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Exploring the Link Between Parental Sociodemographic Characteristics and Multiple Births: Insights from National Birth Data in Japan, 1995–2020

Published online by Cambridge University Press:  03 October 2024

Tasuku Okui*
Affiliation:
Medical Information Center, Kyushu University Hospital, Fukuoka City, Japan
Naoki Nakashima
Affiliation:
Medical Information Center, Kyushu University Hospital, Fukuoka City, Japan
*
Corresponding author: Tasuku Okui; Email: task10300@gmail.com

Abstract

This present study investigated the parental characteristics of multiple births using national birth data in Japan. This study included birth data from Vital Statistics: Occupational and Industrial Aspects every five fiscal years from 1995 to 2020. The multiple birth rates were defined as the number of live-birth deliveries with multiple fetuses (e.g., twins, triplets) per total live-birth deliveries. Parental ages, nationalities, occupations and household occupation (occupation of the top earner of the household) were considered as parental characteristics. The multiple birth rates were calculated based on parental characteristics for each year, and a log-binomial regression model was used to assess the association between parental characteristics and multiple births. The multiple birth rate for Japanese mothers consistently exceeded that for non-Japanese mothers over the years, and the rate increased progressively from manual workers to lower non-manual workers and then to upper non-manual workers for both maternal and paternal occupations. The regression results indicated that the risk ratio (RR) for multiple births among non-Japanese mothers was significantly lower than that among Japanese mothers. Moreover, concerning household occupation, the RRs of self-employed individuals, full-time employees at smaller companies, others, and the unemployed were significantly lower than those of full-time employees at larger companies. Furthermore, the RRs of lower non-manual and manual workers were significantly lower than those of upper non-manual workers in maternal and paternal occupations. The results suggested an association between multiple births and parental socioeconomic status in Japan.

Type
Article
Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of International Society for Twin Studies

Multiple births refer to deliveries with multiple fetuses. The rate of twins or multiple births has increased in Japan and globally over recent decades (Imaizumi, Reference Imaizumi1994; Monden et al., Reference Monden, Pison and Smits2021; Pison et al., Reference Pison, Monden and Smits2015; Smits & Monden, Reference Smits and Monden2011), although Japan’s twin rate remains relatively lower than those of other developed countries in Europe (Pison et al., Reference Pison, Monden and Smits2015). In Japan, the twinning rate per 1000 births increased from 6.4 in 1951 to 7.5 in 1992. One contributing factor to this increase in the number of multiple births during the late 20th century was the heightened use of ovulation drugs (Imaizumi, Reference Imaizumi1994). Multiples (e.g., twins, triplets) face a higher risk of adverse birth outcomes, including preterm birth and low birth weight (Blondel et al., Reference Blondel, Kogan, Alexander, Dattani, Kramer, Macfarlane and Wen2002; Ooki, Reference Ooki2010), and are at a higher risk of infant mortality compared with singleton infants (Misra & Ananth, Reference Misra and Ananth2002). Furthermore, multiples are more prone to birth defects, such as anencephaly, congenital heart defects, and congenital esophageal atresia (Zhang et al., Reference Zhang, Qiu and Huang2011). Additionally, parents raising twins often experience increased psychological stress than parents with singletons (Ellison et al., Reference Ellison, Hotamisligil, Lee, Rich-Edwards, Pang and Hall2005; van den Akker et al., Reference van den Akker, Postavaru and Purewal2016; Wenze et al., Reference Wenze, Battle and Tezanos2015). Moreover, the rate of child maltreatment for twins was higher than that of singletons (Yokoyama et al., Reference Yokoyama, Oda, Nagai, Sugimoto and Mizukami2015), and the risk of fatal child maltreatment for multiples was 2.7 times as high as that of singletons in Japan (Ooki et al., Reference Ooki2013).

It is known that higher maternal age and infertility treatment are known predictors of multiple births in Japan (Imaizumi, Reference Imaizumi1994; Ministry of Health, Labour and Welfare, 2024a), while research on sociodemographic factors associated with multiple births remains limited. Some studies conducted in other countries have found some sociodemographic predictors of multiple births. For instance, in the United States, the multiple birth rate was found to be higher in black populations than in white populations (Russell et al., Reference Russell, Petrini, Damus, Mattison and Schwarz2003), while the multiple birth rate increased more rapidly in white populations than in black populations from 1980 to 1999, possibly because of increased use of infertility treatment in white populations (Russell et al., Reference Russell, Petrini, Damus, Mattison and Schwarz2003). In Greece, the multiple birth rate varied depending on maternal nationality (Malamitsi-Puchner et al., Reference Malamitsi-Puchner, Voulgaris, Sdona, Christou and Briana2019). Twin pregnancies were positively associated with the wealthiest neighborhood-income quintile in Canada (Urquia et al., Reference Urquia, Frank, Glazier and Moineddin2007), and in Brazil, the twin rate was shown to increase with the socioeconomic level of hospitals (Colletto et al., Reference Colletto, Segre, Rielli and Rosário2003). Conversely, investigations into these sociodemographic factors associated with multiple births have not been conducted in Japan. In Japan, the utilization of assisted reproductive technology varied based on regional social capital (Jwa et al., Reference Jwa, Ishihara, Kuwahara, Saito, Saito, Terada, Kobayashi and Maeda2021), suggesting that socioeconomic status affects the multiple birth rate. Identifying sociodemographic characteristics associated with a higher likelihood of experiencing multiple births may help raise awareness among parents who do not desire multiple births.

