AbstractInfants born in Japan are reported to have a low incidence of necrotizing enterocolitis (NEC) among countries, and these differences remained significant after adjusting for common clinical factors. To investigate the impact of ethnic background, we compared the incidence of NEC between infants born in Japan and those born to mothers of Japanese ethnicity in California. Preterm infants born between 2008 and 2019 at 22–29 weeks of gestational age were analyzed retrospectively. Four groups were analyzed: infants born in Japan (JP), infants born in California to mothers born in Japan (JP-J), infants born in California to mothers with Japanese ethnicity but born in the United States or another country (JP-CA), and a comparison group of infants born in California to non-Hispanic White mothers (NHW-CA). Each cohort consisted of 52,049, 115, 226, and 12,275 infants, respectively. Unadjusted NEC incidences were significantly lower in JP compared to the other three cohorts (1.7% JP, 4.5% JP-J, 4.6% JP-CA, and 3.3% NHW-CA, respectively; p < 0.01). After adjusting for confounding factors, odds ratios for NEC in JP vs. JP-J, JP-CA, and NHW-CA were 3.04 (1.18–7.80), 2.89 (1.45–5.75), and 1.96 (1.56–2.47), respectively. This study suggests that differences in NEC incidence in Japan are not explained by ethnicity.Clinical trial regstration number: Registration numbers is UMIN000006961 (https://center6.umin.ac.jp/cgi-open-bin/ctr_e/ctr_view.cgi?recptno=R000008217) for the Neonatal Research Network of Japan. However, the the California Perinatal Quality Care Collaborative (CPQCC) aims only to assess neonatal outcomes for the purpose of quality assessment and improvement. So, no clinical trial number is available. Please refer to the web site https://www.cpqcc.org/.
IntroductionThe mortality rate among extremely preterm infants has decreased dramatically, especially in developed countries1,2, including Japan and California in the United States of America (USA)3,4. However, there is still difficulty in preventing their morbidities, and their current long-term outcomes are not satisfactory5,6,7. Necrotizing enterocolitis (NEC) is still one of the most important life-threatening morbidities among extremely preterm infants and remains difficult to prevent or treat8,9. Poor long-term outcomes among NEC survivors have also been reported10. Many investigations have been carried out to identify risk factors and preventive measures for NEC. Although several risk factors have been reported, including not being fed by human breastmilk, rapidly increasing enteral feeding volume, excessive use of antibiotics, and blood transfusion, the direct causality of these factors has yet to be established11. Furthermore, there is a huge variation in the incidence of NEC among countries12. Japan has reported a relatively low incidence of NEC as compared with the US and European countries5,6,13,14. Its recent incidences in Japan and California were reported around 1.6% and 3.9% in very-low-birth-weight (VLBW) infants, respectively15,16. Several reports suggested a genetic difference could explain frequency variations17,18,19. Variation in incidence within a country has also been reported based on racial/ethnic differences20. Even in a single USA state, California, there exists racial/ethnic disparities in the incidences of NEC21. Even though there are possibilities that this difference could be explained by baseline characteristics, including social health status and low exposure to breast milk, genetic contribution still needs to be explored. However, these comparisons are often difficult because of differences in cohort selection, definitions, and risk considerations. Therefore, in this study, two datasets of VLBW infants were selected to compare NEC incidences between Japan and California employing a strategy similar to that used in our previous study of intraventricular hemorrhage (IVH)22, with careful matching of cohort criteria, risk adjustment, and definitions.Comparing NEC incidences among Japanese mothers who gave birth in Japan and Japanese women born in Japan who gave birth in California could provide insight into the potential impact of ethnic factors on the onset of NEC. If preterm infants born to Japanese mothers in California showed a rate of NEC that was significantly higher than the rate seen in preterm infants born in Japan, changes in maternal lifestyle and/or differences in perinatal practices are most likely the source. Furthermore, this finding would open the possibility of identifying important drivers for developing NEC by comparing maternal health and perinatal care practices in future studies.ResultsPatient characteristicsOf the registered total of 58,306 infants in the Neonatal Research Network of Japan (NRNJ) databases, after excluding 2,131 infants born after 29 gestational age or with a birthweight > 1500 g and 4,216 with major congenital anomalies, a final study sample of 52,049 infants was used for the analysis. In the California Perinatal Quality Care Collaborative (CPQCC) database, of the 181,456 total registered infants, 118,337 infants were excluded for not meeting gestational age or birthweight criteria, 7,163 infants were excluded due to major congenital anomalies, which was used for the epidemiological study; including chromosomal/genetic disorders and central nervous, cardiovascular, urogenital, gastrointestinal, respiratory, and skeletal organs23, 848 without ethnicity information, and 42,492 infants who were not Japanese or non-Hispanic White for a final cohort of 12,616 infants. Among them, 341 infants were born to Japanese mothers. One hundred fifteen of these infants were born to mothers who were born in Japan and 226 to mothers born in the USA or other countries (174 in California, 38 in other states, and 14 in other countries). The comparison group included 12,275 infants born in California to non-Hispanic White mothers (Fig. 1).Fig. 1Patient flow. NRNJ: