Recommendations regarding the management of HIV-infected women during pregnancy have evolved considerably in Europe in recent years, reflecting changes in the epidemic, as well as in the knowledge of HIV prevention and treatment . In the USA, the overall annual rate of mother-to-child transmission (MTCT) of HIV decreased from 3% to 2% from 2005 to 2008 . In the UK and Ireland, MTCT rates have continued to decline since 2006, reaching an all-time low of 0·46% in 2010–2011 [Reference Townsend3]. In Italy, between 2013 and 2014, only nine children acquired an HIV infection during pregnancy, labour or breastfeeding . Nevertheless, debates about several issues such as the overuse of elective caesarean deliveries remain open, particularly regarding women who have plasma HIV-RNA <50 copies/ml and no other contraindication to a vaginal delivery . Current guidelines recommend a caesarean section only when the mother has a detectable HIV-RNA , since it can result in a potentially useless and harmful intervention when the maternal viral load is undetectable [Reference Watts6]. Moreover, the incidence and frequency of adverse pregnancy outcomes, in particular in women receiving antiretroviral therapy (ART), might require further investigation. Finally, recent changes in HIV epidemiology and their potential influence on engagement in care, therapy adherence and retention in care are of particular interest, along with the sociodemographic and lifestyle factors of these patients [Reference Bulterys7]. In this context, the primary changes recorded in Italy within the last years have been characterised by an increase in the number of foreign citizens diagnosed with HIV and a change in risk factors for infection (i.e., an increase in heterosexual transmission in women compared with the one caused by intravenous drug use) . Moreover, Italian women are now the oldest in Europe at the time of their first pregnancy .
The primary objective of the study was to analyse trends and patterns of pregnancies among HIV-infected women over three decades in a ‘real-life’ setting of care. A secondary objective was to assess the risk factors associated with preterm delivery and severe small-for-gestational-age (SGA) infants in HIV-infected women. This observational, longitudinal study includes the full database of deliveries among HIV-infected women from 1985 to 2014 that occurred at University of Genoa and IRCCS San Martino-IST in Genoa, Italy.
A retrospective review of deliveries among HIV-infected women followed at the University of Genoa and IRCCS San Martino-IST in Genoa between January 1985 and December 2014 was performed. The study population includes women from the European Collaborative Study (ECS), a prospective cohort study enrolling HIV-positive pregnant women in 10 European countries in 1985–2011, and women excluded from the ECS. Our research centre enrolled HIV-positive women in ECS from 1985 to 2004. Therefore, our cohort of HIV-infected pregnant women was composed of women enrolled in the ECS in 1985–2004, women excluded from the ECS because they did not fulfil the eligibility criteria (pregnant women who received HIV diagnosis before or during pregnancy) and women with pregnancy in 2005–2014. The informed consent of women enrolled in ECS was obtained before their enrolment, whereas informed consent of other women was not required, as this is a clinical audit of routinely collected clinical data. However, informed consent for the use of anonymised data for scientific purposes was signed by all patients admitted to IRCCS AOU San Martino – IST and included in the study. A consent from the Ethical Committee of Liguria Region was obtained for data analysis and publication purposes. According to the ECS protocol , the collected data included demographic characteristics, HIV infection, hepatitis C virus (HCV) and hepatitis B virus (HBV) co-infection, heroin and methadone use during pregnancy, plasma HIV-RNA load at delivery, ART before and during pregnancy, antiretroviral prophylaxis during labour and delivery, and mode of delivery. Information on preterm delivery, birth weight, mode of infant feeding and HIV infection were also obtained for each newborn. The analyses were based on the number of pregnancies rather than women, thus some women were included more than once.
Years of delivery were grouped in three decades: 1985–1994, 1995–2004 and 2005–2014. The timing of HIV diagnosis was classified as it occurred: (a) prior to pregnancy, in women already known to be HIV infected; (b) during pregnancy, in women screened for HIV infection during pregnancy and resulted HIV positive; (c) at/after delivery, in women not screened for HIV during pregnancy but only at or immediately after delivery. In term of exposure to ART, pregnancies were classified as untreated, treated with monotherapy or dual therapy, and receiving combined antiretroviral therapy (cART). cART was categorised as protease inhibitor (PI)-based regimen or else, based on the PIs inclusion or exclusion. CD4+ T-cell count (not routinely reported before 2000) was categorised as <200 cells/μl, 200–499 cells/μl and ⩾500 cell/μl. The latest CD4+ T-cell count before delivery was included in the analysis. HIV-1 RNA levels were determined through the following assays: Nuclisens EasyQ HIV-1 2·0 (BioMérieux SA, Marcy l'Etoile, France). Tests were usually carried out on plasma samples, but occasionally on stored serum samples. HIV-RNA (collected from 1998 onward) was categorised as undetectable (⩽50 copies/ml) or detectable (>50 copies/ml), according to the cut-off value defining virological suppression reported in European and Italian Guidelines [10, 11]. The closest to delivery HIV-RNA value was used in the analysis.
