Factors Associated with the Use of Uterine Cervical Cancer Screening Services in Korean Elderly Women
Article information
Abstract
Background
The Papanicolaou (Pap) smear test is an effective screening test for the early detection of uterine cervical cancer. The Pap test still plays an important role in Korean elderly women, as uterine cervical cancer remains a frequent form of cancer and an important cause of death. However, the participation rate and other factors related to the Pap test in Korean elderly women have been studied insufficiently.
Methods
This study included 654 individuals aged 65 and over who completed a cervical cancer screening questionnaire from the Third Korean National Health and Nutrition Examination Survey 2005. Using multiple logistic regression, odds ratios and confidence intervals for the association between attendance of the Pap test and sociodemographic or health-related factors were calculated.
Results
One hundred and eleven individuals (17.0%) of the study population showed compliance with Pap testing within the previous 2 years. We recognized that the most elderly women (75 years and over) or those with lower levels of education were less likely to have had the test.
Conclusion
Primary health care providers need to make efforts to improve attendance rates of Pap smear screening in Korean elderly women, individually taking into account previous Pap results, life expectancy, risk factors for cervical cancer, and preferences. More attention will especially be needed among the eldest elderly or less educated elderly women.
INTRODUCTION
Although uterine cervical cancer in Korea in the past occurred most frequently in women, its incidence and mortality rates have been steadily declining.1) However, uterine cervical cancer remains a frequent form of cancer and an important cause of death.1) There are no obvious early symptoms of uterine cervical cancer, the process through precancerous steps of 7 to 20 years to uterine cervical cancer is relatively slow compared to other carcinomas, and patients with a low International Federation of Gynecology and Obstetrics stage at the time of diagnosis can expect a good prognosis.2) For instance, while the five-year survival rate for early invasive cancer (IA, IB, IIA) is 80% to 90%, clinical outcome in the case of advanced cancer (IIB, III, IV) is poor.2) For these reasons, the Papanicolaou (Pap) smear test has been proven a very useful and effective tool that reduces mortality through early diagnosis.2-4) In addition, the Pap test is relatively easy, cheap, and correct. In a meta-analysis, a sensitivity of 30% to 87% and specificity of 86% to 100% for the Pap smear test were reported.5) Accordingly, Pap smear screening is included in national cancer screening programs of many countries. In Korea, a biennial Pap smear as a part of the National Cancer Screening Program (NCSP) is recommended for women aged 30 years old and over.6) However, worldwide consensus about the starting period, interval, and the ending period has not been reached. The American Cancer Society, the American College of Obstetricians and Gynecologists, the US Preventive Services Task Force, and the American Academy of Family Physicians, recommend that women start Pap testing at 21 years of age or within 3 years after one's first sexual experience, and get screened every 1 to 3 years, while the interval can be increased after 30 years of age if the test results are normal three times.7-10) The above American academies and organizations also suggest that discontinuation of the Pap test could be considered only if the consecutive test results are normal among women aged 65 and older.
Although Pap smear screening rates in our country are increasing, they are still at low levels compared to many developed countries where cancer screening programs have been well established.11) Given this reality, it is necessary to increase Pap smear screening rates and determine related factors with Pap tests. There were previous studies of Pap smear screening rates and associated factors in particular regions or hospitals.12,13) However, there was no nationally representative study specific to the elderly population. This study aimed to examine attendance rates of the Pap smear as a uterine cervical cancer screening method and associated factors among elderly women aged 65 years and older, using the Third Korean National Health and Nutrition Examination Survey 2005 (KNHANES III).
METHODS
1. Study Population
The KNHANES is carried out to identify public health and related factors comprehensively in accordance with the National Health Promotion Law enacted in 1995. The survey collects a nationally representative probability sample. The third survey was conducted in April to June, 2005. The survey consisted of the Health Interview Survey, the Health Behavior Survey, the Nutrition Survey, and the Health Examination Survey. The previous studies14,15) introduced research methods of this survey in detail.
We performed cross-sectional analyses of data from 2,242 women aged 65 years and older. Among them, 668 women responded to the question about the last time of a Pap test. After excluding 14 people who had hysterectomy, 654 women were eligible for our analyses.
