1 Department of Epidemiology, School of Public Health, University of North Carolina-Chapel Hill, Chapel Hill, NC.
2 Department of Exercise Science, Norman J. Arnold School of Public Health, University of South Carolina, Columbia, SC.
3 Fred Hutchinson Cancer Research Center, Seattle, WA.
4 School of Medicine, University of Nevada, Reno, NV.
5 Department of Health Research and Policy, Division of Epidemiology, and Stanford Center for Research in Disease Prevention, Stanford University School of Medicine, Palo Alto, CA.
6 Cancer Prevention Research Program, Seattle, WA.
Received for publication February 6, 2002; accepted for publication June 12, 2002.
![]() |
ABSTRACT |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|
Asian Americans; Blacks; Hispanic Americans; Indians, North American; leisure activities; women
Abbreviations: Abbreviation: CI, confidence interval.
![]() |
INTRODUCTION |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|
Few studies have examined participation in vigorous activity across multiple time points in adulthood among women. According to the developmental approach to intervention, life stages and transitions may be effective points to intervene and promote preventive health behavior (7). Determining when lasting habits of physical activity occur in the life course can help to guide public health intervention efforts aimed at increasing population levels of physical activity. Intervention efforts can then be focused more intensively during life periods when favorable changes in physical activity are more likely to occur, thereby potentially increasing success and cost effectiveness.
Therefore, the objectives of this study were the following: 1) to describe differences in vigorous physical activity participation at various times recalled in the life span, 2) to assess whether reports of past participation in vigorous physical activity were associated with self-reported current physical activity participation, and 3) to determine factors related to participation in vigorous physical activity by race/ethnicity among women. Although retrospective reporting has limitations relative to prospective reporting, retrospective reporting has been shown to contribute useful information in this field, particularly when vigorous forms of leisure activity are targeted (810). Moreover, few data are available using either retrospective or prospective methods, particularly for this age group of women and by different racial/ethnic groups. These objectives were examined among a cohort of women participating in the Womens Health Initiative Observational Cohort Study.
![]() |
MATERIALS AND METHODS |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|
Measurement of physical activity
Physical activity was self-reported on a questionnaire that was mailed to the participants prior to the clinic visit and completed at home or during the clinic visit or that was completed at home after the visit and returned by mail. Current vigorous activity was assessed by the question, "Not including walking outside the home, how often each week (7 days) do you usually do the exercises below: strenuous or very hard exercise (you work up a sweat and your heart beats fast); for example, aerobics, aerobic dancing, jogging, tennis, swimming laps?" Consistent with vigorous physical activity recommendations (12), responses were grouped as 3 or more days per week compared with less than 3 days per week. Current moderate activity was assessed by the question, "Not including walking outside the home, how often each week (7 days) do you usually do the exercises below: moderate exercise (not exhausting); for example, biking outdoors, using an exercise machine (like a stationary bike or treadmill), calisthenics, easy swimming, popular or folk dancing?" For consistency, we also defined moderate activity as 3 or more days per week compared with less than 3 days per week. Past vigorous activity was assessed by the question, "For each of the ages below, did you usually do strenuous or very hard exercises at least 3 times a week? This would include exercise that was long enough to work up a sweat and make your heart beat fast." The ages ascertained were 18, 35, and 50 years and responses of yes or no were collected.
For a subsample of 536 Womens Health Initiative participants, the measurement of vigorous physical activity at the ages of 18, 35, and 50 years and currently was again ascertained approximately 10 weeks after the first administration of the questionnaire. The reliability of the physical activity questions under study, as measured by the kappa coefficient, was 0.55 for 18 years, 0.55 for 35 years, 0.53 for 50 years, and 0.65 for current activity (J. Emily White, Stratton Veterans Affairs Medical Center, personal communication, December 20, 2000). These kappa coefficients can be interpreted as falling between agreement expected by chance (kappa = 0) and perfect agreement (kappa = 1) (13).
Measurement of descriptive characteristics
Height and weight were measured during the clinic visit, and body mass index was calculated as weight (kg)/height (m)2. Information on baseline demographic characteristics (age, ethnicity, marital status), socioeconomic status (education, income, occupation), smoking, and current health status was also collected by self-administered questionnaires either mailed to the participants prior to the clinic visit and completed during the clinic visit or completed at home and returned by mail. Self-reported health status was measured with the question, "In general, would you say your health is excellent, very good, good, fair, or poor?" Smoking was categorized as never, former, or current smokers.
