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Keiko Honda, PhD, MPH

The author is with the Department of Epidemiology, Columbia University, New York City.

Correspondence: Requests for reprints should be sent to Keiko Honda, PhD, MPH, Columbia University, 722 E 168th St, Room 719, New York, NY 10032 (e-mail: kh2086{at}columbia.edu).

	ABSTRACT

TOP ABSTRACT INTRODUCTION METHODS STATISTICAL ANALYSIS RESULTS DISCUSSION References

 

Objectives. The author examined the prevalence and predictors of colorectal cancer screening among the urban Japanese population of the United States.

Methods. A sample of Japanese residents of major US metropolitan areas completed a self-administered mailed survey.

Results. Physician recommendation, acculturation, and perceived psychological costs were consistent predictors of screening for colorectal cancer. Gender and marital status were related to screening via fecal occult blood testing; age, susceptibility, and health insurance were related to sigmoidoscopy/colonoscopy screening.

Conclusions. Colorectal cancer screening among the urban Japanese population could be increased with interventions seeking to promote physician recommendations for screening, alleviate perceived psychological costs among patients, and improve physician–patient communication.

	INTRODUCTION

TOP ABSTRACT INTRODUCTION METHODS STATISTICAL ANALYSIS RESULTS DISCUSSION References

 
How should disease prevention strategies be organized in a heterogeneous society in which disease incidence rates vary among different groups? How are factors associated with screening among specific ethnic groups in the United States different from those among the broader population identified in the literature? In this article, I examine these questions with respect to colorectal cancer (CRC) and CRC screening among Japanese Americans.

The incidence of CRC among Japanese Americans exceeds the rate among nonHispanic Whites¹; US Japanese men rank after only Alaska Native men in terms of age-adjusted race- and gender-specific CRC incidence rates, and US Japanese women rank third, after Alaska Native and African American women.² CRC rates have also increased in Japan, which now has an incidence equivalent to that of the United States.^3,4

Several epidemiological studies suggest that the higher genetic predisposition to CRC among the US Japanese population—through, for example, the fast acetylator genotype coupled with Western dietary patterns, including a diet high in red meat—may explain in part the increased CRC incidence rates in Japanese immigrants and their descendants.^5,6 There is growing evidence linking other factors such as socioeconomic status (SES) and screening access to the differing rates of CRC among multiethnic US populations,^7–9 but the mechanism by which different factors interact to increase risk is unknown.

Stage at diagnosis is one of the most important prognostic factors for CRC survival; administering appropriate screening tests is important for improved cancer outcomes.¹ Despite the elevated CRC incidence among Japanese Americans, no published information is available regarding CRC screening behavior in this group, which now represents 0.3% of the US population.¹⁰ Results gathered from the 1997 Behavioral Risk Factor Surveillance System (BRFSS)¹¹ questionnaire indicated that Asian American/Pacific Islanders (AAPIs) 50 years and older were half as likely as non-Hispanic White respondents to have had a fecal occult blood test (FOBT) during the preceding year (11.5% vs 20.1%). Similarly, after adjustment for SES and other health care indicators, a multiethnic population study showed underuse of CRC screening among AAPIs aged 50 to 64 years.¹²

Lee-Feldstein et al¹³ examined factors related to CRC mortality in a group of 1329 multiethnic Medicare patients from a single geographic area and found that AAPIs experienced significantly greater CRC mortality than did White patients after adjustment for stage at diagnosis, tumor location, hospital type, type of health insurance, and sociodemographic indicators. These authors did not discuss differences in genetic predisposition to CRC or rates of CRC screening among AAPIs, and thus unmeasured cultural attributes may have contributed to the increased risks observed.

