Promoting female condom use to heterosexual couples: findings from a randomized clinical trial.
In the United States, HIV prevention intervention trials introducing the female condom have demonstrated increases in reported use among a range of populations: urban women attending family planning clinics, women attending STD clinics, women in methadone maintenance treatment and women exchanging sex for drugs or money. (5) To date, however, no studies using a randomized clinical trial design have either tested the efficacy of a relationship-based intervention on the use of the female condom among women and their long-term male sexual partners or compared two strategies for introducing the device. Previous research has demonstrated promise in increasing female condom use within stable partnerships, (6) and some evidence suggests that HIV prevention interventions designed to assist women in engaging their male sexual partners in female condom use may be particularly effective. (7) More re search is needed on whether involvement of male partners in the introduction of the device leads to increased use. (8)
The purpose of this article is to examine female condom use outcomes among 217 women and their main male sexual partners (434 male and female participants) during a three-month follow-up period in Project Connect, a randomized clinical trial of a six-session relationship-based HIV/STD prevention intervention. The principal outcome in the parent study (9) was reduction in unprotected vaginal intercourse (including both male and female condom use), assessed three and 12 months postintervention. The main finding was that relative to participants in the control group, women and men assigned to the six-session intervention were more likely to report a reduction in the number of episodes of unprotected vaginal intercourse. No significant differences were observed according to whether couples received the intervention together or the woman received it alone.
In the present study, the four outcomes on which we focus are any female condom use, number of female condoms used, female condom use intentions and female condom use outcome expectancies (defined as beliefs about the likelihood of positive or negative outcomes occurring as a result of engaging in female condom use). Outcomes are examined with regard to the participant's study partner alone and all sexual partners. We addressed two research questions: Did the active intervention (whether provided to the couple together or the woman only) promote significantly greater improvements in outcomes than the control intervention? And did providing the intervention to couples together promote significantly greater improvements in outcomes than providing it to women alone?
The design of Project Connect, conducted between 1997 and 2001, is described fully elsewhere, (10) but summarized briefly here. All elements of the study protocol were reviewed and approved annually by the institutional review boards at the study site and research institution.
Women were recruited from an outpatient clinic facility at a New York hospital providing a range of primary health care and social services. A woman was eligible for Project Connect if she was 18-55 years old; had a male sexual partner whom she identified as a boyfriend, spouse or lover; was in a long-term relationship (i.e., had been involved with this partner for the past six months and intended to stay with him for at least one year); had had at least one episode of unprotected vaginal or anal sex with this partner in the past 30 days; did not report any life-threatening abuse by this partner within the past six months (according to selected questions from the Revised Conflict Tactics Scales); (11) and was a patient at any of the hospital's outpatient clinics. To be eligible, a woman also had to know or suspect that her partner met at least one of the following STD risk criteria: He had had sex with other men or women in the past 90 days, he had had an STD diagnosed or exhibited symptoms of an STD in the past 90 days, he had injected drugs in the past 90 days or he was HIV-positive. Of the 388 screened women who were eligible for the study, 217 (56%) successfully recruited their regular male sexual partners and were included in the study. (12)
Prior to the baseline interview, all participants provided informed consent. Couples completed face-to-face baseline assessment interviews simultaneously but separately, with gender-matched interviewers. They were then randomly assigned to one of three study groups. In the first group, both the woman and her partner attended six weekly relationship-based sessions (N=81 couples). In the second, only the woman attended the six weekly sessions (N=73 couples). In the third, which served as the control group, only the woman attended one STD information session (N=63 couples). The group sizes differed because during a regular review of scientific integrity, we determined that a few random assignment envelopes had been omitted accidentally. We controlled for the effect of across-group differences, a potential result of this imbalance, in the analyses. All women and men were asked to return for a follow-up assessment three months postintervention.