"Current resident" was defined according to the US Census classification of clinic site (14) as Northeast (Boston, Massachusetts; Bronx, New York; Buffalo, New York; East Setauket, New York; Newark, New Jersey; Pawtucket, Rhode Island; Pittsburgh, Pennsylvania; Worcester, Massachusetts), South (Birmingham, Alabama; Atlanta, Georgia; Durham, North Carolina; Gainesville, Florida; Houston, Texas; Memphis, Tennessee; Miami, Florida; San Antonio, Texas; Washington, DC (two sites); Winston-Salem, North Carolina), Midwest (Chicago, Illinois (two sites); Cincinnati, Ohio; Columbus, Ohio; Detroit, Michigan; Iowa City, Iowa; Madison, Wisconsin; Milwaukee, Wisconsin; Minneapolis, Minnesota), and West (Honolulu, Hawaii; Orange, California; LaJolla, California; Los Angeles, California; Oakland, California; Portland, Oregon; Reno, Nevada; San Jose, California; Seattle, Washington; Sacramento, California; Torrance, California; Tucson, Arizona).
Statistical analysis
The Womens Health Initiative observational cohort comprised 93,725 women. We excluded 12,388 participants aged 5054 years, in order to allow at least 5 years to recall vigorous physical activity at age 50. Participants were excluded if they were missing information on vigorous activity at present or in the past, height, weight, self-reported health, marital status, or education (n = 8,511). Women who reported their race/ethnicity as "other" (n = 787) or "unspecified" (n = 202) were excluded from analysis because of lack of specific reporting of race/ethnicity.
The prevalence of participation in physical activity (currently and at ages 18, 35, and 50 years) was calculated as the percentage reporting such activity at the baseline cohort visit. Ninety-five percent confidence intervals were computed on the binomial probability distribution. Confidence intervals were not adjusted for multiple comparisons. Logistic regression models were used to examine factors that predicted participation in current vigorous physical activity. Each measure of prevalence or of association was reported by ethnicity and adjusted for age at baseline by the direct method (5-year intervals) using the age distribution of the entire study cohort as the standard population (15). Analyses were conducted using Statistical Analysis System software (version 6.12; SAS Institute, Inc., Cary, North Carolina).
![]() |
RESULTS |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|
|
Association between present and past vigorous leisure activity
Among women who reported vigorous activity at age 18 years (regardless of activity at other ages), 13.015.8 percent depending on race/ethnicity reported current vigorous activity (table 2). Vigorous activity at 50 years of age was more predictive of current vigorous activity than participation at age 18 or 35 years. Women who reported vigorous activity at age 50 years were 1.82.2 times more likely to report current vigorous activity than were women reporting vigorous activity at age 18 years and 1.51.7 times more likely to report current vigorous activity compared with reporting vigorous activity at age 35 years. Women who reported vigorous activity at age 35 years were 1.11.4 times more likely to report current vigorous activity compared with women reporting vigorous activity at age 18 years. Among women who reported vigorous physical activity at all past ages (18, 35, and 50 years), reporting current vigorous activity was highest for Asian/Pacific Islander women (27.7 percent) and lowest for Black women (18.1 percent). For women reporting no vigorous activity at age 18, 35, and 50 years, the reporting of current vigorous activity was consistently low across racial/ethnic groups (5.67.9 percent).
|
Correlates of current vigorous activity participation
Correlates of current vigorous physical activity participation are reported by race/ethnicity in table 3. The prevalence of vigorous activity generally declined monotonically with body mass index categories. The prevalence of vigorous activity generally declined monotonically with self-reported health categories, indicating that those reporting fair or poor health were much less active. Current vigorous activity was reported more often among women who did not presently smoke (never or former smokers) compared with those that were current smokers. Participation in current vigorous physical activity did not consistently vary with either current marital status or region of the country. For the socioeconomic indicators, participation in current vigorous physical activity was generally higher for women with at least a college education, family income of at least $75,000, and managerial or professional occupations across racial/ethnic groups. However, physical activity patterns within categories of education, income, and occupation were not always consistent.