Few cross-sectional studies^14–17 have attempted to disentangle the underlying attributes accounting for differences in CRC screening rates among certain Asian subgroups, but some have indicated that greater acculturation, increased physician recommendation, and higher SES are significantly associated with increased screening rates. However, results are difficult to interpret because these studies have relied on different measures of acculturation and CRC screening behavior. Given the great diversity within AAPI communities with respect to historical, cultural, linguistic, and socioeconomic characteristics,¹⁸ it is unknown whether these findings can be generalized to Japanese Americans. Furthermore, the fact that CRC incidence rates among Japanese men and women between the ages of 30 and 54 years have been shown to be 18% and 42% higher, respectively, than rates among US non-Hispanic White men and women¹ in the same age group suggests that health education and community outreach efforts should be extended to younger age groups.

Andersen’s model of health care utilization^19,20 has been widely used to identify priority areas of intervention for improving the use of CRC screening. For example, some studies have examined the effects of health insurance or urban/rural residence on detection of CRC and linked lack of insurance or rural area of residence to late-stage diagnosis.^21,22 Andersen included measures of individual health risks as well as a range of other measures that influence health behavior^23–26 and grouped these factors into 3 categories: predisposing, enabling, and need related. In some of the cross-sectional studies^27–29 explicitly applying Andersen’s model, the pattern of results has been consistent: health insurance coverage, urban/rural residence, regular access to care, and availability of medical providers appear to be important predictors of various cancer screening behaviors and access to primary care.

Whether investigated in isolation or as part of a behavioral theory (i.e., the Health Belief Model [HBM]³⁰ or other models of behavioral change), some health beliefs, such as perceived susceptibility to CRC and perceived barriers to CRC screening, have shown consistent correlations with CRC screening participation or intention.^31–37 The same is true of physician recommendations to undergo screening. In this study, I drew on Andersen’s model to evaluate associations between probable correlates of screening and CRC screening participation among US Japanese residents 30 years and older.

	METHODS

TOP ABSTRACT INTRODUCTION METHODS STATISTICAL ANALYSIS RESULTS DISCUSSION References

 
Sample and Design
I conducted a cross-sectional survey study by mail between June and August 2001 using 2-stage equal size cluster sampling to obtain a random sample of US Japanese residents, more than 90% of whom live in urban areas.³⁸ The sample used was obtained from a commercially available mailing list of Japanese residents in which information on state, city, and zip code of residence, but not gender, was available for extraction. Another publicly available Asian American household database³⁹ was used to supplement estimations of numbers of Japanese residents according to age group, state, county, and zip code.

To reduce the effect of certain unmeasured environmental factors, including Japanese community sizes by metropolitan area and state,³⁹ state-level managed care penetration rates in 1996,⁴⁰ and state-specific prevalence rates of CRC screening in 1997,⁴¹ I focused on major metropolitan areas in 4 states: Illinois, Massachusetts, New Jersey, and Washington. These 4 states were similar in terms of the environmental factors just mentioned. In the primary stage of sampling, I selected a random sample of 20 zip codes from the selected metropolitan areas. Then from this randomly selected sample, I selected 800 names of individuals based on a targeted sample size of 360, an expected return rate of 50%, and 5% sampling error.⁴²

Eligible participants were those 30 years and older who could read and comprehend Japanese and/or English and had never been diagnosed with CRC. My use of the total design survey method⁴³ allowed participation to be completely anonymous and voluntary. The survey instrument was developed in English, translated into Japanese, back-translated, reconciled, and pilot tested for refinement. Accompanying the bilingual questionnaire was a self-addressed, stamped return envelope; an introductory letter; and a prestamped postcard with an identification number linked to the respondent’s name. A reminder postcard was sent to all recipients of the original mailing 1 week later. Second and third follow-up mailings were sent to nonrespondents 3 weeks and 7 weeks after the original mailing.

Variables of Interest
The dependent variables assessed were 2 types of CRC screening practices—fecal occult blood tests (FOBTs) and sigmoidoscopy/colonoscopy—concordant with the current clinical practice guidelines of the American Cancer Society (ACS).⁴⁴ These variables were modeled on similar variables used in the 1999 BRFSS questionnaire.⁴⁵ The independent variables included were selected because of their congruence with the models used (i.e., the HBM³⁰ and Andersen’s model of health care utilization^19,20) and because previous research had related them to CRC screening behaviors among members of ethnic minority groups.⁴⁶ These variables were grouped into the following components: predisposing, enabling, and need related.