Step-by-step details for the Project Connect intervention sessions were provided in manuals that guided facilitators in what to say and what to do as they completed each session activity. In the couples sessions, the facilitator provided coaching and feedback, and encouraged couples to role-play and engage with each other. In the women-only sessions, the facilitator played the role of a woman's partner, or took on a woman's role as she played her partner's role, thus creating opportunities for her to practice. Sessions centered on the woman and her recruited partner, with a strong emphasis on the relationship, including how issues like intimacy, closeness, monogamy and trust can act as barriers to condom use. The intervention emphasized the importance of communication, negotiation and problem-solving skills, and highlighted how relationship dynamics may be affected by gender roles and expectations.
Use of the female condom was introduced in the fourth session, along with a review of male and female anatomy and an introduction to male condom use skills. All participants were shown a brief video on female condom application, and then a live demonstration of correct placement on a pelvic model. In the couples sessions, both the woman and her partner practiced proper insertion and removal of the device on a pelvic model; in the women-only sessions, women practiced on the pelvic model and had the opportunity to role-play introducing the device and its use to their partner, played by the facilitator. The advantages and disadvantages of the device from both male and female perspectives were presented and discussed. Many participants set a goal to use the female condom with their main partner between the fourth and fifth intervention sessions. Each participant received three female condoms at the end of every session. Thus, depending on the number of attended sessions, participants could receive between zero and 18 female condoms.*
The single STD education control session lasted one hour and was provided immediately following randomization. Participants were shown a videotape (available in English and Spanish), (13) which included a discussion and demonstration of female condom use, that was followed by a brief question-and-answer period. Participants did not receive female condoms, but received information from both the videotape and the facilitator about where they could purchase the device (at a local pharmacy) or how to obtain it for free (from New York City Department of Health STD clinics, from the obstetrics-gynecology clinic within the study setting or by getting a fiscal order from their physician or nurse practitioner, to be reimbursed by Medicaid).
Baseline and three-month follow-up interviews included questions on social and demographic characteristics, STD sexual risk behaviors, HIV status and outcomes of interest. Participants were asked to report, for study partners and casual partners, whether a female condom was used during an act of vaginal intercourse, the number of acts of vaginal intercourse protected by female condoms (continuous) in the past 90 days and whether they intended to use the female condom in the next 90 days. The interview also included 18 items from a scale assessing three categories of female condom use outcome expectancies: physical, social and self-evaluative. Items in the physical category included "I am comfortable using the female condom" and "I believe that I can make female condom use fun and erotic"; in the social category, "I am embarrassed to ask my partner to use the female condom" and "I encourage my friends to use the female condom"; and in the self-evaluative category, "the female condom gives me more personal control over birth control" and "the female condom gives me more options for protection." Each item was scored on a Likert scale from 1 (strongly disagree) to 5 (strongly agree); the final measure was the sum of the 18 scores (possible range, 18-90, with higher scores indicating stronger endorsement of positive outcome expectancies of female condom use). The measure has an internal consistency reliability of 0.80. (14) Interview staff used a 90-day calendar to help participants recall events during this time frame.
We used an intention-to-treat approach to estimate treatment effects. This approach requires that all participants be included in the analyses, including those who did not complete sessions or follow-up assessments. The follow-up rates for the couples, women-only and control groups were 86%, 84% and 79%, respectively. In the couples group, the overall session completion rate was 54%; in the women-only group, 64%. At session four, in which the female condom was introduced, 59% and 71% of the participants assigned to the couples and women-only groups attended. In t tests of bivariate association, attendance in the two active intervention groups was not determined to be significantly different. Levels of missing outcome data vary by group and outcome, ranging from 14% (on number of sexual partners for participants in the couples group) to 22% (on number of unprotected acts for participants in the control group).