|
![]() |
DISCUSSION |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|
Vigorous leisure activity over the life span
The prevalence of current vigorous leisure activity ranged from 13 percent to 16 percent for women aged 5579 years across race/ethnicity. This finding is consistent with the prevalence of regular vigorous leisure activity for women aged 4564 years (17.7 percent) and aged 6574 years (16.5 percent) reported by the 1992 Behavioral Risk Factor Surveillance System (5). This finding is also consistent with data for women 40 years or older participating in the US Womens Determinants Study, in which the prevalence of vigorous activity ranged from 8 percent to 14 percent across race/ethnicity (17). Over half of Black and American Indian participants and almost half of Hispanic and White participants reported vigorous physical activity participation at age 18 years. This is in contrast to the prevalence of current regular vigorous leisure activity data for women aged 1829 years (11.4 percent) from the 1992 Behavioral Risk Factor Surveillance System data (5). However, these women should not be compared directly, because they come from a different birth cohort, and different methods of data collection were applied (e.g., retrospective vs. cross-sectional).
The current results reflect the patterns of reduced vigorous activity over the course of the life span that have been reported in cross-sectional surveillance studies (5). Of note, Asian/Pacific Islander women reported the lowest percent vigorously active at ages 18, 35, and 50 years compared with women of a different race/ethnicity. Such results underscore the importance of continued epidemiologic study of racial/ethnic groups that comprise a growing segment of the US population, yet often have not been included in epidemiologic research of physical activity.
For all racial/ethnic groups, the most precipitous drop in the percentage of those vigorously active occurred between the ages of 50 years and current age. For Asian/Pacific Islander women, the current prevalence was half of what was reported at age 50 years, and for Black, Hispanic, White, and American Indian women the prevalence was approximately one third of what is reported at age 50 years. Moreover, a large drop in the percentage of those vigorously active occurred between the ages of 35 and 50 years among the non-Asian women in this sample. Why these declines occurred is not explained by these data, but the fourth and fifth decades may represent a particularly important period for further study and intervention.
Association between present and past vigorous leisure activity
Tracking is defined as the ability to predict a subsequent observation from an earlier observation or the ability to maintain over time ones relative rank of an observation among a group of peers (18). One of the most consistent predictors of current behavior is past behavior. A study of both men and women has concluded that competitive sport participation as early as 1019 years of age is a significant predictor of physical activity at the current age of 6584 years (19). In the Black Womens Health Study, a cohort of women aged 2069 years, participation in vigorous activity (>2 hours/week) in high school was significantly related to current leisure walking (above the median), moderate activity, and vigorous activity (20).
Furthermore, in this study, vigorous activity (or vigorous plus moderate activity) at 50 years of age was more predictive of current vigorous activity than was participation at age 18 or 35 years. Although the potentially greater accuracy of reporting activity in more recent years cannot be ruled out, it is also possible that participation in vigorous activity in the middle years sets the stage for continued participation heading into the older years of life. The reporting of current vigorous activity according to past participation in activity was clearest among Asian/Pacific Islander women, indicating that physical activity tracked more strongly in this group. However, our data indicate that few women (35 percent across race/ethnicity) sustained regular vigorous activity across the life span, as indicated by the questions at age 18, 35, and 50 years and currently. Moreover, of any of the 16 potential patterns of activity, the most common pattern reported was no regular vigorous activity across these same time periods. The prevalence of this pattern ranged from 28 percent for Black women to 41 percent for Asian/Pacific Islander women, indicating strong tracking of not being vigorously active. Since past vigorous activity predicted a present lack of vigorous activity, research is needed on understanding and developing interventions to encourage young adults to become more active and stay active throughout the life course.
Correlates to current vigorous leisure activity participation
This study also examined correlates of current vigorous leisure activity. Better self-reported current health was positively associated with reporting current vigorous activity. A monotonic relation for Asian/Pacific Islander, Black, Hispanic, and White women indicated that approximately 46 percent of the women reporting poor health currently engaged in vigorous activity compared with about 2427 percent of participants reporting excellent health. Body mass index also had a clear inverse relation with vigorous activity, declining monotonically with increasing body mass index categories, except for Hispanics. Overall, about 1626 percent of nonobese or nonoverweight subjects (body mass index, <25 kg/m2) reported current vigorous activity as compared with 211 percent of obese participants (body mass index, >35 kg/m2). Across all racial/ethnic groups, women who reported current smoking were less likely to report current vigorous activity than were women who were not current smokers.