The predisposing component includes sociodemographic characteristics and health beliefs, factors that exist before the onset of an illness or need for health care.^19,20 The predisposing factors assessed in this study were age, gender, education, marital status, acculturation status (as measured via self-estimated English-language skills on a 5-point Likert scale), family history of CRC, perceived susceptibility, perceived benefits of screening, and perceived psychological costs of screening (fear, embarrassment, and concerns about discomfort).

While measures of acculturation that focus only on communication resources appear to have an advantage over broader measures of acculturation,^47–49 I favored the selection of English-language skills as a single measure of acculturation, given the strong linear relationship in the present sample between this attribute and length of residence in the United States (Pearson r = .73, P < .01). I adapted items concerning health beliefs from the Health Belief Scales^50–52 and modified them to measure perceived susceptibility to, benefits of, and psychological costs of CRC screening.

The enabling component reflects an individual’s means for securing needed health services through personal and/or community resources.^19,20 I included, in this category, health insurance coverage, usual source of care, and social support. I adapted items concerning social support from a single-dimension social support scale⁵³ that had previously been used in a study of breast cancer screening behavior.⁵⁴

The presence of predisposing and enabling determinants is a necessary condition for the use of health services, but their presence is not sufficient absent a perceived or evaluated need.^19,20 The need-related factors assessed in the present study were self-rated presence and intensity of gastrointestinal symptoms (according to the index described in Table 1) and physician recommendation for CRC screening.

	STATISTICAL ANALYSIS

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Standard diagnostic techniques were used to test for multicollinearity, and the model performed favorably. Missing data for some demographic and composite measures were imputed with the median value, given that fewer than 2% of cases involved such missing data. Assessments of the influence of cluster sampling illustrated that the intraclass correlation coefficient for the main dependent variable (i.e., CRC screening) was small (0.015), indicating that adjustment of the analyses for within-cluster correlation would not add new information.⁵⁵

	RESULTS

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Of the 800 surveys originally mailed, 82 (10%) were returned as undeliverable; 318 completed surveys were returned (a 44% response rate), of which 12 (4%) were deemed unusable because they did not meet inclusion criteria. Of the 318 individuals who returned completed surveys, 177 (56%) had an increased risk of developing CRC as a consequence of their age or medical risks (as defined by ACS⁴⁴). The demographic distribution of the study sample was similar to the distribution of a 1% national random sample of the US Japanese population 30 years and older³⁸ in terms of age and marital status but not gender and education. In comparison with this random sample, the present sample included more men and was better educated (Table 1).

Screening Prevalence and Bivariate Analyses
Overall, 37% of the sample reported having undergone an FOBT in the past 2 years, and 26% reported having undergone a sigmoidoscopy/colonoscopy in the past 5 years. About 90% of FOBT and 75% of sigmoidoscopy/colonoscopy visits were reported as screening rather than diagnostic events. In the case of both types of screening, prevalence rates by age group sharply increased after 60 years but decreased after 80 years (Table 2).

To allow a more meaningful generalization, I regrouped English-language proficiency (as measured on the self-rated 5-point Likert scale) into 2 categories (speaks English only or speaks English more proficiently than Japanese vs speaks limited English) and entered this variable in the multivariate model. Health belief variables (perceived susceptibility, perceived benefits, and perceived costs), as measured again on a self-rated 5-point Likert scale, were regrouped into 3 categories—low (a rating of strongly disagree or disagree), medium (neither agree nor disagree), and high (strongly agree or agree)—and entered in the multivariate model.

Multivariate Analyses
The results of the final multiple logistic regression analysis (n = 305) are presented in Tables 3 and 4. Physician recommendation, greater acculturation levels, and low perceived costs had independent effects on participation in both FOBT and sigmoidoscopy/colonoscopy screening in multivariate analyses; however, the magnitudes of these effects were larger for sigmoidoscopy/colonoscopy than for FOBT.