This study investigated parental sociodemographic characteristics associated with multiple births using national birth data in Japan.

Materials and Methods

Data

We used birth data from the Vital Statistics: Occupational and Industrial Aspects, covering a span of every five fiscal years from 1995 to 2020. These datasets were provided by the Ministry of Health, Labour and Welfare in accordance with Article 33 of the Statistics Act in Japan. These national data cover all birth data in Japan during those years. Specifically, we used data on parental nationalities, birth dates, status of wedlock and occupations, as well as the infants’ birth dates, prefecture, municipality, number of fetuses, birth order of multiple fetuses, and gestational weeks. Moreover, we included data on household occupation, which represents the occupation (employment status) of the top earner of the household. This comprised six types of occupation: farmer, self-employed, full-time employees at smaller companies (full-time employees at companies with fewer than 100 employees), full-time employees at larger companies (full-time employees at companies with 100 or more employees, along with executives, board members, or public servants), others, and unemployed.

Explanatory Variables

Parental ages were categorized into the following age groups: 19 years or younger, 20–24 years, 25–29 years, 30–34 years, 35–39 years, and 40 years or older. Parental nationalities were classified into Japanese and non-Japanese. The categories of parental occupations underwent slight modifications over the years, comprising 10 types in the 1995–2000 fiscal years, 11 types in 2005 fiscal years, and 13 types in 2010–2020 fiscal years. Previous studies in Japan have classified parental occupations into occupational classes for ease of interpretation (Tanaka et al., Reference Tanaka, Mackenbach and Kobayashi2021; Tomioka et al., Reference Tomioka, Kurumatani and Saeki2020). In this study, we classified occupations into four categories: upper non-manual workers, lower non-manual workers, manual workers, and others. The specific occupations within each occupational class are listed in Supplementary Table S1.

Outcome Variable

In this study, the multiple birth rate was defined as the number of multiple deliveries divided by the total number of deliveries, and multiple deliveries refer to those involving multiple fetuses (e.g., twins, triplets). Regardless of the number of fetuses, giving birth to a singleton, twins or triplets counts as one delivery. Furthermore, if one of the fetuses died in a multiple delivery, those deliveries were still considered multiple deliveries.

Given the uncertainty regarding which infants were born in the same delivery based solely on the available data, inference was needed. Specifically, if multiples shared identical prefecture, municipality, birth date, birth dates of parents, nationalities of parents, number of fetuses, and differing birth orders, they were categorized as born in the same delivery.

Conversely, it is possible for infants in the same delivery to have varying birth dates. If the difference in birth dates is consistent with the difference in gestational weeks, and all the other characteristics except birth order are identical among multiples, those infants were also considered to be born in the same delivery. A total of 285 infants (138 deliveries) corresponded to those cases with different birth dates in the data. Furthermore, in some cases, only one character in a parent’s birth date differed between multiples, while all the other characteristics, excluding birth order, remained the same. Those cases were deemed clerical errors, and the infants were judged to have been born in the same delivery.

We created a binary variable for the status of multiple births (singleton or multiple deliveries) and used it in the regression analysis.

Statistical Analysis

We counted number of singleton and multiple deliveries by parental characteristics. In addition, we calculated the multiple birth rate by dividing number of multiple deliveries by total number of deliveries by parental characteristics for each of the analyzed years. Furthermore, a log-binomial regression model was used to investigate the association between parental characteristics and multiple births. The outcome variable was the binary variable of the status of multiple birth, and explanatory variables included parental age groups, parental nationalities, parental occupations, household occupation, and year. In addition to an unadjusted analysis using each explanatory variable, an adjusted analysis with all explanatory variables was performed. For each characteristic, we computed the risk ratio (RR) with the 95% confidence interval (CI) and p value. A p value of less than .05 was considered statistically significant. Multicollinearity was checked based on generalized variance inflation factor (GVIF), and ${\rm{GVI}}{{\rm{F}}^{(1/(2 \,\times\, {\rm{Degree\;of\;freedom}}))}}$ was used as a measure in the adjusted analysis (Fox & Monette, Reference Fox and Monette1992). ${\rm{GVI}}{{\rm{F}}^{(1/(2 \times {\rm{Degree\;of\;freedom}}))}}$ of approximately 1.5–1.6 was used as a criterion of multicollinearity in previous studies (Hu et al., Reference Hu, He, Zhang, Ma, Geng, Zhan, Yao, Zhong, Wei, Qiu and Jia2024; Zahan et al., Reference Zahan and Feng2020).

