Cohort profile: the Chinese Pregnant Women Cohort Study and Offspring Follow-up (CPWCSaOF).

PURPOSE: A multicentre prospective cohort study, known as the Chinese Pregnant Women Cohort Study (CPWCS), was established in 2017 to collect exposure data during pregnancy (except environmental exposure) and analyse the relationship between lifestyle during pregnancy and obstetric outcomes. Data about mothers and their children's life and health as well as children's laboratory testing will be collected during the offspring follow-up of CPWCS, which will enable us to further investigate the longitudinal relationship between exposure in different periods (during pregnancy and childhood) and children's development. PARTICIPANTS: 9193 pregnant women in 24 hospitals in China who were in their first trimester (5-13 weeks gestational age) from 25 July 2017 to 26 November 2018 were included in CPWCS by convenience sampling. Five hospitals in China which participated in CPWCS with good cooperation will be selected as the sample source for the Chinese Pregnant Women Cohort Study (Offspring Follow-up) (CPWCS-OF). FINDINGS TO DATE: Some factors affecting pregnancy outcomes and health problems during pregnancy have been discovered through data analysis. The details are discussed in the 'Findings to date' section. FUTURE PLANS: Infants and children and their mothers who meet the criteria will be enrolled in the study and will be followed up every 2 years. The longitudinal relationship between exposure (questionnaire data, physical examination and biospecimens, medical records, and objective environmental data collected through geographical information system and remote sensing technology) in different periods (during pregnancy and childhood) and children's health (such as sleeping problem, oral health, bowel health and allergy-related health problems) will be analysed. TRAIL REGISTRATION NUMBER: CPWCS was registered with ClinicalTrials.gov on 18 January 2018: NCT03403543. CPWCS-OF was registered with ClinicalTrials.gov on 24 June 2020: NCT04444791. © Author(s) (or their employer(s)) 2021. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.

The main strength of the Chinese Pregnant Women Cohort Study (CPWCS) is its large sample size and long-term follow-up and its multicentre cohort that is representative of the population in China.

The number of sample hospitals and participants in the Chinese Pregnant Women Cohort Study (Offspring Follow-up) is less than that in CPWCS, which may lead to bias and less representative cohorts.

Maternal biospecimens were collected and biobanked only in one hospital of the 24 sites in CPWCS.

The public in some areas in China consumes fluoridated drinking water, which has health effects on children and which is not assessed in the follow-up of children.

Electronic cigarette and vaping are not assessed separately for cigarette use.

Introduction

With the continuous development of the society and economy in China, the living standards of the Chinese population have improved, and the government and the public have paid more attention to maternal and child health. Key indicators such as maternal and infant mortality have been mentioned in China’s 13th Five-Year Plan and the Healthy China Program (2019–2030), and the authorities have vowed to improve these.1 2

The hypothesis regarding the fetal origin of adult diseases was put forward by Barker, a British epidemiologist, in 1995.3 4 The hypothesis holds that a large part of the risk for adult metabolic diseases is determined by perinatal exposure. Increasing evidence supports the ‘theory of developmental origin of health and disease (DOHaD)’,5 conceding that the origin of disease may occur in fetal life. A large number of studies have shown that perinatal exposure has an impact on the growth and development of offspring. Children of pregnant women with obesity and gestational diabetes are more likely to have childhood metabolic syndrome,6 which can lead to an increased risk of wheezing and asthma.7 Smith et al8 showed that there is a significant correlation between exposure to road traffic air pollution during pregnancy and birth weight. Reis et al9 found that exposure to PM10 and O3 in the second and third trimesters of pregnancy may lead to low birth weight (LBW), with a dose–response relationship. Agay-Shay et al10 found that greening in residential areas has the strongest correlation with birth weight and LBW, which is consistent with the results of Laurent et al.11

Besides perinatal exposures, the effects of genetic factors and current living-related environmental exposures on children’s growth and development have also been the focus of maternal and child health in recent years. Rask-Andersen et al12 identified hundreds of genetic loci associated with body mass index (BMI) and risk of obesity. Individual genetic effects may vary from lifestyle or environmental factors and may be due to the interaction between genes and the environment. Epidemiological and experimental studies have shown that pregnancy and infancy are window periods that are particularly sensitive to the environment and can affect lifelong trajectories of health and disease. Nutrition, stress and toxicants induce epigenetic markers that may control long-term genetic expression patterns and can be transmitted from generation to generation. As a result, chronic diseases in adulthood, such as hypertension, diabetes and obesity, have early developmental origins in the perinatal period. The early interaction of the epigenome with other players (such as the microbiome) leads to significant variation in the biological susceptibility arising from the genome.13

