Prenatal diagnosis and prevention of toxoplasmosis in pregnant women in Northern Vietnam: study protocol

The study will be conducted in collaboration with The Parasitology Department of the National Institute of Malariology, Parasitology and Entomology (NIMPE) in Hanoi, and the serological tests will be carried out in their laboratory. The two study sites are the National Hospital of Obstetrics and Gynaecology in Hanoi, one of the leading hospitals in Vietnam for obstetrics and gynaecology, and the Hospital of Obstetrics and Gynaecology in the Thai Binh province (120 km south east of Hanoi). In the first hospital approximately 200–300 pregnant women present for consultation and follow-up each day and in the second hospital around 150. Vietnam allows families to have a maximum of two children (decision no 162-HDBT, date 18 October 1988), which induced a decrease in the population size over the years. The country showed a crude birth rate of 16.2, with 15.3 in urban areas and 16.7 in rural areas in 2015. The age-specific fertility rate was 24 per 1000 women in the age category 15–19 years in 2009, compared to the highest rates of 121 and 133 per 1000 women in the age categories 20–24 and 25–29 years, respectively [15]. Hanoi, with geographical location (21°.2′N, 105°51′E), has a population size of 7.2 million and Thai Binh province, with geographical location (20° 30′N, 106° 20′E), has a population size of 1.8 million approximately [15]. In contrast to the rest of Vietnam, Thai Binh has a dense cat population, which consist of pets, street cats, and cats for meat consumption. Thai Binh is therefore also known as the “cat province” [21].

The cooperating gynaecologists will identify eligible pregnant women attending the antenatal care for the first time during the specified study period. In order to be eligible, study participants must meet the following criteria: pregnant woman; between 16 and 48 years old; gestational age ranging from 0 to 14 weeks; HIV negative; follow-up of pregnancy by one of the collaborating gynaecologists of the collaborating hospitals; willingness to participate during the total duration of pregnancy and if necessary after birth; willing and able to provide written informed consent (by signature of the patient or, in case the person is illiterate, by thumbprint and a signature of an impartial witness).

Both hospitals are public hospitals, accessible for women of all layers of the society. Women in Vietnam, especially in urban areas, tend to go the gynaecologist from the moment they suspect to be pregnant and go for follow up consultation and ultrasound every month until delivery. Since the study will only include pregnant women attending antenatal care for the first time it is unlikely we will have an overrepresentation of women with potential complications. Therefore, we believe that both the hospitals in Hanoi and Thai Binh can recruit a representative population of pregnant women.

Assuming an expected prevalence of 50% and an absolute precision of 5% at a 95% confidence level, the required sample size for estimating the seroprevalence in eligible pregnant women should be at least 385 per hospital [22]. To account for a small number of potential dropouts (which will be avoided as much as possible) we decided to increase the sample size to 400 per hospital.

At the first consult awareness will be raised on the importance of toxoplasmosis and its possible consequences on pregnancy. The benefits and risks for pregnant women to know their serological status will be explained and they will be asked by their gynaecologist to participate in the study and to fill in the informed consent form (see Additional file 1). In addition, they will receive an information folder in Vietnamese including prevention measures for toxoplasmosis, which will be reiterated mid-gestation (see Additional file 2). Participants will be asked to fill in a structured questionnaire to detect socio-demographic and biologically plausible risk factors associated with toxoplasmosis, awareness, clinical history and presentation of signs and symptoms relating to toxoplasmosis (see Additional file 3). During the same consult 5 ml blood will be collected from participating women by the gynaecologist in the hospital.

To detect recent infections an IgM test will be conducted using the ISAGA kit (Immunoglobulin-M immunosorbent agglutination assay, BioMérieux, Marcy-l’Etoile, France), according to the manufacturers’ instructions. Detection of IgM and IgG is possible after approximately 2 and 4 weeks after infection, respectively. IgM is detectable by ISAGA for approximately a year (median 12.8 months, interquartile range 6.9–24.9) whereas IgG persists lifelong in immunocompetent people [23‐25].

Women that test positive for IgG only are considered seropositive and thus immune. Women who are IgM positive will be tested again for IgG and IgM 3–4 weeks later (Fig. 1). An IgG negative and IgM positive test result in the first test and an IgG positive test result 3–4 or 6–8 weeks later is indicative for seroconversion. When positive for IgG and IgM in the first test an IgG avidity test (on the first serum sample; performed in the National Hospital of Obstetrics and Gynaecology in Hanoi) will be done to determine the time of seroconversion.

The IgG avidity test measures the aggregate strength with which the antibodies bind to the antigens. The affinity increases over time of infection, which means high avidity indicates an old infection (>3 months ago). Low avidity can be an indication of recent infection, but some individuals have persistent low IgG avidity for many months after infection, which means it cannot be used alone to determine whether the infection was recently acquired [26].

At any suspicion of seroconversion, women will be followed-up (including an ultrasound every 4 weeks) by their treating gynaecologist. The gynaecologist will make sure these women will be advised correctly about the risks of transmission to the foetus, the risk of symptoms when there is a congenital infection, the steps that will have to be taken during follow-up, and all worries/anxieties/guilt will be carefully discussed and put into perspective. Amniotic fluid PCR can be performed starting from 18 weeks of gestation onwards and at least 8 weeks after diagnosis of seroconversion. The risk of the procedure should be carefully weighed against the potential benefit of diagnosing fetal infection [27].