Because paternal characteristics were included in the analysis, only births within marriage were used. Furthermore, the study population was limited to unique deliveries because parental characteristics were basically consistent among multiple births. Complete case analysis was conducted to address missing data. Moreover, we used the multiple imputation method for sensitivity analysis (van Buuren & Groothuis-Oudshoorn, Reference van Buuren and Groothuis-Oudshoorn2011). Predictive mean matching was used for imputing missing values, and number of imputations was 10. All statistical analyses were conducted using R (4.1.3; R Core Team, 2024), and car and mice were used as packages. The statistics presented in this study were generated by the authors using the data provided by the Ministry of Health, Labour and Welfare, and the results in this study are not statistics published by the Ministry itself.

Results

Figure 1 illustrates a flowchart depicting the selection process for the study population. Nonmarital births were excluded from all live births, as were birth data with duplicate deliveries. As a result, a total of 6,160,882 deliveries’ data were used in the analysis.

Figure 1. The flowchart depicting the selection process for the study population.

Table 1 shows the number (%) of singleton and multiple deliveries based on birth characteristics. The number of multiple deliveries was roughly one hundredth of that of singleton deliveries. Notably, the highest number of deliveries belonged to the full-time employees at larger companies among household occupations. Among maternal occupational classes, the ‘others’ category was the highest number of deliveries. Conversely, the category for lower non-manual workers consistently recorded the highest number of deliveries among the paternal occupational classes.

Table 1. Number (%) of singleton and multiple deliveries by birth characteristics

Table 2 presents the multiple birth rates by parental characteristics and year. Notably, the highest multiple birth rates were observed in 2005 for most of the characteristics, and the multiple birth rate decreased between 2005 and 2010. Additionally, there was a tendency for the rate to increase with maternal and paternal age. Throughout the years, the multiple birth rate among Japanese mothers exceeded that among non-Japanese mothers, while the relationship between rate and parental nationality varied depending on the years. Among household occupations, unemployed households tended to have the lowest rate, whereas the full-time employees at larger companies consistently exhibited the highest rate. Furthermore, the rate increased progressively from manual workers to lower non-manual workers and then to upper non-manual workers for both maternal and paternal occupations.

Table 2. Multiple birth rate (per 1,000 deliveries) by parental characteristics and year

The multiple birth rates by maternal age group and year are also shown in Figure 2.

Figure 2. Multiple birth rate by maternal age group and year.

Table 3 shows the results of the regression analysis investigating the association between parental characteristics and multiple births. The adjusted RR tended to increase with maternal and paternal age, with the ‘40 years or more’ age group having the highest: RR: 1.19 (95% CI [1.13, 1.24]) and 1.08 (95% CI [1.05, 1.11]) respectively. Additionally, the adjusted RR of non-Japanese mothers was significantly lower than that of Japanese mothers: RR: 0.79 (95% CI [0.73, 0.85]). Furthermore, the adjusted RRs of self-employed individuals, the full-time employees at smaller companies, others, and unemployed households were significantly lower than that of the full-time employees at larger companies: RR: 0.91 (95% CI [0.89, 0.94]), 0.91 (95% CI [0.90, 0.93]), 0.91 (95% CI [0.88, 0.93]), and 0.86 (95% CI [0.79, 0.94]) respectively. Moreover, the adjusted RRs of lower non-manual and manual workers were significantly lower than that of upper non-manual workers in both maternal and paternal occupations. Specifically, adjusted RRs of lower non-manual and manual worker were 0.93 (95% CI [0.90, 0.96]) and 0.88 (95% CI [0.83, 0.94]), respectively for maternal occupation and 0.96 (95% CI [0.94, 0.98]) and 0.95 (95% CI [0.93, 0.97]), respectively for paternal occupation. The results of unadjusted and adjusted analysis were relatively similar, while a statistically significant difference was not observed in the ‘19 years or less’ of the paternal age group and ‘others’ for parental occupational classes in the adjusted analysis. The highest value of the generalized variance inflation factor $^{(1/(2 \,\times\, {\rm{Degree\;of\;freedom}}))}$ was 1.14 in the adjusted analysis, indicating that multicollinearity among variables was not strong.

Table 3. The result of regression analysis investigating an association between parental characteristics and multiple birth

* Parental age groups, parental nationalities, parental occupations, household occupation, and year were included in the regression analysis.

Supplementary Table S2 presents the results of the regression analysis using multiple imputation. The findings were largely consistent with those obtained from the complete case analysis.