	DISCUSSION

TOP ABSTRACT INTRODUCTION METHODS STATISTICAL ANALYSIS RESULTS DISCUSSION References

 
This study provides the first population-based estimates and independent correlates of CRC screening behavior among Japanese residents of the United States. On balance, the present findings are consistent with some of the results of previous research focusing on CRC screening behavior, supporting the inclusion of key elements from the HBM³⁰ and Andersen’s model.^19,20 A strong relationship between physician recommendation and CRC screening behavior was evident in this population, in agreement with other studies describing the substantial explanatory power of physician recommendation.^31,33,34 While the strikingly large effect of physician recommendation on CRC screening behavior supports physician persuasion as the most effective means of promoting screening among this population, the question of what can be done to maximize opportunities for physician recommendation needs careful examination.

The subgroup analysis of respondents with elevated risk of CRC (n = 177) as a consequence of older age or personal medical history revealed that the majority (63%) reported never having received advice from a physician, even though an overwhelming majority (84%) of the sample had regular access to medical care. This result demonstrates that regular access to a physician among high-risk individuals does not ensure a screening recommendation from that physician. A study of English-speaking patients with CRC⁵⁶ showed poor communication regarding familial CRC risk and need for screening not only between physicians and patients but also between patients and their at-risk relatives, substantiating the need for innovative efforts in communicating personal risks, particularly among higher risk populations.

Communication between physicians and patients regarding cancer risk is often shaped by individual cultural norms. A cross-national study⁵⁷ showed that 80% of US physicians and patients agreed that doctors should inform their patients of their cancer diagnosis and should allow them to decide whether their family should be told, whereas high percentages of Japanese physicians (80%) and Japanese patients (65%) agreed that doctors should inform patients’ family members of the diagnosis and should allow them to decide whether the patients themselves should be told. Similarly, a cross-cultural survey involving Japanese American and Japanese respondents⁵⁸ documented the importance of family involvement in health care decisionmaking irrespective of acculturation status. To encourage effective physician recommendation in this population, cultural aspects of communication about cancer need to be considered.

Acculturation status was also consistently associated with both FOBT and sigmoidoscopy/colonoscopy screening after demographic factors, SES, health insurance coverage, and CRC-specific health beliefs had been controlled (as mentioned earlier, this variable had a larger impact on sigmoidoscopy/colonoscopy screening than on the FOBT). One could speculate that those who speak English proficiently might be more skilled in seeking health information and using the medical system than those who speak limited English, given that a decision to undergo sigmoidoscopy/colonoscopy screening may involve more intensive communication with medical and insurance personnel.

Moreover, as indicated in a prospective cohort study conducted by Tu et al.,⁵⁹ underuse of cancer screening among AAPIs may be due more to linguistic and attitudinal barriers related to acculturation than to financial barriers. Inability or hesitancy to discuss health concerns in one’s nonnative tongue may arguably perpetuate racial/ethnic disparities in CRC screening behavior. It would be helpful not only to make sensitive translations of existing health education materials available for those at a low level of English-language proficiency but also to explore with such individuals ways to overcome perceived barriers to making an informed screening decision. Thus, interventions leading health care providers to communicate more effectively with nonnative speakers alone could result in a substantial increase in CRC screening compliance rates among immigrant or less acculturated populations.

In terms of outreach efforts, language training for immigrants as well as assertiveness training in regard to medical communication on the part of the patient should be an important public health priority. Additional studies are needed to explore clinical and community resources and policies that might improve communication and accessibility of CRC screening among the Japanese community.