Cohort studies play a significant role in maternal and child health research. Large-scale maternal and child cohorts have been established in some European countries in the late 20th century. Maternal and child cohort studies in China have also developed rapidly in recent years, and the construction of regional cohorts has been carried out in various parts of the country. However, with the wide application of emerging technologies, such as information sharing, establishing long-term cohorts with multicentre and multiregional cooperation in maternal and child health will become a trend.14 15 Therefore, a multicentre prospective cohort study, known as the Chinese Pregnant Women Cohort Study (CPWCS), was established in 2017 to collect and analyse the relationship between lifestyle during pregnancy and obstetric outcomes. Data on the life and health of mothers and their children as well as children’s laboratory testing will be collected during the offspring follow-up of CPWCS, which will enable us to further investigate the longitudinal relationship between exposure in different periods (during pregnancy and childhood; exposure data during pregnancy have been obtained from the CPWCS, except for objective environmental exposure data) and children’s development. We designed the Chinese Pregnant Women Cohort Study (Offspring Follow-up) (CPWCS-OF) to (1) establish a multicentre maternal and child cohort in China that can be followed up continuously, (2) provide comprehensive data on the health status of children in China, and (3) investigate the possible risk factors associated with child health that are present during the perinatal and early childhood periods, including genetic factors and environment-related exposures. This approach can provide prevalence and aetiology data, stimulate strategies for prevention of adverse health outcomes in early life, and promote further related research and evidence-based decision-making in the field of maternal and child healthcare in China.

Cohort description

Study design

The Chinese Pregnant Women Cohort Study and Offspring Follow-up (CPWCSaOF) is a multicentre prospective cohort study consisting of Chinese Pregnant Women Cohort Study (CPWCS) and its Offspring Follow-up (CPWCS-OF). The study design and introduction of CPWCS have been reported in a previous study.16 Briefly, in CPWCS, pregnant women in their first trimester (5–13 weeks gestational age) from 25 July 2017 to 26 November 2018 were included by convenience sampling. Related information was collected by electronic self-administered questionnaires, including demographic information, living environment, and assessments of physical activity, dietary and nutritional factors, depression, sleep quality, and economic burden (see details in the ‘Questionnaire for CPWCS’ section). Subsequently, objective medical data, obstetric outcomes and neonatal outcomes were collected through the hospital information system (see details in the ‘Medical records for CPWCS’ section). Biospecimens were also collected in one sample hospital (see details in the ‘Biospecimen collection for CPWCS’ section).

CPWCS-OF was designed to further investigate the growth and development status of children in China and the associated factors. Mothers in CPWCS with their children meeting the inclusion criteria as mentioned in the ‘Participant selection’ section will be included in this follow-up. The participants will be asked to complete the electronic questionnaires about maternal and children’s habits and health status (see details in the ‘Questionnaire for CPWCS-OF’ section). Environmental exposure assessment will be conducted to retrospectively collect objective outdoor environmental exposure data of participants before and during pregnancy (see details in the ‘Environmental exposure assessment for CPWCS-OF’ section), which can help elucidate the role of outdoor environment in pregnancy outcomes and long-term development of offspring. Laboratory testing of children, including biospecimen collection, and physical examination will be conducted to explore the interaction between genes and the environment (see details in the ‘Physical examination and biospecimen collection for CPWCS-OF’ section).

Study sites

CPWCS is set up by the School of Population Medicine and Public Health, Peking Union Medical College, in collaboration with the Peking Union Medical College Hospital. Twenty-four hospitals distributed across 15 provinces (out of 34) in China (figure 1, table 1) were selected as the study sites after comprehensively considering geographical and economic factors, combined with the hospital’s willingness to participate in the research. Among all hospitals, the Tongzhou Maternal and Child Health Hospital of Beijing was selected as the biospecimen subcohort study site, considering the technical and funding constraints.

Figure 1

Locations of cohort sites of the Chinese Pregnant Women Cohort Study and Offspring Follow-up.

Table 1

Sites of the 24 hospitals in the CPWCSaOF project

Code	Hospital name	Location	Region 1*	Region 2†
1	Maternity and Children’s Healthcare Centres in Urumchi	Urumchi, Xinjiang	North	West
2	Guiyang Maternity and Child Health Hospital	Guiyang, Guizhou	South	West
3	Northwest Women and Children’s Hospital	Xi’an, Shaanxi	North	West
4	Changsha Hospital for Maternal and Child Healthcare	Changsha, Hunan	South	Central
5	The Third Affiliated Hospital of Zhengzhou University	Zhengzhou, Henan	North	Central
6	Jiaxian Maternal and Child Healthcare Hospital	Jiaxian, Henan	North	Central
7	Changzhou No.2 People’s Hospital	Changzhou, Jiangsu	South	East
8	Maternal and Child Healthcare Hospital of Jin’an District	Liu’an, Anhui	South	Central
9	People′s Hospital in Dong′e County of Shandong Province	Dong’e, Shandong	North	East
10	Dongguan Maternal and Child Healthcare Hospital	Dongguan, Guangdong	South	East
11	Bayannur Linhe District Maternal and Child Health Hospital	Bayannur, Inner Mongolia	North	West
12	Affiliated Hospital of Guizhou Medical University	Guiyang, Guizhou	South	West
13	Yangzhou Maternal and Child Health Hospital	Yangzhou, Jiangsu	South	East
14	Affiliated Hospital of Jining Medical University	Jining, Shandong	North	East
15	Zaozhuang Maternal and Child Health Hospital	Zaozhuang, Shandong	North	East
16	China-Japan Friendship Hospital Affiliated Jilin University	Changchun, Jilin	North	Central
17	Affiliated Hospital of Jiujiang Medical College	Jiujiang, Jiangxi	South	Central
18	The First Affiliated Hospital of Nanchang University	Nanchang, Jiangxi	South	Central
19	Chengdu Women’s and Children’s Central Hospital	Chengdu, Sichuan	South	West
20	The Central Hospital of Three Gorges of Chongqing	Wanzhou, Chongqing	South	West
21	Shaanxi Provincial People’s Hospital	Xi’an, Shaanxi	North	West
22	Xingyang Maternal and Child Health Hospital	Zhengzhou, Henan	North	Central
23	Changchun Obstetrics-Gynaecology Hospital	Changchun, Jilin	North	Central
24	Tongzhou Maternal and Child Health Hospital of Beijing	Tongzhou, Beijing	North	East