In chi-square tests of association, several differences at baseline were found between those who were available for follow-up and those who were not. For participants assigned to the control group, women available for follow-up were less likely to be employed, more likely to have made more than $5,000 in the last year and more likely to have used noninjection drugs in the prior 90 days than women not available for follow-up; they also had fewer instances of unprotected sex. Men available for follow-up; reported fewer instances of unprotected sex than men unavailable for follow-up; they In the women-only group, participants who provided follow-up data were less likely to have completed high school or have a GED than women not available for follow-up. These differences argue against using a complete case approach to the missing outcome data because it requires the assumption that no such differences exist. We employed multiple imputation (15) to handle missing values; the imputation procedure was performed using Stata 9.0 with a user-written program. (16)
We conducted t tests to examine the difference in means among the primary outcomes. We used contrast coding to examine whether the effects of the two active interventions differ from those of the control intervention, and whether the effects of the two active interventions differ from each other. Contrast coding involves combining variables into subsets for the purpose of direct comparison. Numerically, the sum of the codes must equal zero. Two contrast codes were created. First, to test whether the six-session active intervention (delivered either to couples or to women only) was efficacious compared with one education session, we numerically weighted the two treatment groups so that their additive value plus the value given the control group equaled zero: one-third, one-third and negative two-thirds, respectively. Second, to test whether the intervention was more efficacious when the woman and her partner received it together or when the woman received it alone, we coded the couples, women-only and education control groups one-half, negative one-half and zero, respectively.
Quantitative estimates of treatment effects relied on ordinary least squares regression for female condom use outcome expectancies, logistic regression for female condoms use in the past 90 days and intention to use female condoms, and negative binomial regression for the number of female condoms used during vaginal intercourse in the past 90 days. (17) The unit of analysis was the individual; however, because reports from partners constituting a couple were not independent of each other, and would be highly correlated, random-effects estimates, (18) which accommodate within-group correlation structures, were used. In this case, the random effects were incorporated into the ordinary least squares, logistic and negative binomial regression models, which allow responses within a couple to be correlated but assume independence across couples. Further, inclusion of theoretically important variables related to HIV risk behavior in regression models can result in estimates of treatment effects with smaller standard errors (19) and can illuminate associations between the outcomes and critical background characteristics. Thus, baseline measures of outcome variables were included in the regression equations, since these are highly likely to be correlated to reports at follow-up. In addition, gender and HIV status were included because they are associated with differential outcomes for HIV prevention interventions. (20) All estimates were obtained using Stata version 9.0.
Participants across the three study groups were similar on demographic characteristics and HIV risk behavior (Table 1). The majority of the women and their partners were more than 25 years old. The majority of participants were black, and most of the rest were Hispanic; more than half were never-married. Roughly 40-60% of participants across all study groups had at least a high school level of education; fewer than half were employed, and more than half had low income levels. A higher proportion of women than of men reported having multiple sexual partners within the prior 90 days. The high prevalences of reporting a lifetime history of STD and no condom use in the past 90 days indicate that these couples engaged in HIV risk behaviors. The only significant differences are for employment and HIV status among men, and for STD experience among women. The sample included HIV-negative, HIV-positive and HIV-discordant couples.
At the bivariate level, participants in both active interventions had significantly higher rates of ever-use of the female condom during follow-up and significantly greater intentions to use it in the next 90 days than did those in the control group (Table 2). Compared with women in the control group, participants in the couples group also reported greater outcome expectancies, and participants in the women-only group reported more uses of the female condom during follow-up. Patterns of female condom use with a study partner were consistent with reported use with all partners. Participants in the women-only group reported a higher average number and rate of female condom use during follow-up than participants in the control group. Participants in the couples and women-only groups demonstrated a larger percentage change in intentions to use the device from baseline to follow-up than participants in the control group.
Consistent with the bivariate results, findings from the regression analyses show significantly different outcomes for participants assigned to the intervention groups and controls (Table 3, page 151). Compared with the controls, participants in either active intervention group were more likely to have used a female condom with their study partner and with all partners combined during follow-up (odds ratios, 4.1 and 3.6, respectively), used female condoms at higher rates with their study partners and with all partners during follow-up (incidence rate ratios, 4.3 and 3.7, respectively) and were more likely to intend to use the condom in the next 90 days (odds ratio, 2.2). However, there was no statistical difference in female condom use outcome expectancies. There were no significant differences between the women-only and couples intervention groups.