Mode of delivery was reported as vaginal or per caesarean section. Caesarean section was defined as elective when performed before the onset of labour and with intact membranes, and as emergency in the other cases. Delivery was defined as preterm when it occurred before the 37th week of gestation. A severe SGA birth was identified with a newborn birth weight lower than the 3rd percentile for the gestational age [Reference Vayssière12]. A narrow definition of SGA was used because infants with birth weight lower than 3rd percentile were strongly and most consistently associated with adverse perinatal outcome [Reference Unterscheider13]. HIV status in the infant was investigated as follows: at birth, at 2–4–6 weeks of age and at 3–6–9–12–18–24 months of age (as the infant was still positive at 18 month) using both serological and molecular assays. For the serological follow-up, Vironostika HIVAg/Ab UniForm EIA (BioMérieux Laboratories, Boxtel, NL, USA), Genscreen Plus HIV Ag/Ab EIA (Bio-rad, Marne la Coquette, France) and New Lav Blot I (Bio-rad, Marne la Coquette, France) were performed. For the molecular follow-up, HIV-1 RNA and HIV-1 DNA in PBMC (peripheral blood mononuclear cells) were performed. HIV-RNA was measured by using Nuclisens EasyQ HIV-1 2·0 (BioMérieux SA, Marcy l'Etoile, France). HIV-1 DNA was measured by using the C-PCR (commercial PCR) system manufactured by Amplimedical S.p.A – Bioline Division (Italy), designed to amplify a 600-base pair (bp) undefined pol region since the test was available on the market; subsequently, HIV-1 DNA was performed by using a H-PCR (homemade PCR) system designed to amplify a highly conserved 508 bp HIV-1 pol integrase region [Reference Bruzzone14]. HIV infection was excluded if HIV serological and molecular assays were negative.
All statistical analyses were performed using Epi-Info 7·0 (Centers for Disease Control and Prevention (CDC), Atlanta, GA, USA) and JMP ® 10 (SAS Institute Inc., Cary, NC, USA) software for Windows.
Continuous numeric variables were summarised as mean and standard deviation for normalised distributed variables and as median and interquartile range for non-normalised variables. Categorical variables were summarised in the form of percentage proportions.
The baseline characteristics of the study population by decade of pregnancy were compared using χ 2 and Fisher exact test [Reference Agresti15] and the differences in numeric variables were evaluated through ANOVA (analysis of variance) test for normalised distributed variables or Wilcoxon signed-rank test for non-parametric statistical analysis as appropriate [Reference Fay and Proschan16].
For the assessment of factors associated with preterm birth and severe SGA, continuous variables were dichotomised and cut-off values were determined through ROC (receiver operating characteristic) curves. Then, all variables were compared in univariate analyses by the χ 2 test or the Fisher exact test, as appropriate. These tests were performed for both comparisons and they all were two-sided. To assess the independent role of risk factors, variables with a P value <0·05 in univariate comparisons were included in logistic regression models. The odds ratio (OR), 95% confidence intervals (95% CI) and corresponding P values obtained in the logistic regression models were reported.
All tests were two-tailed and a P value <0·05 was determined to represent statistical significance.
