There was also a weak association of low maternal CD4 cell count and cigarette smoking with an increased risk of prematurity, both in the univariable and in the multivariable analyses. However, confidence intervals on the estimates were wide for both cART and CD4 cell count, and also for nicotine use. Maternal age, ethnicity, history of drug use
and viral load were not associated with the risk of prematurity (Table 2). There is controversy as to whether exposure to cART in HIV-1-infected pregnant women selleck inhibitor increases the rate of premature birth. It has specifically been argued that heterogeneity in outcomes of previous studies [1–3,8] may have been caused by uncontrolled confounding from maternal risk factors in studies indicating elevated risk of prematurity, which included the initial study based on data from the Swiss MoCHiV cohort [1]. Here we reanalysed the updated Swiss data, which provided more complete and precise information on potential risk factors for prematurity, the exact duration and composition of ART, and maternal lifestyle characteristics following the integration of the MoCHiV in the SHCS. In agreement with our earlier combined KU-57788 mouse study with the ECS [2], we found a positive association between intensity of ART regimen (increasing in intensity from no ART to mono/dual ART regimen
to cART) and the risk of premature birth in a crude analysis of all available pregnancies (analysis 1). Prematurity rates increased with calendar year in HIV-1-infected pregnant women, as shown in other studies [9]. This trend was in accordance with the increasing intensity of ART regimen
with calendar year, but not with changes in key maternal risk factors for prematurity. Consistent with intensified ART, pregnant women showed an increase in the median CD4 cell count and a decline in the proportion of women with detectable viral load, while the prevalence of tobacco use and IDU declined. Further analyses (analyses 2 and 3) that included women exclusively on cART and with precise information about the time-point of initiation of treatment indicated higher prematurity rates in children whose mothers started cART before pregnancy as compared with Niclosamide mothers starting in the third trimester, similar to the findings of our previous ECS/MoCHiV study [2]. However, the risk of prematurity was not different between mothers starting cART before and during pregnancy, and there was also no association between the total duration of cART before delivery and the duration of pregnancy. As a consequence of incompleteness of data in the early MoCHiV database, our crude time trend analysis of potentially confounding risk factors for prematurity in all pregnancies (Fig. 2) has to be interpreted with caution. For instance, available information on maternal smoking was imperfect, because no indication of tobacco use may also signify that no information about smoking behaviour was available.