As expected, the baseline measures were significantly associated with their corresponding outcome measures at follow-up for almost all variables of interest. (The only exception is the number of times a female condom was used.) Gender and HIV status were not significantly associated with any outcome.
This study is the first clinical trial to demonstrate the efficacy of a relationship-based intervention at promoting female condom use among long-term heterosexual couples, and to test competing strategies for introducing the device. Our findings demonstrate that focusing on both a woman and her male partner is efficacious in increasing female condom use and intention to use among heterosexual couples at risk for HIV and other STDs. The findings for the women-only group are consistent with results of other female condom intervention reals targeting women individually. (21) The findings that both active interventions increased female condom use and use intentions add to the literature by offering two efficacious methods for promoting the device, one of which incorporates a woman's main male sexual partner.
Consistent with the principal outcomes of the parent study, (22) the results of this study demonstrated no significant differences in outcomes between participants in the couples group and participants in the women-only group. We offer several possible explanations for these findings. First, all active intervention content was identical, with both groups focusing on the intimate relationship. Even in women-only sessions, the relationship, and compromise between partners in risk reduction activities, was emphasized. Practicing communication, negotiation and condom skills aimed at cooperative risk reduction to strengthen the relationship, even without the partner present, may have been the key to the success of the intervention. A second potential factor is self-selection: Recruitment of females, who then recruited male partners, may have biased the sample toward including females who are comfortable discussing STD preventive behaviors with their partners and toward male partners who are highly motivated to engage in such behaviors and to use female condoms. Third, attendance was higher in the women-only group than in the couples group, and additional exposure may have facilitated greater improvement with respect to sexual risk behavior. Finally, the intervention promoted use of a hierarchy of risk reduction strategies, in which women and couples may adopt alternative strategies to male or female condom use. (23) One suggested alternative was "negotiated safety," the option of agreeing to mutual monogamy or to use of barrier protection with casual partners only, fob lowing HIV testing. (24) A purer test of outcome differences would have included an intervention that offered only the choice of male or female condoms, or perhaps female condoms alone, rather than a safer-sex hierarchy. Future research on strategies for introducing the female condom needs to consider ways to more carefully control for alternative method choices.
The increase in ever-use of a female condom from baseline to follow-up suggests that there were many first-time users among participants. This is consistent with findings of other studies and suggests a subsample of potential female condom adopters, (25) who should be of particular interest in future research. Although Musaba et al. (26) found that on average, among participants counseled to use either male or female condoms, female condoms were used in 24%, 27% and 23% of coital acts during three-, six- and 12-month follow-up, most longitudinal studies indicate that adopters of the female condom may use the device only for a short time, or use it with decreasing frequency over time. (27) Further research is needed to identify these female condom adopters, to more effectively target those women and men who may be most receptive to using this method. Additional research to identify effective strategies to promote adoption and long-term use among couples is also needed.
The finding that participants in both active groups reported a relatively high intention to use the device within the next 90 days carries important implications. This finding is consistent with earlier ones suggesting that having an opportunity to become familiar with and use the device may facilitate more comfort with it and enhance intentions for use. (28) Despite poor response to the device in the general press over the past decade, (29) its introduction to couples, at least among our sample, is still being met with enthusiasm, interest and intention to use. Researchers may need to examine additional external factors, including availability and accessibility, as potential barriers to initiation and sustained use of the device.
Artz and colleagues (30) found that among women in STD clinics who received a skill-based introduction to the female condom with take-home materials (including a motivational video to show their male partners), 79% tried the device at least once. In the present study, the control group watched a video on female condom insertion and received some education about the device, but the outcome effects were significantly greater in the active intervention groups. More research is needed to determine if outcomes are improved when those receiving individualized health education are given motivational or educational videotapes of female condom demonstrations to share with their partners.