Our cohort included 262 deliveries from 231 HIV-infected women. One hundred and twenty-one deliveries (46·2%) occurred in the decade 1985–1994, 71 deliveries (27·1%) occurred in the decade 1995–2004 and 70 deliveries (26·7%) within the period 2005–2014. Of these deliveries, 143 (54·6%) were in women enrolled in the ECS and 119 were in women not enrolled in ECS because they were diagnosed with HIV at or after their delivery (49, 18·7%) or they became pregnant after 2004 (70, 26·7%). The demographic and clinical characteristics of the women, stratified by decade, are listed in Table 1. Briefly, in the first decade all women were Italian, their median age was 26 years, and drug injection was the most frequent risk factor for HIV infection (91/121, 75·2%). Twenty-four out of 121 patients (19·8%) were HCV-infected, 50/121 women (41·3%) were diagnosed prior to their pregnancy and 28/121 women (23·2%) were diagnosed during their pregnancy. In the last decade, 27/70 women (38·6%) were not Italian, the median age was 34 years, 44/70 patients (62·9%) had heterosexual intercourse as a risk category for HIV infection and 7/70 women (10%) were HCV co-infected. The diagnosis of HIV infection was performed prior to pregnancy in the majority of cases (56/70, 80%). Conversely, among the foreigners the median age was 31 years for African women and 36 years for South-American women, and the majority of them had heterosexual intercourse as a risk category for HIV infection (21/22, 91·5% of South-American women and 6/11, 54·5% of African women), and HCV co-infection was uncommon (1/22, 4·5% among South-American women and 0% among African women) (Supplementary Table S1 in the Supplementary Material). Almost all of the differences in demographic and clinical characteristics analysed according to calendar year and ethnic group were statistically significant based on univariate analysis (P < 0·001, for all the characteristics noted above). In the first decade, all patients were not on ART at conception and almost all (107/121, 88·4%) had not been treated during pregnancy. All 14 patients treated with ART in this period received monotherapy. The proportion of patients on ART at conception and during pregnancy was significantly higher in foreign women compared with Caucasian women (19/22, 86·4% and 9/22, 40·9% among South-American women and 9/11, 81·8% and 4/11, 36·4% among African women, respectively), and increased during the following decades (9/71, 12·7% and 36/71, 76·1% in the second decade, 36/70, 51·4% and 64/70, 91·4% in the third decade, respectively, P < 0·001), as well as the proportion of women receiving cART (27/71, 50% in the second decade, 59/70, 92·2% in the third decade, P < 0·001). Demographic and clinical characteristics of HIV-infected pregnant women according to use of methadone or heroin are listed in Supplementary Table S2 in the Supplementary Material. Information related to CD4+ T-cell count and plasma HIV-RNA load at delivery was available only for a small number of women (91/262, 35% and 90/262, 34%, respectively). The proportion of women with HIV-RNA load ⩽50 copies/ml at delivery was significantly higher in recent years (5/26, 19·2% in 1995–2004 vs. 53/64, 82·3% in 2005–2014, P < 0·001).
IQR, interquartile range; MTCT, mother-to-child transmission; HBV, hepatitis B virus; HCV, hepatitis C virus; ART, antiretroviral therapy; cART, combined antiretroviral therapy; PROM, premature rupture of membranes; SGA, small for gestational age.
* Percentages exclude unknown/missing results.
† Measurement closest to delivery.
‡ Delivery was defined as preterm when it occurred before 37th gestational week.
§Severe SGA birth was defined when newborn birth weight was lower than the 3rd percentile for the gestational age.
¶In the first decade, there were three deaths in newborns after delivery and one twin pregnancy. One twin pregnancy was in the second and two were in the third decade.
In the first decade, vaginal delivery was the most frequent mode of delivery (107/121, 88·4%), while elective caesarean sections progressively increased in the following years (11/121, 9·1% in 1985–1994; 44/71, 63·7% in 1995–2004; 65/70, 92·9% in 2005–2014, P < 0·001). In the last decade, no women delivered vaginally, 65/70 (92·9%) women had an elective caesarean section and 5/70 (7·1%) women had an emergency caesarean section. Of the women who received an elective caesarean section, 55/84 (65·5%) had an undetectable plasma HIV-RNA load at delivery (Supplementary Table S3 in the Supplementary Material).
The number of twin pregnancies was one in the first decade, one in the second decade and two in the third decade. The rate of preterm delivery was significantly higher in the last decade (6/121, 5·0% in 1985–1994; 7/71, 9·8% in 1995–2004; 12/70, 17·1% in 2005–2014, P = 0·02). Severe SGAs were similar in the three periods (23/121, 19·5% in 1985–1994; 21/71, 29·6% in 1995–2004; 11/70, 15·7% in 2005–2014; P = 0·11). Four infants were characterised by both preterm delivery and severe SGA birth. Only three infants were breastfed (2/121 in 1985–1994 and 1/71 in 1995–2004). In the first decade, three newborns died after delivery and their serological status was unknown. Overall, 18 newborns (6·8%) were HIV-infected, all in the period 1985–2004. Of these newborns, 12 (10·1%) were born in the first decade and 6 (8·3%) were born in the second decade. The last case of MTCT was observed in 2000.
