google Scholar

[54] View Article

[55] PubMed/NCBI

[56] Google Scholar

[ref16] 16. Gazmararian JA, Frisvold D, Zhang K, Koplan JP. Obesity is associated with an increase in pharmaceutical expenses among university employees. Journal of obesity. 2015;2015:298698. Epub 2015/03/06. pmid:25741444; PubMed Central PMCID: PMCPmc4337045.
View Article
PubMed/NCBI
Google Scholar

[58] View Article

[59] PubMed/NCBI

[60] Google Scholar

[ref17] 17. Mao Y, Xu F, Zhang MJ, Liu JL, Yang J, Wang MJ, et al. Equity of health service utilization of urban residents: data from a western Chinese city. Chin Med J (Engl). 2013;126(13):2510–2516. Epub 2013/07/05. pmid:23823826.
View Article
PubMed/NCBI
Google Scholar

[62] View Article

[63] PubMed/NCBI

[64] Google Scholar

[ref18] 18. Chen J, Yu KM, Jin T, Ye JJ. Influencing factors of two- week prevalence rate among residents in Shangcheng District of Hangzhou. Chinese medicine and clinic (in Chinese). 2016;16(11):1573–1575.
View Article
Google Scholar

[66] View Article

[67] Google Scholar

[ref19] 19. Xu LT, Du XP, Sun YL. Factors associated with two week prevalence rate among community residents in Yue Tan. Chinese community physician (in Chinese). 2016;32(22):184–185.
View Article
Google Scholar

[69] View Article

[70] Google Scholar

[ref20] 20. Lin YY, Zhang SC, Wu J, Zeng XZ, Yang TT, Yin XX, et al. Factors associated with two week prevalence rate among adults aged 15 years or above in Shenzhen. Journal of Public Health and Preventive Medicine (in Chinese). 2017;28(3):133–135.
View Article
Google Scholar

[72] View Article

[73] Google Scholar

[ref21] 21. Tian D, Sun L, Zhang L, Zhang L, Zhang W, Li L, et al. Large urban-rural disparity in the severity of two-week illness: updated results based on the first health service survey of Hunan Province, China. International journal for equity in health. 2016;15:37. Epub 2016/03/02. pmid:26926446; PubMed Central PMCID: PMCPmc4772339.
View Article
PubMed/NCBI
Google Scholar

[75] View Article

[76] PubMed/NCBI

[77] Google Scholar

[ref22] 22. Gao ZF, Qiao H, Li Y, Li JP. Analysis of the two-week prevalence and influence factors of rural residents in in five counties of Ningxia Province (in Chinese). Chinese Journal of Health Statistics. 2016;33(5):800–802.
View Article
Google Scholar

[79] View Article

[80] Google Scholar

[ref23] 23. Chen L. Health status and its influencing factors in a community population in Yuzhong District of Chongqing. Master thesis. Chongqing: Third Military Medical University (in Chinese). 2016.

[ref24] 24. Chen CM. Overview of obesity in Mainland China. Obesity reviews: an official journal of the International Association for the Study of Obesity. 2008;9(Suppl 1):14–21. Epub 2008/03/01. pmid:18307694.
View Article
PubMed/NCBI
Google Scholar

[83] View Article

[84] PubMed/NCBI

[85] Google Scholar

[ref25] 25. Center for Health Statistics and Information, the Ministry of Health of China. Report of National Health Services Survey in China, 2008: The Fourth National Household Health Interview Survey. Beijing: Peking Union Medical Press; 2009.

[ref26] 26. Gong YL. Health service reasearch. 1st ed. Shanghai: Fudan University Press; 2002.

[ref27] 27. YC C, HR R, L F, B M. Use of a clustered model to identify factors affecting hospital length of stay. Journal of clinical epidemiology. 1999;52:1031–1036. pmid:10526996.
View Article
PubMed/NCBI
Google Scholar

[89] View Article

[90] PubMed/NCBI

[91] Google Scholar

[ref28] 28. Nagelkerke NJD. A note on a general definition of the coefficient of determination. Biometrika. 1991;78(3):691–692.
View Article
Google Scholar

[93] View Article

[94] Google Scholar

[ref29] 29. He LP, Li XM, Yu Z, Chen Y, Meng Q, Wang J. Analysis of influencing factors of two week prevalence rate among rural residents with different gender in Zhaotong. Chinese Journal of Health Statistics (in Chinese). 2017;34(1):104–105.
View Article
Google Scholar

[96] View Article

[97] Google Scholar

[ref30] 30. Liu SL, Ji Y, Zhang DJ, Shi YH, Chang C. A study on health status and equity of health service utilization among floating population. Health Economics Research (in Chinese). 2018;1:39–42.
View Article
Google Scholar