Discussion

This study investigated the association between parental characteristics and multiple births in Japan using national birth data. As a result, multiple birth rates varied depending on parental age groups, nationalities and occupations, and the potential interpretations and implications of these results are discussed in this section. Assisted reproductive technology is often cited as a significant factor contributing to variations in multiple birth rates across sociodemographic factors (Malamitsi-Puchner et al., Reference Malamitsi-Puchner, Voulgaris, Sdona, Christou and Briana2019; Russell et al., Reference Russell, Petrini, Damus, Mattison and Schwarz2003; Urquia et al., Reference Urquia, Frank, Glazier and Moineddin2007), and we primarily interpret the results in the context of infertility treatment use.

Although there were some variations in the relationship between parental characteristics and the multiple birth rates depending on the year, the rates were relatively stable over time across many of the characteristics. Additionally, for numerous characteristics, the multiple birth rates peaked in 2005. The Japan Society of Obstetrics and Gynecology officially recommended in 2008 that only a single embryo should be transferred during assisted reproductive technology procedures with a few exceptions to prevent multiple births (Japan Society of Obstetrics and Gynecology, 2024), and this change may have contributed to the decrease in multiple birth rates from 2005 to 2010.

Regarding parental characteristics, higher parental ages were positively associated with multiple births. A higher parental age has been associated with a higher rate of twin births in other countries (Abel & Kruger, Reference Abel and Kruger2012; Dawson et al., Reference Dawson, Tinker, Jamieson, Hobbs, Rasmussen and Reefhuis2015; Kleinhaus et al., Reference Kleinhaus, Perrin, Manor, Friedlander, Calderon-Margalit, Harlap and Malaspina2008; McLennan et al., Reference McLennan, Gyamfi-Bannerman, Ananth, Wright, Siddiq, D’Alton and Friedman2017). While maternal ages are known to be associated with multiple births in Japan, this study revealed that paternal ages were also associated with multiple births. Fertility typically declines as both men and women age (Baird et al., Reference Baird, Collins, Egozcue, Evers, Gianaroli, Leridon, Sunde, Templeton, Van Steirteghem, Cohen, Crosignani, Devroey, Diedrich, Fauser, Fraser, Glasier, Liebaers, Mautone, Penney, Tarlatzis and Capri Workshop Group2005; Kaltsas et al., Reference Kaltsas, Moustakli, Zikopoulos, Georgiou, Dimitriadis, Symeonidis, Markou, Michaelidis, Tien, Giannakis, Ioannidou, Papatsoris, Tsounapi, Takenaka, Sofikitis and Zachariou2023; Kovac et al., Reference Kovac, Addai, Smith, Coward, Lamb and Lipshultz2013), and it is considered that couples of advanced age are more likely to undergo infertility treatment than younger couples.

Regarding occupation, households with certain types of workers were negatively associated with multiple births compared with households with the full-time employees at larger companies. Additionally, occupational class was associated with multiple births in both men and women, with lower non-manual and manual workers showing a negative association with multiple births compared to upper non-manual workers. The socioeconomic status of households with the full-time employees at larger companies and upper non-manual workers is considered to be higher than that of the other types of households and occupational classes. The results suggest that couples with higher socioeconomic status tend to experience multiple births. In other countries, some studies have demonstrated an association between socioeconomic status and the use of assisted reproductive technology (Brautsch et al., Reference Brautsch, Voss, Schmidt and Vassard2023; Harris et al., Reference Harris, Burley, McLachlan, Bowman, Macaldowie, Taylor, Chapman and Chambers2016; Seifer et al., Reference Seifer, Simsek, Wantman and Kotlyar2020; Smith et al., Reference Smith, Eisenberg, Glidden, Millstein, Cedars, Walsh, Showstack, Pasch, Adler and Katz2011). In Japan, household income is positively associated with seeking medical help for fertility problems among individuals experiencing fertility issues (Iba et al., Reference Iba, Maeda, Jwa, Yanagisawa-Sugita, Saito, Kuwahara, Saito, Terada, Ishihara and Kobayashi2021). Certain infertility treatments, such as artificial insemination and in vitro fertilization, were only covered by insurance starting from 2022 in Japan (Ministry of Health, Labour and Welfare, 2024b). Therefore, it is considered that socioeconomic status strongly influenced the decision to undergo infertility treatment until then. Additionally, there is a possibility that socioeconomic status also affects the outcomes of fertility treatment (Imrie et al., Reference Imrie, Ghosh, Narvekar, Vigneswaran, Wang and Savvas2023). In the regression analysis, there was a statistically significant difference in ‘Others’ for parental occupational classes in the unadjusted analysis, but not in the adjusted analysis. This is thought to be because household occupations, including farmers and the unemployed, were adjusted. ‘Others’ of parental occupational classes include unemployed people and farmers, and the impact on multiple births was mitigated by including household occupation in the analysis.

