Article Text
Abstract
Background: An increase in the incidence of sexually transmitted infections and hepatitis C virus (HCV) infections in HIV-infected men who have sex with men (MSM) has recently been reported.
Objective: To estimate HCV incidence and risk factors among HIV-1-infected patients followed up since primary HIV infection in the French PRIMO Cohort between 1996 and 2005.
Patients and methods: All patients with at least 18 months of follow-up were studied. HCV antibody tests were performed on baseline plasma samples and repeated on the latest available sample when negative at baseline.
Results: In total, 402 patients with a median follow-up of 36 (range 18–104) months were eligible. HCV seroconversion was observed in 6 patients (4 men and 2 women), corresponding to an HCV incidence rate of 4.3 per 1000 person-years. Incidence rates in men and women were 3.5 and 7.8 per 1000 person-years, respectively. The incidence rate was 1.2 per 1000 person-years before January 2003 and 8.3 per 1000 person-years after January 2003 (p = 0.06). The classic risk factors for HCV infection were found in women (intravenous drug use, and body piercing), whereas the only identified risk factor for HCV acquisition was unsafe sex in the four men.
Conclusions: Increase in the incidence of acute HCV infection in recently HIV-infected patients confirms the shift in sexual behaviour in the recent years, especially in HIV-infected MSM. Repeated testing for HCV antibodies should be carried out in HCV-negative HIV-infected patients and specific recommendations about protected sex should be clearly provided.
- HCV, hepatitis C virus
- IVDU, intravenous drug use
- MSM, men who have sex with men
- PHI, primary HIV infection
- STI, sexually transmitted infection
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- HCV, hepatitis C virus
- IVDU, intravenous drug use
- MSM, men who have sex with men
- PHI, primary HIV infection
- STI, sexually transmitted infection
The recent increase in sexually transmitted infections (STIs) among HIV-infected men who have sex with men (MSM) suggests a relapse in at-risk sexual behaviour in this population, and is a major public health issue. Since the beginning of the 21st century, marked increases in syphilis,1 rectal and genital gonorrhoea,1,2 as well as anorectal lymphogranuloma venereum,3,4 have been reported in HIV-infected MSM from Europe and the US.
Along with the increasing reports on STI and HIV superinfection among HIV-infected MSM, many groups have reported an increasing incidence of acute hepatitis C virus (HCV) infections in patients who had no risk factor other than high-risk sexual practices.5,6,7,8,9,10
In France, an increase in at-risk sexual behaviour was recorded since the late 1990s in HIV-1-infected patients presenting with (primary HIV infection) PHI and enrolled in the French PRIMO cohort.11 We investigated the incidence of HCV infections in this specific population.
PATIENTS AND METHODS
Study population
Our study comprised patients presenting with primary HIV infection, enrolled in the multicentre prospective French ANRS PRIMO Cohort (ANRS CO 06).12,13 From 1996 to July 2005, 605 patients with PHI have been enrolled in the cohort, with a median follow-up of 30 (range 0–109) months.
Primary HIV infection (PHI) was identified as described previously.14
For all patients enrolled in the PRIMO Cohort, clinical visits were carried out and serum or plasma samples were stored at −80°C at inclusion, at 1, 3 and 6 months, and then every 6 months. HCV serology is a part of the tests performed at baseline for all the patients included in the cohort. Our analysis was restricted to patients enrolled in the PRIMO Cohort who had at least 18 months of clinical and biological follow-up, with the cut-off date of 1 July 2005.
HCV serological and amplification testing
For all patients, inclusion plasma samples were prospectively tested for anti-HCV antibodies (Ortho HCV 3.0 enzyme linked immunosorbent assay test, Ortho Diagnosis System, Raritan, New Jersey, USA). For patients with negative anti-HCV antibodies at inclusion in the PRIMO cohort, the latest available frozen plasma sample was tested for HCV serology. When this latest sample was positive for HCV antibodies, HCV serology was retrospectively performed on stored frozen plasma samples from previous visits to determine the timing of HCV infection more precisely. Qualitative detection of HCV RNA (HCV Cobas Monitor V.2.0, Roche Diagnosis System, Meylan, France; lower limit of quantification 50 IU/ml) was performed on all samples positive for anti-HCV antibodies, and genotyping (Innolipa HCV II, Bayer Diagnostics, Emeryville, California, USA) in samples with detectable HCV RNA.