The hospital sites involved in CPWCS-OF are in bold.

*Region where participants were living in was categorised into North and South China according to the Qinling-Huaihe Line.

†Region where participants were living in was categorised into East, Central and West China according to the Chinese Health Statistics Yearbook.

CPWCSaOF, Chinese Pregnant Women Cohort Study and Offspring Follow-up; CPWCS-OF, Chinese Pregnant Women Cohort Study (Offspring Follow-up).

CPWCS-OF is set up by the School of Population Medicine and Public Health, Peking Union Medical College, in collaboration with the School of Basic Medicine, Peking Union Medical College. Five hospitals in China (figure 1, table 1) that participated in CPWCS were selected as the sample source for CPWCS-OF. The following were the major considerations for study site selection: (1) data in CPWCS that are of high quality, including high accuracy and low missing rate; (2) good cooperation relationship between the hospital and the researchers, which could be beneficial for setting up a long-term and continuous follow-up; and (3) differing geographical locations and economic levels, which could improve the representativeness of the cohort.

Participant selection

The criteria for CPWCS have been reported in a previous study,16 while the criteria for CPWCS-OF are as follows:

Inclusion criteria: (1) participation in CPWCS; (2) complete baseline data, first trimester data, delivery and neonatal outcomes available in CPWCS; (3) live birth and singleton in CPWCS; (4) willing to participate in CPWCS-OF; (5) able to complete the questionnaire; (6) residing in the study area; and (7) signed the informed consent form.

Exclusion criteria: (1) persons not included in CPWCS; (2) incomplete baseline data, first trimester data, delivery or neonatal outcomes in CPWCS; (3) pregnancy outcomes in CPWCS were not singleton (abortion, stillbirth, twins, multiple births); (4) no longer residing in the study area; (5) death of the child; and (6) psychiatric diseases in mothers, precluding effective participation and cooperation in the study.

According to the inclusion and exclusion criteria, combined with the data of CPWCS, we expect to include approximately 2000 mother–child pairs in CPWCS-OF.

Study procedure

The study procedure for CPWCS is summarised in figure 2. Some details have been reported in a previous study.16

Figure 2

Study design and procedures for the Chinese Pregnant Women Cohort Study (CPWCS).

The study procedure for CPWCS-OF is summarised in figure 3. From five sample hospitals selected, mothers and their children who met the criteria for inclusion in CPWCS-OF were enrolled, and the data from CPWCS were matched by cohort code. Environmental exposure assessment technologies, such as geographical information system analysis and remote sensing technology, will be used to collect environmental exposure index before and during pregnancy retrospectively.

Figure 3

Study design and procedures for CPWCS-OF. CPWCS, Chinese Pregnant Women Cohort Study; CPWCS-OF, Chinese Pregnant Women Cohort Study (Offspring Follow-up).

Participants will be contacted through a telephone number left with CPWCS to complete the follow-up investigation. Children’s demographic information, allergies and growth-related condition will be collected through questionnaires. Laboratory testing and abnormalities will be confirmed at the participating hospitals. The age distribution of children ranges from 9 to 24 months during the first follow-up. The second follow-up will be conducted 2 years later. All the collected data will be analysed to explore the risk factors for allergies and growth abnormalities in children.

For those who do not respond during the first time, a WeChat message, which is a social networking application that is widely used in China, will be sent to inform the participants. A short text message will be sent after 1 week to those who ignore the WeChat messages. A week before the deadline of follow-up, a telephone call to the mothers will be placed by trained investigators to reduce loss to follow-up.

Questionnaire data collection

Questionnaire for CPWCS

The electronic self-administered questionnaire for pregnant women is divided into seven sections: demographic information, living environment assessment, physical activity assessment, dietary and nutritional assessment, depression assessment, sleep quality assessment and economic burden (table 2).