Status indicators, such as marital, regional, and socioeconomic variables, had more complex relations with racial/ethnic group and vigorous activity. For example, the lowest proportion of vigorous activity was reported in "never married" Asian/Pacific Islander and White women, but the prevalence of vigorous activity was highest among "never married" Black women. Analogous relations were observed for the region of the country in which the participants resided. The highest prevalence for vigorous activity was reported in western clinics for Blacks and Whites, midwestern clinics for Asians/Pacific Islanders and Hispanics, and northeastern clinics for American Indians. Differences in residence may reflect differences in the proportion of different subgroups within a particular racial/ethnic group (e.g., more Mexican Americans in the West, Puerto Rican Americans in the Northeast, and Cuban Americans in the Southeast). The association of socioeconomic level and vigorous activity was more consistent, with a positive relation noted with both educational level and family income across racial/ethnic groups. In addition, more women in higher income occupations (e.g., managerial or professional) reported engaging in vigorous activity. However, in Asian/Pacific Islander women, the second highest income category had the lowest proportion of women reporting vigorous activity.
These results support those of other studies (16), showing positive associations of health, leanness, and higher socioeconomic status with vigorous activity. They do not, however, reveal causal relations. Inactivity may produce and/or result in poorer health and obesity. Higher socioeconomic status may afford both the opportunity for exercise and access to better health care, both of which could affect health status. Long-term prospective studies with frequent measurements are the best vehicles for unraveling and defining these effects.
Strengths and limitations
The Womens Health Initiative provides an opportunity to examine adult life course physical activity in a large, multiethnic cohort of women. This is one of the first studies that reports physical activity levels among Asian/Pacific Islander women living in the United States, and this study also contributes to a small but growing literature on physical activity among Hispanic and American Indian women. However, this study has several limitations that should be recognized. Although we were able to report all associations by race/ethnicity, the sample size for American Indian women was low. The Womens Health Initiative is composed of volunteers, so the generalizability of these data is limited because of self-selection. In addition, some women were included because they did not meet the health requirements for the Womens Health Initiative clinical trials.
The measurement of vigorous leisure activity consisted of only one question for each of the time periods. The question did not ascertain the duration of activity or the specific types of leisure activities. The women were also not queried about other types of vigorous activity, such as occupational, transportation, or household activities. Women recalled vigorous physical activity participation at several ages (18, 35, and 50 years) and, because this information was not gathered prospectively, it is, as noted earlier, subject to recall bias. Differences in activity levels may reflect cultural or cohort effects. The accuracy of self-reported physical activity might also vary by characteristics, such as age, race/ethnicity, education, body mass index, and health status, although a recent article indicates that this may not be the case (21). It is also possible that reporting current activity or reporting moderate and mild activity may have affected the reporting of past activity.
Finally, the kappa coefficients for the measurement of vigorous physical activity ranged from 0.53 to 0.55 for past recalled activity, but they were higher for current activity (kappa = 0.65), as expected. This reliability is consistent with evidence from other studies on the recall of physical activity for earlier ages. In a study conducted in Sydney, Australia, participants 6595 years of age recalled their physical activity at the ages of 20 and 50 years (22). The reliability of recalling the main sport or exercise participated in at these ages (categorized as none, light, moderate, or vigorous activity) was 0.65 at age 20 years and 0.61 at age 50 years, as assessed by weighted kappa statistics taken 13 months apart. The literature also indicates that vigorous leisure activity has generally been easier to recall relative to other forms of leisure time activity (e.g., moderate, light, or intermittent) (810, 2325). Of note, in a prospective study, the measurement of intraclass correlation coefficients ranged from 0.36 to 0.38 for recalled hours per week of vigorous activity reported 3236 years earlier (24).
Conclusions
Physical activity studied within the same cohort of individuals can provide clues as to why people change their physical activity patterns and help to discern how sustained physical activity behaviors are developed (26). These patterns can also help to target population groups more likely to benefit and adhere to an interventional program (6). These data suggest that a lower prevalence of vigorous activity in the postmenopausal period is part of a complex of health-related attitudes and behaviors that transcend race and ethnicity. These findings suggest that the perimenopausal period may be a critical time at which targeted and tailored interventions may help to achieve maintenance of physical activity patterns from earlier stages of the life course, in order to achieve the benefits of physical activity in the postmenopausal period.