Regarding nationality, Japanese mothers were positively associated with multiple births compared with non-Japanese mothers. There have been few previous studies investigating the association between multiple births and nationalities. A study in Greece demonstrated that the percentage of twin deliveries was consistently higher among Greek mothers than among migrant mothers (Malamitsi-Puchner et al., Reference Malamitsi-Puchner, Voulgaris, Sdona, Christou and Briana2019). Additionally, the twin rate was higher in U.S.-born women than in non-U.S.-born women in the U.S. (Oleszczuk et al., Reference Oleszczuk, Cervantes, Kiely, Keith and Keith2001). One possible explanation for the association between nationality and multiple births in Japan is socioeconomic status. Immigrant women in Japan may face challenges during childbirth partly because of their lower socioeconomic status (Kita et al., Reference Kita, Minatani, Hikita, Matsuzaki, Shiraishi and Haruna2015). It is plausible that maternal nationality is linked to multiple births through differences in access to fertility treatments. In Canada, factors such as lack of social support, language barriers and financial instability have been identified as potential barriers to accessing fertility treatment for immigrants (Zelkowitz et al., Reference Zelkowitz, King, Whitley, Tulandi, Ells, Feeley, Gold, Rosberger, Chan, Bond, Mahutte, Ouhilal and Holzer2015). In contrast, the difference in multiple birth rate between Japanese mothers and non-Japanese mothers decreased over the years because the rate of non-Japanese mothers increased more rapidly over the years. Although the reason for the phenomenon is uncertain from this study, one possible factor is that the proportion of non-Japanese mothers who used infertility treatment increased in the periods. The twin birth rate increased from 1980–1985 to 2010–2015 around the world (Monden et al., Reference Monden, Pison and Smits2021), and medically assisted reproduction is pointed out as a reason. There are many countries where increases in twin rate were larger than Japan (Monden et al., Reference Monden, Pison and Smits2021; Pison et al., Reference Pison, Monden and Smits2015). In addition, the multiple birth rate for non-Japanese mothers did not decrease from 2005 to 2010 in Japan, and there might exist some differences in the effects of the recommendation for prevention of multiple birth during assisted reproductive technology procedures from 2008 depending on nationalities.

It has been suggested from the results that the multiple birth rate in Japan is associated with parental socioeconomic status. To fully comprehend the findings of this study, future research should explore the association between the utilization of infertility treatment and parental socioeconomic status. Moreover, as infertility treatment has recently become covered by insurance in Japan, it is important to monitor whether socioeconomic disparities persist or diminish in the future.

There are some limitations to this study. First, the national birth data used in this study lacks information regarding infertility treatment or other aspects of socioeconomic status, such as income and education level. Not all of the multiple births are caused by infertility treatment, and multiple birth rates shown in this study include both multiple births caused by infertility treatment and those that occurred naturally. Because the data on infertility treatment were not available, we could not show the results by the status of infertility treatment. It will be meaningful to investigate an association between multiple birth and sociodemographic characteristics by the status of infertility treatment in future studies. Additionally, the data did not distinguish between monozygotic and dizygotic twins. Furthermore, data on which infants were born in the same delivery were unavailable, so we had to judge it based on whether information in the available data coincides among multiples. However, despite these limitations, our study used comprehensive birth data from Japan, providing insights into the overall pattern of associations between sociodemographic characteristics and multiple births.

In conclusion, this study investigated the association between parental characteristics and multiple births in Japan using national birth data. The results of the regression analysis revealed that non-Japanese mothers had a lower risk of multiple births than Japanese mothers. Furthermore, lower non-manual and manual workers had a lower risk of multiple births than upper non-manual workers in both maternal and paternal occupations. These findings implied that people with lower socioeconomic status tend not to use infertility treatment compared with those with higher socioeconomic status in Japan, and it probably contributed to the difference in multiple birth rate depending on parental socioeconomic status.

Supplementary material

To view supplementary material for this article, please visit https://doi.org/10.1017/thg.2024.36.

Data availability statement

The data that support the findings of this study are available from the Ministry of Health, Labour and Welfare in Japan but restrictions apply to the availability of these data, which were used under license for the current study. However, data are available from the Ministry of Health, Labour and Welfare if the Ministry permits use of the data.

Funding statement

This study was supported by JSPS KAKENHI Grant Number JP22K17372.

Competing interests

The authors declare that they have no competing interests.

Ethics statement

This study was approved by the Kyushu University Institutional Review Board for Clinical Research (No. 22221-06). In addition, informed consent was not required for this study because we used the official statistics data that were provided from the Ministry of Health, Labour and Welfare on the basis of the Statistics Act in Japan.