Women that test negative for toxoplasmosis specific IgG and IgM in the first test will be informed by their gynaecologist about (congenital) toxoplasmosis as a disease and what measures should be taken to avoid toxoplasmosis during pregnancy. A folder (in Vietnamese) will be handed out to all participants explaining (congenital) toxoplasmosis and its prevention. These recommendations will be reiterated to seronegative women at around mid-gestation.

If there is any indication for congenital toxoplasmosis, NIMPE will make sure that the child will be correctly investigated and followed-up for any signs and symptoms of congenital toxoplasmosis by a neonatologist/paediatrician of the parents’ choice. For serology, blood samples will be collected by the treating neonatologist/paediatrician within 2 days and tested for toxoplasmosis specific IgM, IgA (performed in Belgium) and IgG. This will be repeated after 10 days and every month up to 4 months, and then at 6, 9 and 12 months after birth. NIMPE will take care of the follow-up serology and will give all necessary support to the treating paediatrician and parents. The presence of IgM and IgA in neonatal serum is diagnostic for congenital toxoplasmosis. However, the sensitivity is low and decreases when the infection occurred early during pregnancy. Persisting IgG antibodies 9 months to 1 year after birth are an indication for congenital toxoplasmosis but only if the mother is also found IgG positive in the perinatal period [28].

Table 1 shows an overview of the activities during the different antenatal consults. A detailed patient form should be filled in for every patient by the treating gynaecologist (see Additional file 4) and if follow-up and additional medical care is necessary, the gynaecologist can consult the provided doctors’ form with the most important information, including diagnostics, prognostics and options for treatment (available from the authors upon request).

After finalization of each laboratory test, a picture will be made of the Toxoscreen-DA and ISAGA plates for documentation purposes and for interpretation support. All serum samples (frozen at −25 ± 6 °C) and documents will be retained at NIMPE for 5 years after the completion of the study, which assures the possibility to retrospectively look back at the results in case an asymptomatic child at birth shows any symptoms later in life.

The laboratory of the Parasitology Department, NIMPE, has received the ISO Certificate VILAS no 924 in May 2016. Local investigators will ensure compliance with protocols and quality of samples, documentation and analyzes. The results will always be validated according to the verification procedure set up in the lab for quality control.

Data from the source documents will be entered in Microsoft Excel 2011 and access to the file will be protected by a password. Data and results will be handled confidentially and privacy of participants will be assured. All personal information is only documented in the file of the treating gynaecologist and will be encoded by a unique patient number. These codes will be linked to the respective informed consents, questionnaires, samples and patients’ forms thereby blinding investigators to direct identification of the data. The results of the blood testing will be communicated to the treating gynaecologists and from there to the participating women.

Cross-sectional studies are observational and descriptive studies and can be used to describe the seroprevalence and risk factors. In the group where there is suspicion of a seroconversion, the respective women will be followed-up (longitudinal) by their gynecologists.

The seroprevalence of toxoplasmosis in pregnant women in Hanoi and Thai Binh will be determined and a comparison will be made between these two regions. The overall incidence of toxoplasmosis can be calculated using a disease transmission model. The simplest disease transmission model is the so-called catalytic model, which divides the population into a seronegative and seropositive compartment. The rate at which seronegative individuals become positive over time is called the force of infection (λ), and is directly related to the overall incidence. Under the assumption of lifelong immunity and homogenous transmission dynamics over time, it can be shown that the age-specific seroprevalence π(a) is related to the age-specific force of infection λ(a). As a result, the force of infection can be statistically determined from the age-specific seroprevalence. The simplest model assumes an identical force of infection for each age group (i.e., λ(a) = λ) [29]. In reality, however, this assumption is not always accurate. Therefore, the force of infection can also be modelled as a linear or quadratic function, or, more flexibly, using fractional polynomials or splines [30]. We will choose the model that best suits the data.

Based on the incidence in the pregnant women, the incidence of congenital cases will be estimated. For toxoplasmosis it is commonly assumed that only primo-infection of seronegative mothers may lead to congenital infections [31]. The incidence of this congenital infection will depend on the force of infection, the age-specific seroprevalence of women, and the risk of trans-placental transfer of the pathogen. In addition, we will be able to assess the incidence of toxoplasmosis during the first trimester of pregnancy and the related incidence of congenital infections due to the follow-up of women that test positive for toxoplasmosis related IgM. Based on the information on the incidence in the first trimester, combined with information on the percentage of congenital infections seen in the first trimester [24] we can estimate the total incidence of congenital toxoplasmosis and this can be verified with the estimated incidence based on seroprevalence data. By combining the incidence estimate with information on the clinical impact from Torgerson and Mastroiacovo [5] and we will be able to estimate the public health impact of congenital toxoplasmosis in Northern Vietnam in terms of DALYs, which combine disease occurrence and clinical impact in a single number [32]. And by combining incidence estimates with the costs related to the protocol we will be able to assess the cost-effectiveness of this screening and prevention program.

The questionnaire will be analysed to detect socio-demographic and biologically plausible risk factors associated with toxoplasmosis, awareness, clinical history and presentation of signs and symptoms relating to toxoplasmosis. Multivariable analyses will be performed to investigate the association between T. gondii seropositivity as a dependent variable and possible demographic and risk factors as independent variables. To account for the study design, data analysis will be based on generalized linear models. All calculations will be performed in R 3.3.1 at the Institute of Tropical Medicine (ITM) in collaboration with NIMPE [33].