Our findings must be considered in light of the following limitations. The study had a relatively small sample, data were self-reported and did not include biological outcomes on STDs, and the follow-up period was short. (We conducted a 12-month follow-up with the women, but were unable to do so for their male partners because of funding limitations.) The 90-day recall period, although standard for STD clinical trials, may have challenged the participants' ability to respond accurately. Study designs incorporating longer follow-up periods with larger samples and shorter recall periods, may produce stronger findings regarding promotion of female condom use among couples. The females in this study recruited their male partners, which may have led to a sample of self-selected male partners. Also, participants in the control group were not given free female condoms, as the active intervention participants were, but rather were advised about where they could them obtain for free. Because the mean number of female condoms used by participants was small, findings may have been influenced by participants' access to the method. However, although active intervention participants could have received up to 18 female condoms by attending all six sessions, these condoms may well have been used prior to the 90-day follow-up phase, upon which the data are based. Further, nonsignificant mean increases in female condom use reported by controls suggest that this group did access female condoms. Future designs must equalize both the number of devices and the time frame for which devices are made available to participants across groups. Outside of clinical trials, limited accessibility and availability of female condoms remains a significant barrier to use and uptake.
Until safe, efficacious and approved microbicides are widely available as an STD risk reduction method for women and their male partners, the female condom is a critical method, of empirically demonstrated effectiveness, and should be more widely promoted. Couple-based approaches, and increased opportunities to involve male partners in device use, should continue to be explored. Efforts must continue to develop innovative female condom promotion strategies and test them in rigorous trial designs. Research should target not only how best to introduce the device to individual women, men and couples, but how best to promote sustained use of the device. Although lack of availability and accessibility of the female condom are different issues from individual promotion strategies, (31) simultaneous efforts must be made to increase availability and accessibility as a key to sustained use of the device.
This study was supported by National Institute of Mental Health grant MH5 7145.
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(2.) World Health Organization, The Female Condom: A Review, Geneva: World Health Organization, 1997; Cecil H et al., The female condom: what we have learned thus far, AIDS and Behavior, 1998, 2(3): 241-256; and Hoffman Set al., The future of the female condom, Perspectives on Sexual and Reproductive Health, 2004, 36(3):120-126.
(3.) Feldblum PJ et al., Female condom introduction and sexually transmitted infection prevalence: results of a community intervention trial in Kenya, AIDS, 2001, 15(8):1037-1044; French PP et al., Use-effectiveness of the female versus male condom in preventing sexually transmitted disease in women, Sexually Transmitted Diseases, 2003, 30(5):433-439; and Fontanet AL et al., Protection against sexually transmitted diseases by granting sex workers in Thailand the choice of using the male or female condom: results from a randomized controlled trial, AIDS, 1998, 12(14):1851-1859.
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(11.) Straus MA et al., The Revised Conflict Tactics Scales (CTS2): development and preliminary psychometric data, Journal of Family Issues, 1996, 17(3):283-316.
(12.) Witte SS et al., 2004, op. cit. (see reference 10).
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(14.) Witte SS et al., 2000, op. cit. (see reference 5).
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(25.) Musaba E et al., 1998, op. cit. (see reference 1); Artz Let al., 2000, op. cit. (see reference 5); Gollub EL et al., 2000, op. cit. (see reference
(23.) Kalichman SC, Williams E and Nachimson D, 1999, op. cir. (see reference 21); Stein Z et al., 1999, op. cit. (see reference 5); and Sly DF et al., Factors associated with the use of the female condom, Family Planning Perspectives, 1997, 29(4): 181-184.
(26.) Musaba E et al., 1998, op. cir. (see reference 1).
(27.) Ibid.; Hoffman Set al., 2003, op. cit. (see reference 5); and Padian Net al., Choice of female-controlled methods in Northern California, paper presented at the 127th meeting of the American Public Health Association, Chicago, Nov. 7-11, 1999.
(28.) Cecil H et al., 1998, op. cit. (see reference 2); Artz L et al., 2000, op. cit. (see reference 5); Kalichman SC, Williams E and Nachimson D, 1999, op. cit. (see reference 21); Witte SS et al., Acceptability of the female condom among women exchanging street sex in New York City, International Journal of STD & AIDS, 1999, 10(3): 162-168; El-Bassel N et al., Correlates of intention to use the female condom among women on methadone, Women's Health Issues, 1998, 8(2): 112-122; and Gollub EL, Stein Z and El-Sadr W, Short-term acceptability of the female condom among staff and patients at a New York City hospital, Family Planning Perspectives, 1995, 27(4):155-158.