The results of the univariate analysis and multivariable logistic regression analysis for the preterm deliveries are listed in Table 2. An advanced maternal age (age ⩾32 years) and previous pregnancies were the maternal factors associated with preterm delivery (OR 2·9; 95% CI 1·1–8·4; P = 0·03 and OR 2·5; 95% CI 1–6·4; P < 0·05, respectively). The univariate and multivariable logistic regression analyses for severe SGA infants are reported in Table 3. Among the maternal risk factors explored, only the maternal use of heroin or methadone during pregnancy was correlated with severe SGA infants (OR 3·1; 95% CI 1·4–6·8; P = 0·007).
MTCT, mother-to-child transmission; HBV, hepatitis B virus; HCV, hepatitis C virus; ART, antiretroviral therapy; cART, combined antiretroviral therapy; PROM, premature rupture of membranes.
*Variables with P < 0·1 in univariate analysis (decade of birth, age ⩾32 years, type of ART during pregnancy, antiretroviral prophylaxis intrapartum and previous pregnancy) were included in multivariable analysis. Timing of HIV diagnosis and ART prescription during pregnancy were excluded from multivariable analysis because of collinearity with the variable ‘type of ART during pregnancy’.
† Percentages exclude unknown/missing results.
‡ Measurement closest to delivery.
SGA, small for gestational age; MTCT, mother-to-child transmission; HBV, hepatitis B virus; HCV, hepatitis C virus; ART, antiretroviral therapy; cART, combined antiretroviral therapy; PROM, premature rupture of membranes.
*Variables with P < 0·1 in univariate analysis (heterosexual intercourse as mode of transmission, smoke, use of methadone or heroin, ART at conception) were included in multivariable analysis.
† Percentages exclude unknown/missing results.
‡ Measurement closest to delivery.
In this cohort of HIV-infected pregnant women from a large teaching hospital in Genoa, we described the changes in demographic, clinical and therapeutic characteristics and neonatal outcomes that occurred in the decades 1985–2014. In short, we report a significant increase in the median age (currently 34 years) and in the proportion of foreigners among HIV-infected pregnant women (currently 38·6%). Furthermore, in the last decade the most frequent risk factor for HIV infection in pregnant women has shifted away from injected drug use to heterosexual intercourse, and vertical transmission has become another risk category for HIV infection among pregnant women. With the reduction in injecting drug use as a risk factor, the number of HCV co-infected pregnant women decreased as well from 19·8% in 1985–1994 to 10% in 2005–2014, as observed among the HIV-infected general population [Reference Peters and Klein17]. In recent years, the proportion of patients on ART at conception and during pregnancy significantly increased, as expected. In fact, in the last decade 51·4% of women were on ART at conception and 91·4% received treatment during their pregnancy. Among antiretroviral regimens, cART has become the most widely used (92·2%), achieving the suppression of HIV-RNA load at delivery in the majority of cases (82·8%). These changes in the epidemiology of HIV-infected pregnant women reported in our cohort are consistent with surveillance data and findings of previously published studies [Reference Peters and Klein17–Reference Huntington21]. In a pooled analysis of data on HIV-infected pregnant women enrolled in the Swiss Mother & Child HIV Cohort Study and the ECS between 2000 and 2010, Aebi-Popp et al. reported data similar to ours: overall, 48% women were black, the most common mode of HIV acquisition was heterosexual contact (76%), 16% of women had a history of injecting drug use, the majority of pregnant women were aware of their HIV diagnosis before conception (72%), 91% received ART throughout their pregnancy and delivery and 86% had an undetectable HIV-RNA load at delivery [Reference Aebi-Popp20]. In our cohort, foreign women were older than Italian women (median age, 31 years for African women, 36 years for South-American women vs. 28 years for Italian women). Moreover, they were more likely to be receiving ART at conception and a higher proportion of them received cART during pregnancy compared with Caucasian women. Even though the fraction of foreigners has been increasing in the recent years, overall they represented only 13·4% of the women in our cohort.