Table 2

Summary of questionnaire data collected in CPWCS

Item	Information
Demographic information	Hospital code, contact information, age, height, prepregnant weight, current weight, education, occupation, personal income, family income, family size, husband’s education, husband’s occupation and other demographic data.
Living environment exposure	Smoking, passive smoking, indoor air pollution, outdoor air pollution, noise pollution, etc.
Physical activity	Sitting, walking, moderate activity and vigorous activity from the International Physical Activity Questionnaire-Short Form.
Diet and nutrition	Eating habits, cooking oil, vegetable, fruit, meat, fish and shrimp, shellfish, dairy, whole grains, beans and bean products, fried food, fast food, sweets, nuts, puffed food, carbonated beverages, sugary drinks, wine, beer, liquor, nutrition supplement, etc from a simple qualitative Food Frequency Questionnaire.
Depression	Mood, pleasure, self-accusation, depression, fear, insomnia, coping ability, sadness, crying and self-injury from the Edinburgh Postnatal Depression Scale.
Sleep	Sleep duration, sleep disturbance, sleep latency, daytime dysfunction due to sleepiness, sleep efficiency, overall sleep quality and sleep medication use from the Pittsburgh Sleep Quality Index.
Economic burden	Labour time, medical insurance, frequency of seeking medical care, medical expense, medical time, cost, etc.

CPWCS, Chinese Pregnant Women Cohort Study.

Demographic information

A self-designed questionnaire has been developed by the coordinating centre, Peking Union Medical College, to obtain participants’ demographic information, including hospital code, contact information, age, height, weight at presentation, current weight, education, occupation, ethnicity, personal annual income, family annual income, family member, husband’s education, husband’s occupation and other demographic data.

Living environment assessment

The following questions are asked to investigate the environmental exposure of the participants: ‘How many cigarettes did you smoke per day before pregnancy’; ‘How many cigarettes did you smoke per day in the past 30 days?’; ‘Did you suffer passive smoking in the last 30 days?’; ‘Did you cook in the past 30 days?’; ‘Did you use a lampblack machine or a fan in the past 30 days?’; ‘Which of the following potential pollution sources exists within 100 metres of your home: drainage ditch, garbage station, noise, chemical plant’; ‘Which of the following substances have you been exposed to at home or in your workplace: pesticides, radiation, heavy metals such as lead, mercury, etc.’; ‘Has your house been renovated within the last year?’; ‘Has your workplace been renovated within the last year?’; ‘How is the ventilation in your home?’

Physical activity assessment

The International Physical Activity Questionnaire has become the most widely used instrument for assessing physical activity.17 A meta-analysis confirmed its effectiveness,18 and it is available in two versions: long and short. The International Physical Activity Questionnaire-Short Form (IPAQ-SF) is recommended due to its simplicity and speed.19 It comprises seven questions that require participants to recall and record the frequency and time of vigorous activity, moderate activity, walking and sedentary activity over the last 7 days.19 The Chinese version of the IPAQ-SF was used in this study, which exhibited intraclass correlation coefficients ranging from 0.81 to 0.89, indicating good reliability and validity in the Chinese population.20

Economic burden assessment

The following questions are asked to investigate the economic status of the participants: ‘Over the past 30 days, how many days did you work per week?’; ‘How long do you work every day?’, ‘What is your medical insurance?’; ‘How much of your expenses are reimbursed by your medical insurance?’; ‘How many times have you been to the hospital in the past 30 days?’; ‘How long did it take each time?’; ‘How much do you spend on prenatal care on average each time’; ‘How much is the average cost of going to the hospital each time?’; ‘How many family members are required to go to the hospital with you each time?’

Details about dietary and nutritional assessment, depression assessment, and sleep assessment have been reported in a previous study16 and are listed in table 2.

Questionnaire for CPWCS-OF

The follow-up electronic questionnaires are divided into child and maternal questionnaires. The child questionnaire includes seven parts (table 3): demographic information, and assessments of feeding, sleep conditions, bowel health, oral development and parents’ knowledge of child oral healthcare, early development, and physical health. The maternal questionnaire also includes seven parts (table 4): demographic information, and assessments of physical activity, dietary and nutritional status, smoking status, sleep conditions, psychological factors, and oral health. Trained investigators will use the telephone numbers left with CPWCS to contact the mothers who met the inclusion criteria and ask if they would like to participate in CPWCS-OF. For those who orally agree to participate, the investigators will instruct them to sign an electronic informed consent form and finish the electronic child and maternal questionnaires.

Table 3

Summary of child questionnaire data collected in CPWCS-OF

Item	Information
Demographic information	Name, sex, date of birth, height and weight.
Feeding assessment	Duration of breast feeding, supplementation of solid, semisolid or soft food (excluding liquids), and type of food consumed from WHO (Indicators for Assessing Infant and Young Child Feeding Practices) in 2010.
Sleeping assessment	Sleep duration, nocturnal awakenings and methods of falling asleep during the past week from the Brief Infant Sleep Questionnaire.
Bowel health assessment	Frequency, characteristics, difficulty and bowel movement habits.
Oral development and parents’ knowledge of child oral healthcare assessment	Number of teeth, brushing time and frequency; dental caries and bad oral habits; judgement of oral health-related problems.
Early development assessment	Simple movement and language expression, cognition and understanding from the Developmental Surveillance Items of Child Health Pamphlet.
Physical health assessment	Wheezing or whistle on the chest, asthma, sneezing, runny or stuffy nose, hay fever, itchy rash, eczema, food allergies and other symptoms of allergy and duration.

CPWCS-OF, Chinese Pregnant Women Cohort Study (Offspring Follow-up).