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(30.) Artz L et al., 2000, op. cit. (see reference 5).
(31.) Hoffman Set al., 2004, op. cit. (see reference 2); and French PP et al., 2003 op. cit. (see reference 3).
Author contact: ssw12@columbia. edu
Susan S. Witte is associate director, Nabila El-Bassel is director, Louisa Gilbert is co-director, Elwin Wu is assistant director and Mingway Chang is statistician, all at the Social Intervention Group, Columbia University School of Social Work, New York. Jennifer Hill is assistant professor, School of International and Public Affairs, Columbia University.
TABLE 1. Percentage of participants in a trial of a female condom promotion intervention, by selected baseline characteristics, according to gender and intervention group, New York City, 1997-2001 Characteristic Female Couples Women- Control (N=81) only (N=63) (N=73) Age <25 years 9.9 8.2 9.5 Black 54.3 54.8 54.0 Hispanic 38.3 43.8 36.5 High school/GED 42.0 37.0 55.6 Never-married 67.9 57.5 52.4 Employed 11.1 15.1 17.5 Annual income <$5000 64.2 72.6 68.3 >1 partner ([double dagger]) 24.7 23.3 14.3 Ever tested for HIV 95.1 91.8 92.1 HIV-positive 25.9 21.9 15.9 HIV status unknown 6.2 11.0 7.9 No condom use ([double dagger]) 64.2 71.2 76.2 Used noninjection drugs ([double dagger]) 60.8 63.8 44.6 Used injection drugs ([double dagger]) 11.1 5.5 6.3 Ever had STD 69.1 * 60.3 * 47.6 * Had STD symptom ([double dagger]) 50.6 57.5 42.9 Couple HIV status Both HIV-negative 51.9 49.3 61.9 Both HIV-positive 19.8 12.3 4.8 HIV-discordant 14.8 12.3 17.5 Unknown 13.6 26.0 15.9 Characteristic Male Women- Control Couples only ([dagger]) (N=81) ([dagger]) (N=63) (N=73) Age <25 years 7.4 9.6 7.9 Black 48.1 61.6 55.6 Hispanic 42.0 31.5 39.7 High school/GED 44.4 61.1 54.0 Never-married 56.8 54.8 54.0 Employed 24.7 * 45.2 * 34.9 * Annual income <$5000 56.3 46.6 47.6 >1 partner ([double dagger]) 13.6 16.4 12.7 Ever tested for HIV 92.6 80.8 90.5 HIV-positive 29.6 * 16.4 * 11.1 * HIV status unknown 8.6 * 19.2 * 9.5 * No condom use ([double dagger]) 69.1 69.9 79.4 Used noninjection drugs ([double dagger]) 59.2 67.1 63.9 Used injection drugs ([double dagger]) 12.5 5.5 4.8 Ever had STD 56.8 60.3 49.2 Had STD symptom ([double dagger]) 11.1 2.7 11.1 Couple HIV status Both HIV-negative na na na Both HIV-positive na na na HIV-discordant na na na Unknown na na na * Differences across groups are significant at p < .05. ([dagger]) Percentages are for the male partners of the women in this group. ([double dagger]) In past 90 days. Notes: Calculations are based on the complete data; a few variables are missing data for up to 6% of participants. na = not applicable. TABLE 2. Female condom use outcomes reported at baseline and three-month follow-up, by intervention group Outcome Couples (N=162) Baseline Follow-up % ever used in past 90 days With study partner 2.47 (1.22) 22.59 * (3.38) With all partners 3.09 (1.36) 23.21 (3.55) Mean no. of uses in past 90 days With study partner 0.04 (0.02) 0.69 (0.18) With all partners 0.06 (0.03) 0.72 (0.18) % intending to use in next 90 days 30.86 (3.64) 43.58 * (3.98) Mean outcome expectancies ([dagger]) 59.43 * (0.63) 60.75 * (0.80) Outcome Women-only (N=146) Baseline Follow-up % ever used in past 90 days With study partner 5.62 (1.94) 25.48 * (3.82) With all partners 7.67 (2.24) 27.12 * (3.86) Mean no. of uses in past 90 days With study partner 0.10 (0.04) 0.96 * (0.29) With all partners 0.15 (0.50) 1.10 * (0.33) % intending to use in next 90 days 35.62 (3.98) 42.88 * (4.55) Mean outcome expectancies ([dagger]) 57.93 (0.68) 59.49 (0.86) Outcome Control (N=126) Baseline Follow-up % ever used in past 90 days With study partner 3.97 (1.75) 11.59 (2.97) With all partners 3.97 (1.75) 13.49 (3.12) Mean no. of uses in past 90 days With study partner 0.06 (0.03) 0.30 (0.10) With all partners 0.06 (0.03) 0.33 (0.10) % intending to use in next 90 days 26.19 (3.93) 27.46 (4.98) Mean outcome expectancies ([dagger]) 56.96 (0.75) 57.74 (0.83) * Significantly different from control group at p [less than or equal to] .05. ([dagger]) Possible range for outcome expectancies is 18-90; the higher the score, the more positive the outcome expectancy. Note: Figures in parentheses are standard errors. TABLE 3. Results of multivariate analyses examining associations between female condom use outcomes and selected predictors Outcome Intervention Couples (vs. control) (vs. women-only) Ever used in past 90 days ([dagger]) With study partner 4.06 * 1.13 (1.24-13.35) (0.44-2.91) With all partners 3.57 * 1.03 (1.11-11.54) (0.40-2.66) No. of uses in past 90 days ([double dagger]) With study partner 4.33 * 1.38 (1.38-13.58) (0.55-3.45) With all partners 3.73 * 1.39 (1.32-10.54) (0.53-3.65) Intend to use in next 90 2.20 * 1.16 days ([dagger]) (1.12-4.32) (0.61-2.20) Outcome expectancies 1.76 0.79 ([section]) (-0.28 to 3.80) (-1.40 to 2.99) Outcome Baseline Male measurement of outcome Ever used in past 90 days ([dagger]) With study partner 10.67 ** 1.17 (2.34-48.71) (0.58-2.38) With all partners 6.06 * 1.27 (1.21-30.35) (0.64-2.51) No. of uses in past 90 days ([double dagger]) With study partner 2.33 1.10 (0.92-5.91) (0.56-2.17) With all partners 1.70 0.97 (0.73-3.96) (0.43-2.22) Intend to use in next 90 2.61 ** 1.18 days ([dagger]) (1.48-4.59) (0.74-1.88) Outcome expectancies 0.44 ** 0.07 ([section]) (0.32-0.57) (-1.67 to 1.81) Outcome HIV-positive HIV status (vs. HIV-negative) unknown (vs. HIV-negative) Ever used in past 90 days ([dagger]) With study partner 0.98 1.25 (0.40-2.44) (0.33-4.67) With all partners 0.93 1.97 (0.35-2.45) (0.60-6.41) No. of uses in past 90 days ([double dagger]) With study partner 0.98 1.18 (0.40-2.36) (0.37-3.81) With all partners 0.90 1.81 (0.37-2.20) (0.66-5.00) Intend to use in next 90 1.21 1.07 days ([dagger]) (0.61-2.39) (0.48-2.37) Outcome expectancies -0.42 -2.14 ([section]) (-2.70 to 1.85) (-5.13 to 0.85) * p < .05. ** p < .01. ([dagger]) Odds ratios from logistic regression. * Incidence rate ratios from negative binomial regression. ([section]) Coefficients from ordinary least squares regression. Notes: All models include random effects estimates. Figures in parentheses are 95% confidence intervals.
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|Publication:||Perspectives on Sexual and Reproductive Health|
|Date:||Sep 1, 2006|
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