References

Abel, E. L., & Kruger, M. L. (2012). Maternal and paternal age and twinning in the United States, 2004–2008. Journal of Perinatal Medicine, 40, 237239. https://doi.org/10.1515/JPM.2011.118 CrossRefGoogle ScholarPubMed
Baird, D. T., Collins, J., Egozcue, J., Evers, L. H., Gianaroli, L., Leridon, H., Sunde, A., Templeton, A., Van Steirteghem, A., Cohen, J., Crosignani, P. G., Devroey, P., Diedrich, K., Fauser, B. C., Fraser, L., Glasier, A., Liebaers, I., Mautone, G., Penney, G., Tarlatzis, B.; Capri Workshop Group, ESHRE. (2005). Fertility and ageing. Human Reproduction Update, 1, 261276. https://doi.org/10.1093/humupd/dmi006 Google Scholar
Blondel, B., Kogan, M. D., Alexander, G. R., Dattani, N., Kramer, M. S., Macfarlane, A., & Wen, S. W. (2002). The impact of the increasing number of multiple births on the rates of preterm birth and low birthweight: An international study. American Journal of Public Health, 92, 13231330. https://doi.org/10.2105/ajph.92.8.1323 CrossRefGoogle ScholarPubMed
Brautsch, L. A. S., Voss, I., Schmidt, L., & Vassard, D. (2023). Social disparities in the use of ART treatment: A national register-based cross-sectional study among women in Denmark. Human Reproduction, 38, 503510. https://doi.org/10.1093/humrep/deac247 CrossRefGoogle ScholarPubMed
Colletto, G. M., Segre, C. A., Rielli, S. T., & Rosário, H. (2003). Multiple birth rates according to different socioeconomic levels: An analysis of four hospitals from the city of Sao Paulo, Brazil. Twin Research, 6, 177182. https://doi.org/10.1375/136905203765693825 CrossRefGoogle ScholarPubMed
Dawson, A. L., Tinker, S. C., Jamieson, D. J., Hobbs, C. A., Rasmussen, S. A., Reefhuis, J.; National Birth Defects Prevention Study. (2015). Epidemiology of twinning in the National Birth Defects Prevention Study, 1997 to 2007. Birth Defects Research Part A: Clinical and Molecular Teratology, 103, 8599. https://doi.org/10.1002/bdra.23325 CrossRefGoogle Scholar
Ellison, M. A., Hotamisligil, S., Lee, H., Rich-Edwards, J. W., Pang, S. C., & Hall, J. E. (2005). Psychosocial risks associated with multiple births resulting from assisted reproduction. Fertility and Sterility, 83, 14221428. https://doi.org/10.1016/j.fertnstert.2004.11.053 CrossRefGoogle ScholarPubMed
Fox, J., & Monette, G. (1992). Generalized collinearity diagnostics. Journal of the American Statistical Association, 87, 178183. https://doi.org/10.2307/2290467 CrossRefGoogle Scholar
Harris, K., Burley, H., McLachlan, R., Bowman, M., Macaldowie, A., Taylor, K., Chapman, M., & Chambers, G. M. (2016). Socio-economic disparities in access to assisted reproductive technologies in Australia. Reproductive BioMedicine Online, 33, 575584. https://doi.org/10.1016/j.rbmo.2016.07.012 CrossRefGoogle ScholarPubMed
Hu, S., He, S, Zhang, J., Ma, W., Geng, H., Zhan, Z., Yao, X., Zhong, L., Wei, J., Qiu, X., & Jia, E. (2024). Association between patient adherence and treat-to-target in gout: A cross-sectional study. Medicine (Baltimore), 103, e37228. https://doi.org/10.1097/MD.0000000000037228 CrossRefGoogle ScholarPubMed
Iba, A., Maeda, E., Jwa, S.C., Yanagisawa-Sugita, A., Saito, K., Kuwahara, A., Saito, H., Terada, Y., Ishihara, O., & Kobayashi, Y. (2021). Household income and medical help-seeking for fertility problems among a representative population in Japan. Reproductive Health, 18, 165. https://doi.org/10.1186/s12978-021-01212-w CrossRefGoogle ScholarPubMed
Imaizumi, Y. (1994). Recent and long term trends of multiple birth rates and influencing factors in Japan. Journal of Epidemiology, 4, 103109. https://doi.org/10.2188/jea.4.103 CrossRefGoogle Scholar
Imrie, R., Ghosh, S., Narvekar, N., Vigneswaran, K., Wang, Y., & Savvas, M. (2023). Socioeconomic status and fertility treatment outcomes in high-income countries: A review of the current literature. Human Fertility (Cambridge, England), 26, 2737. https://doi.org/10.1080/14647273.2021.1957503 CrossRefGoogle ScholarPubMed
Japan Society of Obstetrics and Gynecology. (2024). Opinion about prevention of multiple pregnancy in assisted reproductive technologies. https://fa.kyorin.co.jp/jsog/readPDF.php?file=75/8/075080775.pdf#page=15.Google Scholar