The prevalence of elective caesarean sections progressively increased within the last few years to become the most frequent mode of delivery (92·9% elective and 7·1% emergency caesarean sections). The very high rate of elective caesarean section deliveries reported in our study is not surprising considering that Italy is the country with the highest rate of caesarean sections among HIV-uninfected women in the European Union . We note, however, that this situation contradicts European and national guidelines [10, 11, Reference Aebi-Popp23]. Elective caesarean sections have been recommended to prevent MTCT in the absence of ART since 1997 [Reference Kind24, 25]. However, with the growing use of cART the additional benefit of an elective caesarean section in reducing MTCT became uncertain; European and national guidelines changed and now recommend vaginal deliveries for all HIV-infected women with an undetectable HIV-RNA load at delivery in the absence of an obstetric indication for an elective caesarean section. We reported ‘real-life’ data in which the high rate of elective caesarean sections could be partially justified and may have contributed to reducing MTCT, considering that during the last decade 5·7% of HIV diagnoses in our cohort still occurred at/after delivery, only 91·4% of pregnant women received cART during pregnancy and 17·2% of women were not virologically suppressed at delivery. Nevertheless, in the last decade only 15/65 (23·1%) of the caesarean sections occurred in women not virologically suppressed or with a plasma HIV-RNA load not known at delivery. This suggests that in 76·9% of cases the caesarean section was not justified according to national and international guidelines. The procedure might have instead been due to the gynaecologists’ clinical concern regarding the theoretical risk of HIV transmission associated with obstetrical interventions.
In our cohort, HIV vertical transmission rates gradually decreased during the first decade and then rapidly dropped between 1995 and 2000. No instances of MTCT occurred since 2000. This dramatic decrease in MTCT is consistent with data published in other European studies that reported a decrease in HIV vertical transmission rates from 15% to 25% in the early 1990s to <2% in recent years [9, Reference Duong26, 27]. In the UK and Ireland, the rate of MTCT declined from 2·1% in 2000–2001 to 0·46% in 2010–2011 due to the widespread use of cART [Reference Townsend3]. The zeroing of MTCT among HIV-infected pregnant women in our cohort since 2000 is a remarkable achievement, enabled by excellent improvements in HIV detection rates before or at least during early pregnancy, the extensive and routine use of cART among HIV-infected women and the use of elective caesarean sections in women not virologically suppressed.
In our study, preterm delivery rose substantially from 5·0% in the first decade to 17·1% in recent years. The increase in preterm deliveries since the second decade may be related to ART, which has been routinely prescribed in pregnancy since 1994 [Reference Connor28]. In our cohort, only 45 women conceived on ART and 132 were on ART during pregnancy; 46 were receiving mono/dual therapy and 86 were receiving cART. Although the statistical power is low, our multivariable regression analysis revealed that preterm delivery was associated with maternal age and previous live births; no association with cART or other variables was noted. Other studies have investigated the association between preterm delivery and cART and noted heterogeneous results. A possible association between cART and prematurity was initially suggested in 1998 in a Swiss study that reported premature deliveries in 10 out of 30 women receiving cART [Reference Lorenzi29]. Townsend et al. reported that cART was associated with a 1·5-fold increased risk of premature delivery compared with mono/dual therapy [Reference Townsend30]. Cotter et al. reported a similar association, but limited to PI-containing regimens [Reference Cotter31]. In contrast, Kourtis et al., in their meta-analysis, did not demonstrate an increased overall risk of premature delivery associated with the use of cART, even though the early initiation of cART during pregnancy appeared to confer a slightly increased risk of premature delivery [Reference Kourtis32]. Finally, the just-published PROMISE trial reported that preterm delivery was more frequent with zidovudine-based ART than with zidovudine monotherapy [Reference Fowler33]. Discrepant results among different studies could derive from differences in population characteristics, the antiretroviral regimens used and the study periods. The ECS reported an association with the period of the study and increasing maternal age . Although our findings derived from a single centre, they might concur to disprove the association between preterm delivery and cART. The increase in preterm delivery rates reported in recent years in our study may be related to advancing maternal age rather than cART use, considering that advanced maternal age is a known risk factor for preterm delivery in the general population [Reference Hoffman35]. Moreover, we found a previous live birth to be risk factor for preterm delivery, in accordance with the findings of an observational Italian study conducted by Liuzzi et al. [Reference Liuzzi19]. The mechanisms underlying preterm delivery are complex and not completely understood. Nevertheless, an investigation of these mechanisms is beyond the objectives of this study.