Table 4

Summary of maternal questionnaire data collected in CPWCS-OF

Item	Information
Demographic information	Phone number, date of birth and current weight.
Physical activity assessment	Sitting, walking, moderate activity and vigorous activity from the International Physical Activity Questionnaire-Short Form.
Dietary and nutritional assessment	Eating habits, cooking oil, vegetable, fruit, meat, fish and shrimp, shellfish, dairy, whole grains, beans and bean products, fried food, fast food, sweets, nuts, puffed food, carbonated beverages, sugary drinks, wine, beer, liquor, nutrition supplement, etc from a semiquantitative Food Frequency Questionnaire.
Smoking assessment	Smoking, frequency, quit time.
Sleeping assessment	Quality and quantity of sleep at night, feeling during the day, accumulated sleep time from the Athens Insomnia Scale.
Psychological assessment	Psychological emotional symptoms, physical disorders, psychomotor disorders and depression-related psychological disorder from the Self-Rating Depression Scale.
Oral health assessment	Effects of oral problems on physical function, psychological status and social activities from the Oral Health Impact Profile-14.

CPWCS-OF, Chinese Pregnant Women Cohort Study (Offspring Follow-up).

Child questionnaire

Demographic information

A self-designed questionnaire including telephone number, mother’s name, child’s name, child’s gender, date of birth, height, weight, and the mother’s pregnancy and childbirth history will be asked. More detailed information about children had been collected during the neonatal outcomes investigation in CPWCS.

Feeding assessment

The feeding assessment questionnaire is based on the 2010 WHO report: Indicators for Assessing Infant and Young Child Feeding Practices.21 This guide provides tools for collection and calculation of indicators of infant and child feeding, as well as suggestions on adapting the survey to the appropriate context. Eight core and seven optional indicators are listed for the researchers. The questions are translated to Chinese and adapted to specific cultural factors, and are asked as follows: ‘How long after birth did you first put the child to the breast (even if the baby did not suck the milk)?’; ‘Did the child drink water or any other liquids besides breast milk within 6 months (183 days) after birth?’; ‘At what age did the child stop breastfeeding?’; ‘At what age did the child start adding food supplements?’ Some questions should be answered according to the feeding situation in the last 24 hours: ‘How many times yesterday, during the day or at night, did the child consume any solid, semi-solid or soft food (excluding liquid)?’; ‘Did the child drink anything from a bottle with a nipple yesterday during the day or night?’ Subsequently, the child is asked about drinking any kind of liquid in the last 24 hours, including infant formula or any kind of fresh animal milk, yoghurt, juice or juice drinks, clear broth, thin porridge, plain water, or any other liquids (written down in detail). The answer can be yes, no or unknown. The child’s consumption of any kind of food in the last 24 hours is also asked, including grains, roots and tubers, dark green leafy vegetables, fruits rich in vitamin A, any other fruits and vegetables, organ meats, any meat, eggs, fish and seafood, beans or nuts or seeds, milk-based products, fats and oils, high-sugar foods, condiments, or insects.

Sleeping conditions assessment

The Brief Infant Sleep Questionnaire (BISQ) has been validated for assessment of sleep quality for infants 0–3 years of age.22 It was designed to evaluate sleep duration, night awakenings and methods of falling asleep in infants and young children during the past week.23 The Chinese version of the BISQ will be used in the study, which has shown acceptable test–retest reliability with correlation coefficients ranging from 0.439 to 0.848.23

Bowel health assessment

The types of stool are classified according to the Bristol scale24: (1) separate hard lumps, like nuts; (2) sausage-shaped but lumpy; (3) like a sausage or snake, but with cracks on its surface; (4) like a sausage or snake, smooth and soft; (5) soft blobs with clear-cut edges; (6) fluffy pieces with ragged edges, a mushy stool; and (7) watery, no solid pieces. Pictures of the seven types of stool are shown to the mothers and the following question is asked: ‘which picture describes your child’s daily bowel movements over the past week?’ To investigate children’s bowel habits and their health, the following questions are also asked: ‘How many times did the child have bowel movements per day over the past week?’; ‘Which option describes the degree of difficulty in bowel movements of the child over the past week?’; ‘Did your child have the following bowel problems recently?’; ‘Did your child have bowel habits training? And if yes, when did it begin?’; ‘Does your child exercise for more than 1 hour a day?’

Oral development and parents’ knowledge of child oral healthcare assessment

The following questions are asked to investigate the oral development and hygiene habits of the children: ‘How many teeth does your child have?’; ‘Has your child started brushing their teeth?’; ‘When did your child start brushing their teeth?’; ‘How often does your child brush his/her teeth?’; ‘What is the average time at which your child brushes their teeth?’; ‘Does your child have tooth decay or caries?’; ‘How many decayed teeth or caries does your child have?’; ‘Was the tooth decay or caries managed at the hospital in time?’; ‘Which of the following bad oral habits does your child have?’; ‘Does your child go to see a doctor or dentist for oral problems other than tooth decay or caries-related issues?’; ‘Does your child have a bottle or soother while sleeping?’ Moreover, a table with several statements about oral healthcare will be presented to the mothers and they will be asked to judge if each statement is true or false. This is for the purpose of evaluating their awareness of oral healthcare issues.