Jwa, S. C., Ishihara, O., Kuwahara, A., Saito, K., Saito, H., Terada, Y., Kobayashi, Y., & Maeda, E. (2021). Social capital and use of assisted reproductive technology in young couples: Ecological study using application information for government subsidies in Japan. SSM-Population Health, 16, 100995. https://doi.org/10.1016/j.ssmph.2021.100995 CrossRefGoogle Scholar
Kaltsas, A., Moustakli, E., Zikopoulos, A., Georgiou, I., Dimitriadis, F., Symeonidis, E.N., Markou, E., Michaelidis, T. M., Tien, D. M. B., Giannakis, I., Ioannidou, E. M., Papatsoris, A., Tsounapi, P., Takenaka, A., Sofikitis, N., & Zachariou, A. (2023). Impact of advanced paternal age on fertility and risks of genetic disorders in offspring. Genes (Basel), 14, 486. https://doi.org/10.3390/genes14020486 CrossRefGoogle ScholarPubMed
Kita, S., Minatani, M., Hikita, N., Matsuzaki, M., Shiraishi, M., & Haruna, M. (2015). A systematic review of the physical, mental, social, and economic problems of immigrant women in the perinatal period in Japan. Journal of Immigrant and Minority Health, 17, 18631881. https://doi.org/10.1007/s10903-015-0192-2 CrossRefGoogle ScholarPubMed
Kleinhaus, K., Perrin, M. C., Manor, O., Friedlander, Y., Calderon-Margalit, R., Harlap, S., & Malaspina, D. (2008). Paternal age and twinning in the Jerusalem Perinatal Study. European Journal of Obstetrics & Gynecology, 141, 119122. https://doi.org/10.1016/j.ejogrb.2008.07.026 CrossRefGoogle ScholarPubMed
Kovac, J. R., Addai, J., Smith, R. P., Coward, R. M., Lamb, D. J., & Lipshultz, L. I. (2013). The effects of advanced paternal age on fertility. Asian Journal of Andrology, 15, 723728. https://doi.org/10.1038/aja.2013.92 CrossRefGoogle ScholarPubMed
Malamitsi-Puchner, A., Voulgaris, K., Sdona, E., Christou, C., & Briana, D. D. (2019). Twins and socioeconomic factors: Changes in the last 20 years. Journal of Maternal-Fetal and Neonatal Medicine, 32, 455460. https://doi.org/10.1080/14767058.2017.1382469 CrossRefGoogle ScholarPubMed
McLennan, A. S., Gyamfi-Bannerman, C., Ananth, C. V., Wright, J. D., Siddiq, Z., D’Alton, M. E., & Friedman, A. M. (2017). The role of maternal age in twin pregnancy outcomes. American Journal of Obstetrics and Gynecology, 217, 80.e180.e8. https://doi.org/10.1016/j.ajog.2017.03.002 CrossRefGoogle ScholarPubMed
Ministry of Health, Labour and Welfare. (2024a). The vital statistics. https://www.mhlw.go.jp/english/database/db-hw/ Google Scholar
Ministry of Health, Labour and Welfare. (2024b). Initiatives for infertility treatment. https://www.mhlw.go.jp/stf/seisakunitsuite/bunya/kodomo/kodomo_kosodate/boshi-hoken/funin-01_00004.html Google Scholar
Misra, D. P, & Ananth, C. V. (2002). Infant mortality among singletons and twins in the United States during 2 decades: Effects of maternal age. Pediatrics, 110, 11631168. https://doi.org/10.1542/peds.110.6.1163 CrossRefGoogle ScholarPubMed
Monden, C., Pison, G., & Smits, J. (2021). Twin peaks: More twinning in humans than ever before. Human Reproduction, 36, 16661673. https://doi.org/10.1093/humrep/deab029 CrossRefGoogle Scholar
Oleszczuk, J. J., Cervantes, A., Kiely, J. L., Keith, D. M., & Keith, L. G. (2001). Maternal race/ethnicity and twinning rates in the United States, 1989–1991. Journal of Reproductive Medicine, 46, 550557.Google Scholar
Ooki, S. (2010). The effect of an increase in the rate of multiple births on low-birth-weight and preterm deliveries during 1975–2008. Journal of Epidemiology, 20, 480488. https://doi.org/10.2188/jea.je20100022 CrossRefGoogle ScholarPubMed
Ooki, S. (2013). Fatal child maltreatment associated with multiple births in Japan: nationwide data between July 2003 and March 2011. Environmental Health and Preventive Medicine, 18, 416421. https://doi.org/10.1007/s12199-013-0335-9 CrossRefGoogle ScholarPubMed
Pison, G., Monden, C., & Smits, J. (2015). Twinning rates in developed countries: Trends and Explanations. Population and Development Review, 41, 629649. https://doi.org/10.1111/j.1728-4457.2015.00088.x CrossRefGoogle Scholar
R Core Team. (2024). R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. https://www.R-project.org/.Google Scholar
Russell, R. B., Petrini, J. R., Damus, K., Mattison, D. R., & Schwarz, R. H. (2003). The changing epidemiology of multiple births in the United States. Obstetrics & Gynecology, 101, 129135. https://doi.org/10.1016/s0029-7844(02)02316-5 Google ScholarPubMed