the Neonatal Research Network of Japan CPQCC: the California Perinatal Quality Care Collaborative GA: gestational age.Full size imageMaternal and infant risk profiles by birthplace and maternal ethnicity are shown in Table 1. There were no significant differences in gestational ages among the four cohorts. However, infants born in Japan had lower birthweights, were more likely to be small-for-gestational age (SGA), singleton, and had a low 5-min Apgar. Mothers giving birth in Japan had a higher percentage of chorioamnionitis but were less likely to be teenagers, have diabetes or hypertension, receive antenatal steroids, or have an outborn birth when compared to non-Hispanic White mothers in California. When compared to mothers in Japan, mothers born in Japan who delivered in California were older and had a higher percentage of diabetes, multiple births, antenatal steroids, and outborn infants. With the exception of mothers over 39 years of age, the profiles and gestational age of California born Japanese mothers were similar to those of Japanese born mothers who delivered in California. These factors were used for risk adjustment in our mixed logistic regression models.Table 1 Maternal and infant characteristics.Full size tableOutcome comparisonsUnadjusted clinical outcomes are shown in Table 2. The mortality of infants born in Japan was lowest compared to infants born in California to mothers born in Japan, mothers of Japanese ethnicity born in the USA, and non-Hispanic White mothers (unadjusted logistic regression, p < 0.01). To explore the possibility that these low incidences could be explained by a high rate of delivery room deaths, delivery room deaths by ethnicity were compared. Delivery room deaths were also lowest in Japan when compared with rates for infants of Californian mothers born in Japan, California Japanese mothers born in the USA, and non-Hispanic White mothers (unadjusted logistic regression, p < 0.01). Although there were no differences in the incidences of spontaneous intestinal perforation (SIP), the incidences of NEC and either NEC or SIP were lowest in infants born in Japan compared with infants born in California to Japanese mothers born in Japan, Japanese mothers born in the USA, and Californian non-Hispanic White mothers (unadjusted logistic regression, p < 0.01). Although the observed overall mortality, delivery room deaths, NEC, and NEC or spontaneous SIP were lowest in infants born in Japan, there were no differences among Californian infants born to Japanese mothers born in Japan, Japanese mothers born in the USA, and non-Hispanic White mothers (Fig. 2).Table 2 Observed clinical outcomes.Full size tableFig. 2Necrotising enterocolitis, spontaneous gastrointestinal perforation, and death/necrotizing enterocolitis rates among different cohorts. NEC and its composite outcome in preterm infants born in Japan were significantly lower than all other cohorts in California (unadjusted logistic regression, p < 0.01). Although spontaneous intestinal perforation was lowest in non-Hispanic White infants, there was no significant difference among cohorts. (Refer to Table 2). Vertical bars show 95% confidential limits. NEC: necrotizong enterocolitis, SIP: spontanous intestinal perforation JP: Japan, CA: California, NHW: non-Hispanic White.Full size imageThe composite outcome, either death or NEC, was also lowest in infants born in Japan (6.1%, 3,149/52,049) compared with infants born to mothers born in Japan (16.5%, 19/115), infants born to mothers with Japanese ethnicity born in the USA (14.2%, 32/226), and infants born to non-Hispanic White mothers (13.8%, 1,691/12,275) (unadjusted logistic regression, p < 0.01) (Fig. 2). However, regardless of maternal place of birth, there were no differences in the odds ratios (ORs) between Japanese infants born in California and non-Hispanic White infants born in California (unadjusted logistic regression).Risk-adjusted primary outcomeTable 3 shows the risk-adjusted ORs in NEC incidence among four cohorts from a mixed logistic regression using the following risk factors indicated by univariate analyses: maternal age, chorioamnionitis, hypertension, diabetes, gestational age, multiple births, cesarean delivery, antenatal steroids, outborn, 5-min Apgar score, birth year, SGA, gender, and random effect of hospital clustering. The observed and adjusted ORs were very similar (Tables 2 and 3). For example, compared to births in Japan, the observed OR to non-Hispanic Whites in California was 2.0 (1.7–2.2) vs. a risk-adjusted OR of 2.0 (1.6 -2.5). When compared to the mothers born in Japan who delivered in California, the observed OR was similar to the adjusted OR of 3.0 (1.2–7.8). The risk-adjusted ORs for the other clinical outcomes listed in Table 2 were also similar to their observed ORs (data on request to authors). Even with risk adjustment, compared to infants born in Japan, the OR for developing NEC remained significantly higher for infants born in California to mothers born in Japan (3.0, 1.2–7.8), born in California to Japanese mothers born in the USA (2.9, 1.5–5.8), and to non-Hispanic White mothers (2.0, 1.6–2.5).Table 3 Risk-adjusted odds ratios for necrotizing enterocolitis in Japan and California.Full size tableTrends in NEC rates in Japan and CaliforniaWhile the NEC incidence in infants born in Japan was stable, averaging 1.7% beginning in 2008, those in non-Hispanic White infants decreased from 4.9% in 2008 till approximately 2015 and then stabilized at an average of 2.7% (Cochran-Armitage trend test, p < 0.01 from 2008 to 2019). Actual decreases in the incidences of NEC in non-Hispanic White infants from 2008 to 2019 was about 55% (Fig. 3). Due to the relatively small sample size, there was marked variability in the year-to-year NEC incidence of Californian Japanese infants born to mothers born either in Japan or outside of Japan. Even when combined (n = 341 with NEC incidence of 4.6%), they