Early development assessment

The Modified Checklist for Autism in Toddlers was revised by Robins et al in 2001 and is used worldwide for early screening of child autism.25 26 It consists of 23 questions. The Chinese version will be used in this study, which has shown acceptable reliability and validity for Chinese children, with a Cronbach’s alpha coefficient of 0.85 and a test–retest reliability coefficient total score of 0.77.27 The Developmental Surveillance Items of Child Health Pamphlet is a Chinese tool developed by researchers in Taiwan for preventive care as part of the National Health Insurance System and has shown good reliability and validity in the Chinese population.28 29 It comprises two to six questions for nine different ages and screens for developmental retardation in children.

Physical health assessment

The following questions will be asked to investigate allergy-related health problems in children: ‘Have you been aware of wheezing or whistling in the child’s chest in the last 12 months?’; ‘In which months did the wheezing or whistling usually occur?’; ‘How many times do you think your child has exhibited wheezing during these specific months in the last 12 months?’; ‘Has your child been diagnosed with asthma in the last 12 months?’; ‘Has your child ever had a problem with sneezing, or a runny or blocked nose in the absence of cold or the flu in the last 12 months?’; ‘Has this nose problem been accompanied by itchy/watery eyes?’; ‘In which months did your child have this nose problem in the last 12 months?’; ‘How much did this nose problem interfere with your child’s daily activities in the last 12 months?’; ‘Has your child been diagnosed with hay fever in the last 12 months?’; ‘Has your child ever had an itchy rash that subsided and recurred for at least 6 months?’; ‘Has your child been diagnosed with eczema in the last 12 months?’; ‘Has your child ever had any of the following symptoms after eating in the last 12 months?’; ‘Has your child been diagnosed with food allergies in the last 12 months?’

Maternal questionnaire

A self-designed questionnaire that includes the telephone number, date of birth and current weight was used. More detailed information about mothers had been collected during the baseline investigation in CPWCS.

Dietary and nutritional assessment

A semiquantitative Food Frequency Questionnaire will be used in this study to investigate the frequency and average quantity of food consumed during the past 3 months. The foods were divided into 10 groups according to the Dietary Guidelines for Chinese Residents (2016), including grains, tubers, vegetables, fruits, meats, fish and seafood, eggs, bean products, nuts, and milk-based products.30 Energy and nutrient intake were calculated based on the Chinese Food Composition Tables.31 The frequency and average quantity of alcohol intake, juice intake and other drinks are also investigated in the questionnaire.

Smoking assessment

The questionnaire contains the question ‘Do you smoke?’, and according to the response the following questions will be asked, as appropriate: ‘How many cigarettes do you smoke per day?’ or ‘How long have you quit smoking?’

The Athens Insomnia Scale (AIS) is a self-assessment tool for sleep difficulty based on the International Classification of Diseases-10.32 It consists of eight items on sleep quality and quantity at night and feelings during daytime.32 It has been proven to be reliable and valid for assessment and screening.33 The AIS Chinese version will be used in this study, and the questionnaire also asks about cumulative sleeping time at night and during daytime. The validity and reliability of the Chinese version of the AIS have been well tested in Hong Kong34 and Taiwan.35 A score of ≥6 on the AIS English version is considered to indicate insomnia.33 However, studies from Hong Kong and Taiwan considered a score of 7 as the optimal cut-off for the Chinese version.34 35

Psychological assessment

The Self-Rating Depression Scale (SDS) is a widely used tool developed by Zung in 196536 to assess depression in adults. It includes 20 questions comprising psychological and emotional symptoms, physical disorders, psychomotor disorders, and depression-related psychological disorders. The Chinese version of the SDS, which was first translated to evaluate the treatment efficacy of antidepressants in China and has shown acceptable reliability and validity, will be used in this study.37 The Self-Rating Anxiety Scale was developed by Zung in 197138 and is a commonly used instrument for assessment of anxiety in adults. It has a similar form to the SDS with 20 questions and broad applicability for precise evaluation. The Chinese version, with correlation coefficients between each item and a total score of over 0.5, is used in this study.39

Oral health assessment

The Oral Health Impact Profile-14 is a common instrument used to measure oral health-related quality of life. It was designed to not only assess the physical impact of oral health, but also to comprehensively evaluate the effects of oral issues on physical function, psychological condition and social activity.40 The Chinese version will be used in this study, which has shown a Cronbach’s alpha coefficient of 0.93 and intraclass correlation coefficients ranging from 0.53 to 0.71, indicating good reliability and validity.41

IPAQ-SF will be used to assess physical activity as described in the pregnancy questionnaire.

Medical records for CPWCS

Table 5 illustrates the medical records that were collected at each stage of the CPWCS. Medical information collected by investigators from the hospital information system is entered in the electronic case report form. Specialised physicians are responsible for clinical diagnostic reports.