2. Variables
Subjects were asked the question "When was the last time you had a Pap test?" with possible responses of "never", "< 1 year ago", "1 year or longer and less than 2 years ago", and "≥ 2 years ago". Women who had undergone a Pap test less than 2 years ago were considered as having received uterine cervical cancer screening. This was based on screening recommendations from the Korean National Cancer Screening Program.6)
We collected information about sociodemographic factors and health-related factors (health status and health risk factors) from self-administered questionnaires and health examination results. We assessed variables in relation to sociodemographic factors as follows. Subjects were categorized into three groups by age: age 65-69, 70-74, and ≥ 75 years. Marital status was dichotomized as living with or without spouse (unmarried, widowed, or divorced). Residential area was classed as urban (neighborhoods) or rural (towns/townships) area. Household income was calculated by dividing the household monthly income by the square root of the household size (equivalent income),16) and was categorized into tertiles. Education level was divided into uneducated, elementary school, middle school, or higher, considering that study subjects were elderly women. We compared individuals with national health insurance (NHI) and those without NHI (receiving Medicaid or without medical security). Also, two groups were made according to registration of private health insurance (PHI). Each variable of health-related factors (health status and health risk factors) was also divided as follows. Self-reported health was assessed with the question, "How is your subjective health status in general?" Women with "very poor" or "poor" health status were defined as "unhealthy" and those with "fair," "good," or "excellent" health status were designated as "healthy." The question, "Are you registered as disabled on the Korean National Disability Registry?" was used to classify the study sample into dichotomous groups about the presence of disabilities. Subjects who had a history of chronic diseases such as hypertension or diabetes were classified as having comorbidity. Life-time smokers included respondents who reported that they had smoked at least 100 cigarettes (5 pack) in their lifetime. Obesity degree was classified into four groups, as follows: normal weight, 18.5 kg/m2 ≤ BMI < 23.0 kg/m2; underweight, < 18.5 kg/m2; overweight, 23.0 kg/m2 ≤ BMI < 25.0 kg/m2; and obesity, ≥ 25.0 kg/m2.
3. Statistical Analysis
First, descriptive statistics were used to describe the basic characteristics of the study subjects and Pap smear rates. Second, to identify the factors associated with participation in the Pap test, crude odds ratios and 95% confidence intervals were calculated by simple logistic regression analyses. Then, multiple logistic regression analyses were used to identify significant associated factors, with entry method including all variables identified as significantly associated with the Pap test by simple logistic analyses. We analyzed the association estimates with sampling weights to generalize to the entire population aged 65 and older. All statistical tests were two-sided tests with P < 0.05 used as the criterion of statistical significance and performed using STATA ver. 10.0 (Stata Co., College Station, TX, USA).
RESULTS
1. Basic Characteristics of Study Subjects
Characteristics of the study population (n = 654) are summarized in Table 1. The proportion of elderly women aged 65-69, 70-74, and ≥ 75 was 35.5% (n = 232), 30.9% (n = 202), and 33.6% (n = 220), respectively. Four hundred and sixteen (63.6%) were living without spouse and 408 (62.4%) were living in urban areas. Elderly women were divided according to tertiles of adjusted household monthly income: upper tertile ≥ 720 thousand won (n = 204, 31.5%), 350 thousand won ≤ middle tertile < 720 thousand won (n = 227, 35.1%), lower tertile < 350 thousand won (n = 216, 33.4%). Nearly half of the participants had not completed elementary school. 87.0% had NHI and 28.2% had PHI. Self-reported health was reported as unhealthy among 411 women (62.8%). Forty (6.1%) were disabled. Two hundred thirty-two (46.8%) had comorbidities such as hypertension or diabetes. ninety-nine women (15.1%) were lifetime smokers. Of the study population, 25.2% were overweight and 36.3% were obese.
2. Factors Associated with the Use of Uterine Cervical Cancer Screening in Korean Elderly Women
Among 654 elderly women aged 65 years and older, the attendance rate for the Pap test was 17.0% (n = 111). The results of simple logistic analyses are shown in Table 2. Women aged 70-74 (odds ratio [OR], 0.72; 95% confidence interval [CI], 0.46 to 1.14) and 75 and older (OR, 0.17; 95% CI, 0.09 to 0.32) were less likely to undergo Pap tests compared with those in the reference category (65-69 years). In addition, the factors shown to be associated with the use of the Pap test by univariable analysis were living without spouse (OR, 0.54; 95% CI, 0.36 to 0.82) and lifetime smoker (OR, 0.33; 95% CI, 0.15 to 0.73). Meanwhile, women who had graduated from elementary school (OR, 2.74; 95% CI, 1.70 to 4.43) or middle school or higher (OR, 4.07; 95% CI, 2.23 to 7.41) were more likely to receive Pap tests compared with women who had received no formal education. Residential area, income, health insurance, self reported health, disability, comorbidity, and obesity degree were not significantly associated with use of the Pap test in this study.
The variables identified as important by univariable analyses were combined in multiple logistic regression analysis. The results are shown in Table 3. Of the sociodemographic factors, age group was found to be associated with the Pap test. Compared with the reference age group (65-69 years), the adjusted OR (AOR) of the age group (≥ 75) was 0.26 (95% CI, 0.13 to 0.53). There was also a clear trend toward increased rates of the Pap test with higher education levels (elementary school compared to no education: AOR, 1.89; 95% CI, 1.16 to 3.00; middle school or higher compared to no education: AOR, 2.61; 95% CI, 1.27 to 4.33).