The rate of severe SGA remained stable over the course of the study period. In our study, severe SGA was associated with the use of heroin or methadone, but not with other risk factors. Although cART has been suggested to be a possible risk factor for SGA, the relation between SGA and cART remains unclear. An increased risk of very low birthweight (<1500 g) has been reported in one study [Reference Tuomala36], but not in others [27, Reference Cotter31, Reference Tuomala36]. Townsend et al. reported that cART-exposed infants were of lower birthweight than those exposed to mono/dual therapy, but the difference was not clinically significant [Reference Townsend30]. Other than these studies, the association between SGA and chronic use of methadone during pregnancy stems from consolidated data [Reference Pritham, Troese and Stetson37–Reference Brogly40]. The low statistical power of our study was unable to yield solid evidence for the absence of an association between preterm delivery or SGA and cART.
The strength of our study is represented by its long study period, which allowed us to describe the radical demographic and clinical changes occurring in HIV-infected pregnant women over the course of three decades. There were, however, a number of limitations to our study. First, the small number of patients in our cohort, which resulted in a low statistical power of our analysis, represents the major limitation. Second, we report a single-centre experience that included either women enrolled prospectively from ECS and women not enrolled in ECS or excluded women because of their presentation at delivery. Third, due to the retrospective design of the study, limited obstetrical data were available. Furthermore, immunological and virological data were available only for the last two decades and not for all patients. Finally, we included only women whose pregnancies ended in birth; we were accordingly unable to estimate changes in the miscarriage rate.
In conclusion, our study highlights the changing nature of the HIV-infected pregnant population. Above all, the increase in the median age of HIV-infected pregnant women could have an impact on neonatal outcomes, such as an increased risk of preterm delivery. The widespread use of cART prior to and during pregnancy made it possible to achieve the suppression of HIV-RNA load upon delivery in the majority of cases, with a meaningful contribution to the absolute decrease in MTCT. Nevertheless, in a ‘real-life’ setting of care there are still women showing up late in their pregnancies and with detectable HIV-RNA load at delivery. This situation persists not only among foreigners but primarily among Italian women. This fact suggests that it is important to encourage clinicians to engage in early HIV testing for all pregnant women and promote the routine use of cART during pregnancy to maintain a high level of clinical care for all women, who are pregnant or are planning a pregnancy. Not delivering vaginally represents a missed opportunity for HIV-infected women on cART with a suppressed HIV-RNA load and, according to international guidelines, caesarean sections should be restricted to women with late linkage-to-care and without virological suppression. In this regard, future research is necessary to address how earlier engagement in care among HIV-positive pregnant women can be promoted, to achieve viral suppression and the opportunity for HIV-positive pregnant women to deliver vaginally.
Finally, the retrospective nature of our investigation did not allow us to confirm previous studies pertaining to the missing association between cART and the increased risk of preterm delivery or severe SGA. With the changing nature of the HIV-infected female population and the introduction of new antiretroviral drugs as integrase strand transfer inhibitors, further research is needed – especially randomised, controlled clinical trials such as the PROMISE study [Reference Fowler33] – to assess the risk of preterm delivery and SGA in different ethnic populations and in women receiving new antiretroviral regimens.
The supplementary material for this article can be found at https://doi.org/10.1017/S095026881700053X
This research received no specific grant from any funding agency, commercial or not-for-profit sectors. The authors wish to thank all HIV-1-infected pregnant women who participated in the study and medical and nursing staff at Infectious Diseases and Obstetrics and Gynaecology, IRCCS San Martino-IST, Genoa. They also wish to thank the staff at Hygiene Service for the important technical support in the laboratory testing. Finally, the authors wish to thank Dr Andrea Lisi for the review of the English language.
CONTRIBUTOR MEMBERS OF GENOVA HIV NEONATAL AND PREGNANCY WORKING GROUP
A. Calzi, A. Ferrazin, G. Mazzarello, F. Portunato, S. Ratto, R. Rosso, B. Wenda (Infectious Diseases Unit, IRCCS AOU San Martino-IST, University of Genoa, Genoa, Italy); C. Dentone (Infectious Diseases Unit, ASL-1 Imperiese, Sanremo (Imperia) Italy); G. Bentivoglio, L. Gabbi (Department of Obstetrics and Gynecology, IRCCS AOU San Martino-IST, Genoa, Italy); A. Loy (Infectious Diseases Unit, Istituto Giannina Gaslini, Genoa, Italy); M. Setti (Internal Medicine and Clinical Immunology Unit, IRCCS AOU San Martino-IST, Genoa, Italy).
DECLARATION OF INTEREST