RESULTS
Characteristics of patients at baseline
In all, 402 of 605 patients were eligible for this study as they had at least 18 months of follow-up in the cohort at the time of the analysis. Their median age was 34 (range 15–72) years, and 18.7% (n = 75) were women. Table 1 summarises their characteristics.
Anti-HCV antibodies were detected in 23 (5.7%) patients at inclusion—that is, soon after PHI. These patients (4 women and 19 men) did not significantly differ (p = NS) from the remaining 379 HCV-negative patients, except for risk factor for HIV infection. The proportion of patients with blood exposure (occupational, or intravenous drug use (IVDU)) was significantly higher among the HCV-positive patients (17.4%, 4/23; two patients infected from occupational exposure and two IVDU) than among HCV-negative patients (0.3%, 1/379; infected from occupational exposure, p<0.001). Conversely, the proportion of homosexual men was significantly lower among HCV-positive patients (47.8%) than among HCV-negative patients (63.9%, p<0.001). In addition, among all MSM, the proportion of patients with positive anti-HCV antibodies at the time of PHI was 4.3%.
HCV RNA was detectable in 10 of the 23 (45%) patients with positive HCV antibodies, with HCV genotype 1 in nine patients (MSM, n = 2; IVDU n = 4; heterosexual, n = 1; occupational exposure, n = 1; unknown, = 1), and genotype 2a/2c in one patient (occupational exposure).
Longitudinal follow-up
The median follow-up time of the 379 HCV-uninfected patients was 36 (range 18–104) months, providing a follow-up period of 1405 person-years. HCV seroconversion was observed in six patients (4 men) between 1996 and 2005, corresponding to an HCV incidence rate of 4.3 per 1000 person-years. Incidence rates in men and women were 3.5 and 7.8 per 1000 person-years, respectively (p = NS). All but one seroconversion occurred since 2003, yielding to an incidence rate of 1.2 per 1000 person-years before January 2003 and 8.3 per 1000 person-years since 2003 (p = 0.06).
In four of six patients, the classic risk factors for HCV infection (IVDU, blood transfusion, recent invasive medical procedures, a history of acupuncture, tattooing or, body piercing) were inquired into, but were not found.
Patients A and B were women (A: HCV genotype 3; B: HCV genotype 1a). Both had a history of body piercing during the period around HCV seroconversion. Patient B reported inconstant condom use and intravenous drug use in the few months before HCV seroconversion with her steady partner who was an IVDU who became HIV infected in 2002 and was diagnosed HCV infected in 2003.
The other four cases of HCV seroconversion occurred in men (C, E, F: HCV genotype 4d; D: HCV genotype 1). All four patients reported highly at-risk sexual behaviour with unprotected anal sex with men. At the time of HCV seroconversion, syphilis was concomitantly diagnosed in two of them (C and E). A history of syphilis (in patients D and E) and Chlamydiatrachomatis prostatitis (D) was also recorded.