This study also sheds light on the cognitive issues involved in CRC screening behavior. Perceived susceptibility and psychological costs were strongly associated with sigmoidoscopy/colonoscopy screening in the adjusted model. Given the better accuracy and more invasive nature of sigmoidoscopy/colonoscopy relative to FOBT, it is plausible that the decision to undergo sigmoidoscopy/colonoscopy screening is prompted by lower psychological costs and greater perceived susceptibility. Such a suggestion is concordant with the results of other studies involving the use of HBM, in which perceived costs were the most reliable predictor of preventive health behavior, followed by perceived susceptibility.^60,61

Among the US Japanese population, failure to undergo screening is probably in part a function of psychological barriers, including fear of discovering cancer, embarrassment, and concerns about discomfort. High levels of psychological distress, including fear and anxiety regarding cancer, have often been found to be associated with avoidance of other types of cancer screening,^62,63 and such beliefs, if not altered, can potentially have far-reaching negative consequences in terms of screening compliance. Further studies assessing the relevance of psychological barriers to CRC screening among underserved populations may prove useful.

Finally, this study also revealed a positive association between commercial health insurance coverage and participation in sigmoidoscopy/colonoscopy screening, suggesting that this type of coverage may increase endoscopic examination rates among the Japanese American population. Although the explanation for this finding is uncertain and merits further exploration, previous studies have suggested that individuals with commercial health insurance coverage are more likely to undergo cancer screening.^12,21

Several limitations of this study should be considered when interpreting the present results. First, the use of a Japanese mailing list as a sampling frame may have produced a biased sample, including limited coverage of the female population. However, given that the US Japanese population is small and geographically dispersed, other options were less practical and more costly.

Second, this study’s reliance on selfreported data may have produced bias. However, a study focusing on concordance between patient self-reports and medical records showed that self-reports of CRC screening behavior were accurate irrespective of age, gender, ethnicity, or family history of CRC.⁶⁴ Third, the data used in this research were cross sectional, and thus it is beyond the present scope to establish causality.

Finally, the 44% response rate raises the issue of nonrespondents’ viewpoints. The distribution of educational background in the present sample indicated self-selection into the survey and an upward bias in education relative to 1990 census data for the Japanese American population as a whole.³⁸ Thus, there is a need for further replication of the findings to verify the associations observed.

In conclusion, strategies aimed at influencing CRC screening among Japanese Americans should include efforts to alter this population’s attitudinal and linguistic barriers in regard to screening, but they must also target primary care physicians and public health educators to identify and address resistance and potential barriers to making screening recommendations. CRC screening rates among members of the present sample who were 50 years and older were much higher than might be expected for AAPIs¹¹ and somewhat similar to the reported rate range for White populations (40%–50%).^34,46,65 While such screening rates appear to meet national goals,⁶⁶ the much higher incidence of CRC among Japanese Americans than among the White population¹—particularly in the case of US-born Japanese men, whose rate is about 60% higher than that of US-born White men⁶—suggests the need for more targeted and aggressive screening strategies for this group.

Active efforts focusing on physician recommendation are likely to have the greatest impact on rates of CRC among Japanese residents of the United States. Improving communication between providers and patients, especially less acculturated patients, would go a long way toward increasing adherence and alleviating potential barriers such as fear and embarrassment or misunderstanding owing to limited English-language proficiency. As our society becomes more diverse, cultural competency will have an increasing impact on CRC screening usage and outcomes.

	Acknowledgments

 
The author is supported by a post-doctoral fellowship from the National Cancer Institute (CA09529). In-kind funding support for this study came in part from the Department of Health Studies of New York University.

The author acknowledges the Japanese respondents, Dr Vivian Clarke, Dr Robert Malgady, Dr Ethel Mitty, and Dr Victor Rodwin of New York University; Dr Mary Foley of Mount Sinai School of Medicine; Dr Akiko Hosler of the State of New York; and Dr Sherri Sheinfeld Gorin of Columbia University.

Human Participant Protection
Ethical clearance for this study was obtained from the institutional review board at New York University. The study design ensured anonymity, and tacit consent was provided by all participants.

	Footnotes

 
Peer Reviewed

Accepted for publication April 8, 2003.

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