![]() |
ACKNOWLEDGMENTS |
---|
The authors wish to acknowledge all the Womens Health Initiative centers and their principal investigators for their participation in this research. The following is a short list of Womens Health Initiative investigators: Program Office: National Heart, Lung, and Blood Institute, Bethesda, Maryland: Jacques E. Rossouw, Linda Pottern, Shari Ludlam, Joan McGowan, and Nancy Morris; Clinical Coordinating Centers: Fred Hutchinson Cancer Research Center, Seattle, Washington: Ross Prentice, Garnet Anderson, Andrea LaCroix, Ruth Patterson, and Anne McTiernan; Bowman Gray School of Medicine, Winston-Salem, North Carolina: Sally Shumaker and Pentti Rautaharju; Medical Research Laboratories, Highland Heights, Kentucky: Evan Stein; University of California at San Francisco, San Francisco, California: Steven Cummings; University of Minnesota, Minneapolis, Minnesota: John Himes; University of Washington, Seattle, Washington: Susan Heckbert; Clinical Centers: Albert Einstein College of Medicine, Bronx, New York: Sylvia Wassertheil-Smoller; Baylor College of Medicine, Houston, Texas: Jennifer Hays; Brigham and Womens Hospital, Harvard Medical School, Boston, Massachusetts: JoAnn Manson; Brown University, Providence, Rhode Island: Annlouise R. Assaf; Emory University, Atlanta, Georgia: Lawrence Phillips; Fred Hutchinson Cancer Research Center, Seattle, Washington: Shirley Beresford; George Washington University Medical Center, Washington, DC: Judith Hsia; Harbor-UCLA Research and Education Institute, Torrance, California: Rowan Chlebowski; Kaiser Permanente Center for Health Research, Portland, Oregon: Cheryl Ritenbaugh; Kaiser Permanente Division of Research, Oakland, California: Bette Caan; Medical College of Wisconsin, Milwaukee, Wisconsin: Jane Morley Kotchen; Medstar Research Institute, Washington, DC: Barbara V. Howard; Northwestern University, Chicago/Evanston, Illinois: Linda Van Horn; Rush-Presbyterian St. Lukes Medical Center, Chicago, Illinois: Henry Black; Stanford Center for Research in Disease Prevention, Stanford University, Stanford, California: Marcia L. Stefanick; State University of New York at Stony Brook, Stony Brook, New York: Dorothy Lane; The Ohio State University, Columbus, Ohio: Rebecca Jackson; University of Alabama at Birmingham, Birmingham, Alabama: Cora Beth Lewis; University of Arizona, Tucson/Phoenix, Arizona: Tamsen Bassford; University at Buffalo, Buffalo, New York: Maurizio Trevisan; University of California at Davis, Sacramento, California: John Robbins; University of California at Irvine, Orange, California: Allan Hubbell; University of California at Los Angeles, Los Angeles, California: Howard Judd; University of California at San Diego, LaJolla/Chula Vista, California: Robert D. Langer; University of Cincinnati, Cincinnati, Ohio: Margery Gass; University of Florida, Gainesville/Jacksonville, Florida: Marian Limacher; University of Hawaii, Honolulu, Hawaii: David Curb; University of Iowa, Iowa City/Davenport, Iowa: Robert Wallace; University of Massachusetts, Worcester, Massachusetts: Judith Ockene; University of Medicine and Dentistry of New Jersey, Newark, New Jersey: Norman Lasser; University of Miami, Miami, Florida: Mary Jo OSullivan; University of Minnesota, Minneapolis, Minnesota: Karen Margolis; University of Nevada, Reno, Nevada: Robert Brunner; University of North Carolina, Chapel Hill, North Carolina: Gerardo Heiss; University of Pittsburgh, Pittsburgh, Pennsylvania: Lewis Kuller; University of Tennessee, Memphis, Tennessee: Karen C. Johnson; University of Texas Health Science Center, San Antonio, Texas: Robert Schenken; University of Wisconsin, Madison, Wisconsin: Catherine Allen; Wake Forest University School of Medicine, Winston-Salem, North Carolina: Gregory Burke; and Wayne State University School of Medicine/Hutzel Hospital, Detroit, Michigan: Susan Hendrix.
![]() |
NOTES |
---|
![]() |
REFERENCES |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|