DISCUSSION
Evidence is now available that HCV may be transmitted via the sexual route. Indeed, HCV is detectable in semen,15,16 and male-to-female sexual transmission has been clearly documented.17 We observed an HCV incidence rate of 4.3 per 1000 person-years in a cohort of HIV-infected patients comprising <1% of injecting drug users and where most people became HIV infected through the sexual route. We also showed that HCV seroconversion occured not only in HIV-infected MSM but also in HIV-infected women. In France, the incidence rate of HCV infection in the general population has been estimated at a much lower level, 0.076 per 1000 person-years.18 The same trend was also found in Switzerland, where the incidence of acute HCV ranged from 0 to 0.04 cases per 1000 person-years in the general population (http://www.bag.admin.ch/infreprting/gs01/index.htm.), but it reached 7 per 1000 person-years among HIV-infected MSM between 1988 and 2004.10 The incidence rate of HCV transmission was also evaluated among a large sample of non-HIV-infected, heterosexual, monogamous HCV-serodifferent couples followed for 10 years in Italy, and reached only 0.37 per 1000 person-years.19 In our study, we also found that the proportion of MSM with positive anti-HCV antibodies at the time of PHI was low (4.3%), suggesting that, even among MSM with at-risk sexual behaviour (given that they acquired HIV), HCV prevalence was low before the acquisition of HIV infection. This is in keeping with other published data, suggesting that HCV sexual transmission may be enhanced by HIV coinfection,20 past or current syphilis or gonorrhoea,20–22 herpes simplex type 2 infection23 and at-risk sexual behaviour with multiple casual partners,23–25 anal intercourse17,26 and traumatic sexual practices.8
HCV RNA is more often detected in semen of HIV–HCV-coinfected men than is HCV-monoinfected patients,16 and HIV-infected men have markedly higher seminal lymphocytes than HIV-uninfected men,27 which could yield a higher viral burden of HCV in the semen of HIV–HCV-coinfected men than in HCV-monoinfected men. In addition, the concomitant presence of another STI, with genital erosive lesions, may facilitate HCV infection.21 In two of the four men who seroconverted for HCV, the concomitant diagnosis of syphilis may suggest that HCV was transmitted when a chancre was present. Finally, high-risk sexual practices with bleeding during sex may facilitate transmission of blood-borne infections such as HCV.8
Interestingly, the only identified risk factor in men was at-risk sexual behaviour, whereas the classic risk factors for HCV acquisition were found in both women. In addition, even if we considered that patient B might have acquired HCV through heterosexual intercourse with her HCV-infected partner, the incidence of heterosexual transmission of HCV in our cohort would be close to that reported by Vandelli et al,19 suggesting that the increase in HCV incidence is fuelled by the sexual route only in a specific group of MSM engaging in highly at-risk sexual behaviour. Moreover, patients C, E and F were infected with HCV genotype 4d in 2003 and 2004, concomitantly with other reports of acute HCV infections with a cluster of HCV genotype 4d in the same geographical area,9 suggesting the sexual spread of this genotype in HIV-infected MSM in Paris.
We showed that acquisition of HCV infection seems to be more frequent in HIV-infected people followed up in the French PRIMO cohort (especially in MSM) than in non-HIV heterosexual people, and the incidence of HCV has increased in this cohort since 2003, concomitantly with other reports of increasing STI incidence among HIV-infected MSM, thus confirming the shift in the sexual behaviour of this population between the late 1990s and the beginning of the 21st century,11 with a recent lower adherence to safer sex. As the treatment of chronic HCV infection is less potent in HIV–HCV-coinfected patients than in HCV-monoinfected patients,28,29 early identification of acute HCV infection is important as treatment during the acute phase may represent a window for HCV eradication.30 Thus, repeated screening for HCV antibodies in HCV-negative HIV-infected patients (not only MSM) with sexual activity should be recommended and routinely set. HIV-infected patients should be aware of the ongoing HCV spread, and specific recommendations regarding protected sex (condom use and gloves for at-risk practices) should be clearly provided for the prevention of STI and blood-borne diseases.
Acknowledgments
We thank all the patients and the participating doctors.
REFERENCES
Footnotes
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Published Online First 21 August 2006
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Funding: This study was supported by a scholarship from Sidaction-Ensemble Contre le Sida (JG) and funded by the French National Agency for Research on AIDS.
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Competing interests: None declared.
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Part of this study was presented at the 13th Conference on Retroviruses and Opportunistic Infections, Denver, Colorado, USA, February 2006.
Contributors: : JG: clinical coordination, study design, paper writing; CD: coordination of the PRIMO Cohort, sample monitoring, statistical analysis; CG: referent physician of the PRIMO Cohort study, study design, paper writing; IG: virology assessments; NS and ZN: study monitoring of the PRIMO Cohort; J Galimand: virology assessments; CR: referent virologist of the PRIMO Cohort, study design, paper writing; LM: principal investigator of the PRIMO Cohort, study design, satistical analysis, paper writing; M-LC: principal investigator, study design, virological validation, paper writing.
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