Table 5

Medical information collected from the hospital information system

Study stage	Item	Information
Prenatal	Family history	High blood pressure, diabetes, hyperlipidaemia, stroke and malignant tumour, etc in first-degree relatives (parents, brothers and sisters) and second-degree relatives.
	Medical diseases	Hypertension, diabetes, hyperlipidaemia, hyperthyroidism, hypothyroidism, anaemia, heart disease, etc.
	Gynaecological diseases	Endometriosis/adenomyosis, history of infertility, cervical lesions, uterine fibroids, ovarian cysts and malignant gynaecological tumours.
	Surgical history	Caesarean sections, artificial abortion or uterine curettage, etc.
	Pregnancy history	Pregnancy, birth, number of caesarean sections, number of vaginal deliveries, number of surgical midwiferies, etc.
	Metabolic index	Blood pressure, blood glucose, serum haemoglobin and urine protein and ketones.
	Pregnancy complications	Gestational diabetes mellitus, pregnancy-induced hypertension, gestational anaemia, etc.
	Other index	Prepregnancy body mass index, gestational weight gain, menstrual period, spontaneous pregnancy or pregnancy with fertility assistance.
	Combined medication	Antihypertensive drugs, aspirin, low-molecular-weight heparin, glucocorticoids, hydroxychloroquine, etc.
Delivery	Obstetric outcomes	Gestational age of delivery, vaginal delivery or caesarean section, stillbirth, fetal death and miscarriage, abruptio placentae, premature rupture of fetal membranes, prolapse of cord.
	Neonatal outcomes	Apgar scores, low birth weight, macrosomia, small for gestational age, birth defect and neonatal comorbidity (apnoea, infection, hypoglycaemia and neonatal intensive care unit admission).
Post partum		Puerperalism and feeding option.

Environmental exposure assessment for CPWCS-OF

An assessment will be conducted to collect and analyse objective outdoor environmental exposure data of participants before and during pregnancy retrospectively in CPWCS, which will help elucidate the role of outdoor environment in pregnancy outcomes and long-term development of offspring. The environmental exposure indexes mainly include particulate matter 2.5 (PM2.5), particulate matter 10 (PM10), nitrogen dioxide (NO2), sulfur dioxide (SO2), ozone (O3), temperature, humidity and green space coverage.

The specific calculation method is as follows: the longitude and latitude of each residential address which has been collected in the pregnancy questionnaire in CPWCS will be extracted, and geographical information system analysis can be used to estimate the monthly average concentrations of PM2.5, PM10, NO2, SO2 and O3 within 1 km of participants’ baseline residence, as monitored by satellites.42 43 Remote sensing technology will also be used to calculate the normalised difference vegetation index in the 500 m radius around participants’ residential addresses to measure green coverage.44

Indexes needed, including accurate residential address and time when the mothers were investigated during pregnancy in CPWCS, have been collected in the pregnancy questionnaire. All retrospective data can be accessed on the websites of China Meteorological Data Service Centre, National Meteorological Information Centre (http://data.cma.cn/), and the Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences (http://rs.ceode.ac.cn/).

Laboratory testing

Biospecimen collection for CPWCS

In the biospecimen subcohort, residual blood samples were collected after use from the hospital’s Department of Clinical Laboratory. Sterile cotton swabs and vessels with Cary-Blair transport medium are used to collect vaginal, distal gut and saliva biospecimens.

Physical examination and biospecimen collection for CPWCS-OF

Physical examination and biospecimen collection for children will be conducted as part of CPWCS-OF. In accordance with the requirements of the Chinese National Basic Public Health Service Specification (Third Edition),45 a trained physician or nurse practitioner will measure the height or length, weight, and head circumference of children according to standard operating procedures. In addition, findings on jaundice and fontanelle closure and related information will be collected from the Chinese Center for Disease Control and Prevention. Biological samples of children, such as blood, urine and saliva, will be collected by trained investigators. The growth and development of the oral cavity, hearing and vision will also be assessed. These measurements are part of routine medical screening of every child in China. Moreover, children's bone density and intellectual growth and development will be assessed and will be administered by a researcher. Bone density will be measured using quantitative ultrasound bone densitometer, which is commonly used in China. The Denver Developmental Screening Test46 will be used to assess children's bone density and intellectual growth and development. This method is suitable for infants and young children from 2 months to 6 years of age. Developmental delays or abnormalities in children can be detected at an early stage by evaluating the four domains of development: personal-social, fine motor-adaptive, language and gross motor.

Quality control

Investigators will be uniformly trained to ensure the quality of data collection, and an investigator manual will be prepared to standardise the research process. An incentive system is implemented; only when participants complete two questionnaires of verified quality can they gain a small gift from the collaborative group. When filling in the two electronic questionnaires, a unique verification code sent by the system will be needed. The questionnaire cannot be filled in before automatic verification of the code, and it cannot be submitted until it is completely filled with no missing information. After the questionnaire is submitted, all information can be seen in the system simultaneously. Two quality control personnel will independently conduct a logical verification of the collected data. Once any logical errors are identified, they will promptly report this to the investigators, and the investigators will contact the participants in a timely manner to check and correct the errors. Quality control of the follow-up rate has been discussed in the ‘Study procedure’ section.

Patient and public involvement

Patients or the public were not involved in the design, or conduct, or reporting or dissemination plans of our research.