Seifer, D. B., Simsek, B., Wantman, E., & Kotlyar, A.M. (2020). Status of racial disparities between black and white women undergoing assisted reproductive technology in the US. Reproductive Biology and Endocrinology, 18, 113. https://doi.org/10.1186/s12958-020-00662-4 CrossRefGoogle ScholarPubMed
Smith, J. F., Eisenberg, M. L., Glidden, D., Millstein, S. G., Cedars, M., Walsh, T. J., Showstack, J., Pasch, L. A., Adler, N., & Katz, P. P. (2011). Socioeconomic disparities in the use and success of fertility treatments: Analysis of data from a prospective cohort in the United States. Fertility and Sterility, 96, 95101. https://doi.org/10.1016/j.fertnstert.2011.04.054 CrossRefGoogle ScholarPubMed
Smits, J., & Monden, C. (2011). Twinning across the developing world. PLoS One, 6, e25239. doi: 10.1371/journal.pone.0025239 CrossRefGoogle ScholarPubMed
Tanaka, H., Mackenbach, J. P., & Kobayashi, Y. (2021). Trends and socioeconomic inequalities in self-rated health in Japan, 1986–2016. BMC Public Health, 21, 1811. https://doi.org/10.1186/s12889-021-11708-6 CrossRefGoogle ScholarPubMed
Tomioka, K., Kurumatani, N., & Saeki, K. (2020). The association between education and smoking prevalence, independent of occupation: A nationally representative survey in Japan. Journal of Epidemiology, 30, 136142. https://doi.org/10.2188/jea.JE20180195 CrossRefGoogle ScholarPubMed
Urquia, M. L., Frank, J. W., Glazier, R. H., & Moineddin, R. (2007). Multiple maternities and neighborhood income. Twin Research and Human Genetics, 10, 400405. https://doi.org/10.1375/twin.10.2.400 CrossRefGoogle ScholarPubMed
van Buuren, S., & Groothuis-Oudshoorn, K. (2011). mice: Multivariate imputation by chained equations in R. Journal of Statistical Software, 45, 167. https://doi.org/10.18637/jss.v045.i03 Google Scholar
van den Akker, O., Postavaru, G. I., & Purewal, S. (2016). Maternal psychosocial consequences of twins and multiple births following assisted and natural conception: a meta-analysis. Reproductive BioMedicine Online, 33, 114. https://doi.org/10.1016/j.rbmo.2016.04.009 CrossRefGoogle ScholarPubMed
Wenze, S. J., Battle, C. L., & Tezanos, K. M. (2015). Raising multiples: Mental health of mothers and fathers in early parenthood. Archives of Women’s Mental Health, 18, 163176. https://doi.org/10.1007/s00737-014-0484-x CrossRefGoogle ScholarPubMed
Yokoyama, Y., Oda, T., Nagai, N., Sugimoto, M., & Mizukami, K. (2015). Child maltreatment among singletons and multiple births in Japan: A population-based study. Twin Research and Human Genetics, 18, 806811. https://doi.org/10.1017/thg.2015.67 CrossRefGoogle ScholarPubMed
Zahan, R., & Feng, C. X. (2020). Bayesian spatial analysis of socio-demographic factors influencing pregnancy termination and its residual geographic variation among ever-married women of reproductive age in Bangladesh. BMC Public Health, 20, 1348. https://doi.org/10.1186/s12889-020-09401-1 CrossRefGoogle ScholarPubMed
Zelkowitz, P., King, L., Whitley, R., Tulandi, T., Ells, C., Feeley, N., Gold, I., Rosberger, Z., Chan, P., Bond, S., Mahutte, N., Ouhilal, S., & Holzer, H. (2015). A comparison of immigrant and Canadian-born patients seeking fertility treatment. Journal of Immigrant and Minority Health, 17, 10331040. https://doi.org/10.1007/s10903-014-0037-4 CrossRefGoogle ScholarPubMed
Zhang, X. H., Qiu, L. Q., & Huang, J. P. (2011). Risk of birth defects increased in multiple births. Birth Defects Research Part A: Clinical and Molecular Teratology, 91, 3438. https://doi.org/10.1002/bdra.20725 CrossRefGoogle ScholarPubMed
Figure 0

Figure 1. The flowchart depicting the selection process for the study population.

Figure 1

Table 1. Number (%) of singleton and multiple deliveries by birth characteristics

Figure 2

Table 2. Multiple birth rate (per 1,000 deliveries) by parental characteristics and year

Figure 3

Figure 2. Multiple birth rate by maternal age group and year.

Figure 4

Table 3. The result of regression analysis investigating an association between parental characteristics and multiple birth

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