[99] View Article

[100] Google Scholar

[ref31] 31. Khongsdier R. BMI and morbidity in relation to body composition: a cross-sectional study of a rural community in North-East India. British Journal of Nutrition. 2007;93(1):101–107.
View Article
Google Scholar

[102] View Article

[103] Google Scholar

[ref32] 32. Jing MJ, Wang JJ, Lin WQ, Lei YX, Wang PX. A community-based cross-sectional study of fatigue in middle-aged and elderly women. J Psychosom Res. 2015;79(4):288–294. Epub 2015/06/02. pmid:26028605.
View Article
PubMed/NCBI
Google Scholar

[105] View Article

[106] PubMed/NCBI

[107] Google Scholar

[ref33] 33. Hastie CE, Padmanabhan S, Slack R, Pell AC, Oldroyd KG, Flapan AD, et al. Obesity paradox in a cohort of 4880 consecutive patients undergoing percutaneous coronary intervention. European heart journal. 2010;31(2):222–226. Epub 2009/08/19. pmid:19687163.
View Article
PubMed/NCBI
Google Scholar

[109] View Article

[110] PubMed/NCBI

[111] Google Scholar

[ref34] 34. Huang X, Yang H, Wang HH, Qiu Y, Lai X, Zhou Z, et al. The Association Between Physical Activity, Mental Status, and Social and Family Support with Five Major Non-Communicable Chronic Diseases Among Elderly People: A Cross-Sectional Study of a Rural Population in Southern China. Int J Environ Res Public Health. 2015;12(10):13209–13223. Epub 2015/10/28. pmid:26506364; PubMed Central PMCID: PMCPmc4627026.
View Article
PubMed/NCBI
Google Scholar

[113] View Article

[114] PubMed/NCBI

[115] Google Scholar

[ref35] 35. Song T, Ding YW, Sun Y, He YN, Qi DJ, Wu Y, et al. A population-based study on health-related quality of life among urban community residents in Shenyang, Northeast of China. BMC Public Health. 2015;15:921. Epub 2015/09/21. pmid:26386951; PubMed Central PMCID: PMCPmc4575423.
View Article
PubMed/NCBI
Google Scholar

[117] View Article

[118] PubMed/NCBI

[119] Google Scholar

[ref36] 36. Zhu CY, Wang JJ, Fu XH, Zhou ZH, Zhao J, Wang CX. Correlates of quality of life in China rural-urban female migrate workers. Quality of life research: an international journal of quality of life aspects of treatment, care and rehabilitation. 2012;21(3):495–503. pmid:21695594.
View Article
PubMed/NCBI
Google Scholar

[121] View Article

[122] PubMed/NCBI

[123] Google Scholar

[ref37] 37. Barcelos-Ferreira R, Nakano EY, Steffens DC, Bottino CM. Quality of life and physical activity associated to lower prevalence of depression in community-dwelling elderly subjects from Sao Paulo. Journal of affective disorders. 2013;150(2):616–622. Epub 2013/03/19. pmid:23499164.
View Article
PubMed/NCBI
Google Scholar

[125] View Article

[126] PubMed/NCBI

[127] Google Scholar

[ref38] 38. Salguero A, Martinez-Garcia R, Molinero O, Marquez S. Physical activity, quality of life and symptoms of depression in community-dwelling and institutionalized older adults. Archives of gerontology and geriatrics. 2011;53(2):152–157. Epub 2010/11/03. pmid:21035206.
View Article
PubMed/NCBI
Google Scholar

[129] View Article

[130] PubMed/NCBI

[131] Google Scholar

[ref39] 39. Wen J, Shi YK, Li YP, Yuan P, Wang F. Quality of life, physical diseases, and psychological impairment among survivors 3 years after Wenchuan earthquake: a population based survey. PLoS One. 2012;7(8):e43081. Epub 2012/09/01. pmid:22937014; PubMed Central PMCID: PMCPmc3427990.
View Article
PubMed/NCBI
Google Scholar

[133] View Article

[134] PubMed/NCBI

[135] Google Scholar

Figures

Abstract

Objectives

Methods

Results

Conclusions

Introduction

Materials and methods

Study design and participants

Procedures

Ethics statement

Measurements

Socio-demographic characteristics.

Health-related variables.

BMI.

Dependent variables.

Data analysis

Results

Participant characteristics

Two-week morbidity and BMI

Determinants of two-week morbidity

Discussion

Main findings

Comparison with previous studies

Conclusions

Supporting information

S1 Dataset. Association between obesity and sickness in the past two weeks among middle-aged and elderly women.

S1 Questionnaire. Community diagnostic questionnaire.

Acknowledgments

References