Findings to date

Baseline characteristics of 9193 participants in CPWCS

Between 25 July 2017 and 26 November 2018, a total of 10 187 pregnant women attending hospitals for their antenatal clinic were identified and invited, and after screening for eligibility 9193 were enrolled. The baseline characteristics of the participants are shown in table 6. The mean age of women was 28.5±4.3 years (range: 16–50 years) and the median BMI was 21.4 kg/m2 (IQR: 19.5–23.7 kg/m2). The median personal annual income was ¥50 000 (IQR: ¥30 000–¥80 000), the median family annual income was ¥100 000 (IQR: ¥70 000–¥200 000), and the median family member was 3 (IQR: 2–4). Moreover, 8653 (94.2%) women were from the Han population, 5159 (56.1%) women had college or university degree, and 5010 (54.5%) women were rural residents. BMI was calculated as weight in kilograms divided by the square of height in metres (kg/m2). Socioeconomic status (SES) was assessed by Green’s Socioeconomic Status Index based on education, occupation and annual family income: Green’s three-factor SES index=(0.5×education score)+(0.3×occupation score)+(0.3×family income score).47 The region where participants were living in was categorised into North and South China according to the Qinling-Huaihe Line, or into East, Central and West China according to the Chinese Health Statistics Yearbook.

Table 6

Description of the baseline characteristics of the participants (n=9193)

Characteristics		Sample size, n (%)	Characteristics		Sample size, n (%)
Age (years)	<25	1461 (15.9)	Education level*	Primary school or below	50 (0.5)
	25–	4479 (48.7)		Middle school	1335 (14.5)
	30–	2357 (25.7)		High school	2095 (22.8)
	≥35	896 (9.7)		University/college	5159 (56.2)
Prepregnant body mass index (kg/m2)	<18.5	1217 (13.2)		Bachelor’s and above	550 (6.0)
	18.5–	5823 (63.3)	Occupation*	Unemployed	2641 (28.7)
	24–	1624 (17.7)		Officials/managerial workers	959 (10.4)
	≥28	529 (5.8)		Professional/technicist	1389 (15.1)
Nationality	Han	8653 (94.1)		Clerical/sales kindred workers	873 (9.5)
	Minorities	540 (5.9)		Merchant/service workers	1829 (19.9)
Census register type*	Urban	4179 (45.5)		Farming or fishing labourers	57 (0.6)
	Rural	5010 (54.5)		Operatives/semiskilled workers	146 (1.6)
Personal annual income (¥10 000)*	<1	723 (7.9)		Members of the Armed Forces	5 (0.1)
	1–	3390 (36.9)		Students	20 (0.2)
	5–	3345 (36.4)		Unclear	1270 (13.9)
	≥10	1731 (18.8)	Family member*	1–2	2810 (30.6)
Family annual income (¥10 000)*	<5	954 (10.4)		3–4	4279 (46.6)
	5–	4647 (50.6)		≥5	2100 (22.8)
	15–	2319 (25.2)	Region 1†	North	4667 (50.8)
	≥25	1269 (13.8)		South	4526 (49.2)
Socioeconomic status*	Low	2954 (32.1)	Region 2‡	East	3051 (33.2)
	Medium	3069 (33.4)		Central	3176 (34.5)
	High	3166 (34.5)		West	2966 (32.3)

*Amount of missing data: 4.

†Region where participants were living in was categorised into North and South China according to the Qinling-Huaihe Line.

‡Region where participants were living in was categorised into East, Central and West China according to the Chinese Health Statistics Yearbook.

Major findings of CPWCS

Using the data collected in CPWCS, we found that overweight and obesity before pregnancy and excessive weight gain during pregnancy are associated with developing gestational diabetes mellitus, gestational hypertension, large gestational age and macrosomia.16 We also found that dietary patterns were associated with gestational depression and sleep disturbance. Participants on plant-based dietary patterns have lower risk of gestational depression (OR, 0.66, 95% CI 0.55 to 0.79) and sleep disturbance (OR, 0.80, 95% CI 0.68 to 0.93), and similar results were observed in vitamin-rich dietary patterns (OR for depression: 0.46, 95% CI 0.38 to 0.55; OR for sleep disturbance 0.76, 95% CI 0.65 to 0.89). However, contrary results were found in high-fat dietary patterns (OR for depression 2.15, 95% CI 1.25 to 1.85; OR for sleep disturbance 1.43, 95% CI 1.22 to 1.67).48 The incidence rates of preterm birth (PB), LBW and small for gestational age (SGA) in pregnant participants in China were 4.76%, 3.53% and 5.74%, respectively. In terms of PB, the results of the analysis showed that gestational weight gain (GWG) and living in northern China were protective factors, while premature rupture of membranes, gestational hypertension, dental examination or treatment within 1–3 years and family of 3–4 members were risk factors. With respect to LBW, GWG and daily consumption of milk and dairy products were protective factors, while premature rupture of membranes, gestational hypertension, sedentary working time more than 6 hours, dental examination or treatment within 1–3 years and passive smoking were risk factors. For SGA, baby girl, passive smoking, peanut oil consumption and less salt intake were risk factors, while folic acid supplementation was a protective factor.49