DISCUSSION
In summary, we found that the participation rate of Pap smear screening among women aged 65 years and over was only 17.0%, and also found that older age and low education level were independently associated with poor participation in Pap screening, using this national representative household survey. Our study is the first to investigate the factors associated with cervical cancer screening in Korean elderly women.
American academies and organizations suggest that discontinuation of the Pap test could be considered only if the consecutive test results are normal among women aged 65 and older. However, elderly Korean women have lower level of Pap smear screening rates, higher probability of abnormal Pap smears, higher incidence of cervical cancer, and a relatively higher proportion of advanced stage cervical cancer than western elderly women.11,17-19) Accordingly, there is no direct evidence to support discontinuation of Pap screening in older women and consensus recommendations eastablished for the period of the discontinuation do not exist yet. Considering these factors, the proposal to uniformly stop the screening at any age does not seem to be accepted in Korea. Hence, this study included all women aged 65 and over and showed a Pap smear screening rate of 17.0%. This figure is much lower than the 56.9% among women aged 30 years and older, which is a result of the KNHANES III.11) Moreover, the result indicates a very low screening rate, compared to that of western developed countries.20,21) In a Canadian study, 41% of elderly women aged 65 years and over reported ever having had a Pap test within three years.21)
Compared with women 65-69 years of age, women 75 and older significantly had lower rates of screening. This result is not surprising as low participation in older old age is common in other cancer screenings as well. Pap smear screening tolerability may decrease with age. That is, the test could be significantly less comfortable in older patients because of vaginal atrophy and osteoarthritis of the hips. Our results could be explained by these factors. Existing studies showed that women living with a spouse better received the cervical cancer screening than women living without a spouse.12,13,22) It was proposed that women living with a spouse were likely to be more sexually active, therefore consider themselves at higher risk than women without a spouse.12) However, multiple regression analysis presented no differences in Pap smear screening by marital status. This could be due to the fact that subjects over the age of 65 are relatively sexually inactive regardless of marital status. In a Korean study, women in rural areas reported lower rates of screening than those in urban areas.13) In contrast, this study did not find such a difference. Household income was not significantly associated with screening participation. Although some previous studies have reported that income level was positively associated with Pap smear screening,12,23) household income was not significantly associated with screening participation in the present study. Currently, the NCSP has provided free-of-charge Pap screening services to Medical Aid recipients and NHI beneficiaries within the lower 50% income category.24) In addition, the cost of the Pap test in Korea is very low, which could improve the accessibility of this service to low-income individuals. Most earlier studies have suggested that women with a higher level of education were more likely to participate in Pap smear screening.12,13,23,25) In line with previous studies, we also found that higher education was positively associated with Pap test participation. On the other hand, insurance coverage, self reported health, comorbidity, and obesity degree were not associated with the Pap smear screening. The disabled have impaired mobility. Therefore, due to several difficulties such as more time, more assistance, and specialized equipment to complete the screening, it is a well-known fact that women with disabilities receive less Pap smear services.15,26) Meanwhile, disability was found not to be significantly associated with Pap smear in the analysis. As low Pap smear screening rates in the disabled result primarily from mobility problems, women aged 65 and over who, to some extent, already have mobility problems, might not show the difference. Lastly, smoking rates in women are increasing, and women who smoke have increased risk of cervical cancer, and cervical cancer patients who smoke are likely to die earlier.27) Furthermore, women who smoke perceive the dangers of cervical cancer inaccurately and have a less positive attitude and practice toward the Pap screening.28,29) This is a clinically important epidemiologic fact. Fortunately, in this current study, smoking was not associated with the Pap test in the multiple regression analysis, though further research is needed using more data.
This study has several limitations. First, as self-administered questionnaires were used for much of the findings, recall bias leading to possible inaccuracy might occur. Second, this current study did not consider accompanying cervical cancer symptoms, although the cancer screening program is designed for individuals with no associated symptoms. Therefore, there might be some women with symptoms indicative of uterine cervical cancer in the study sample, which is selection bias. Third, information about regular Pap smear screening was not obtained, because women who had a recent Pap test within the last 2 years were considered as receiving uterine cervical cancer screening. For this reason, there could be misclassification bias in terms of regular Pap test participation. Fourth, as our study used the secondary national data, we could not collect information about the associated factors such as past medical history of sexual transmitted disease, knowledge or attitude about screening and uterine cervical cancer vaccination. Future studies should further explore this association using detailed and large data.
In order to increase the rates of Pap testing, primary care physicians are responsible for education of and recommendations for the screening. The results of this current study suggest that more attention will be needed among the eldest elderly or less educated elder women, individually taking into account previous Pap results, life expectancy, risk factors for cervical cancer, and preferences.30)
Notes
No potential conflict of interest relevant to this article was reported.