did not show a significant decrease over time.Fig. 3Trends in necrotizing enterocolitis in Japan and California. Comparison of annual trends in incidences in three groups revealed no significant differences for Japan (Cochran-Armitage trend test), while significant decreases for the CPQCC (p < 0.01) and non-Hispanic White infants born in California (p < 0.01). The NEC incidences in each year group are described at the bottom of the figure. CPQCC: the California Perinatal Quality Care Collaborative, NHW-CA: non-Hispanic White infants in Calfornia, JP: infants born in Japan.Full size imageDiscussionThe purpose of this study was to explore the possibility that the low incidence of NEC in Japan could be attributed to a genetic advantage. If that were the case, one would expect that the low rate of NEC observed in infants born to Japanese mothers in Japan would persist if the mother gave birth in California. Using the same cohort selection criteria and definitions, we found that the incidence of NEC or NEC and death in infants born in Japan was significantly lower than in infants born in California to women born in Japan. This difference persisted even after adjusting for several confounding background risks. Furthermore, there was no statistical difference in NEC incidences among the infants born in California, whether born to Japanese mothers born in Japan, Japanese mothers born in the USA, or to non-Hispanic White mothers, and their NEC rates were all significantly higher than those of infants born in Japan. This is the first and unique study to show the difference in NEC incidences among preterm infants born in different birthplaces with the same maternal ethnic background. Our findings suggest that the low rate of NEC in Japan could not be explained simply by ethnicity. Ethnicity may depend on social constructs in part rather than genetic basis. Furthermore, the use of breast milk is more significantly influenced by the NICU management policies of the region of birth rather than by ethnic differences. While considering such backgrounds, our current study clearly indicates that NEC cannot be strongly involved in genetic basis in the onset.Unfortunately, we were unable to assess the potential impact of socioeconomic and lifestyle factors (such as dietary and exercise habits and smoking) on developing NEC, as this information was not available11,24. Recognizing the limitations of our available risk factors (maternal age, hypertension, chorioamnionitis, diabetes, gestational age, sex, plurality, birthweight, SGA, antenatal steroids, cesarean delivery, neonatal transport, 5-min Apgar score, and teenage pregnancy), we interpreted the lack of significant difference between unadjusted and adjusted estimates to suggest that the low NEC incidences seen in Japan were not due to a more advantageous available risk profile.We were also unable to assess the possibility of paternal impact. In our cohort, among the first-generation Japanese mothers, 40% (47/115) had fathers of Japanese ethnicity, while for the later generation, only 9.3% (21/226) had fathers of Japanese ethnicity. Although it would be informative to see if the incidence of NEC differed by paternal ethnicity, our data set was too small to perform this analysis.Although all cases reported as having NEC on each database were not validated about the accuracy of diagnosis, this study makes a strong case that ethnic differences alone could not account for the variation in NEC incidences among countries. We believe that differences in perinatal practices should play an important role in the incidence of NEC. While identifying what practice differences might account for Japan’s low incidence of NEC is beyond the scope of this first investigation, the trend patterns in practices in Japan and California have now been collected and may provide some clues in the next manuscript under preparation. For example, the low incidence of NEC in Japan has been stable from 2008 to 2019, suggesting that whatever perinatal factors and approaches to care contributed to the low incidence were present as early as 2008. In contrast, the NEC incidence in California decreased from 2008 to approximately 2015 and was then stable. An analysis of changes in the perinatal care associated with this decrease could provide important clues to how daily NICU practice might be essential in preventing NEC or enhancing NEC onset. For example, differences in nutritional management, particularly feeding practices and breast milk feeding, among NICUs or changes over time are of significant interest in relation to the onset of NEC, as nutritional management has been discussed as the most critical factor in its development25,26,27,28. Additionally, administering Bifidobacterium to preterm infants during their stay in NICUs is also an area of interest29. An investigation to examine the potential relationships between NEC onset and differences in NICU practices is underway using these same cohorts.Another factors need to be clarified is the effect of active treatment of infants born below 24 gestation because lower gestation is the most substantial known risk for NEC. If there was a policy change, active resuscitation towards infants born under 24 gestation might affect NEC incidences between countries. However, rates of infants born before 24 gestation analyzed for this study in Japan and California were 6.5% for infants born in Japan, 7.0% for infants born in California to Japanese mothers born in Japa, 6.6% for those born in California to Japanese mothers born in the USA, and 6.7% for infants born to Californian non-Hispanic White mothers, respectively. Therefore, there was no selection bias in the gestational age distribution among infants studied.The strengths of this study are that it compares two well-organized network databases in Japan and California that used the same risk factor and outcomes definitions, which increased the analytical power of the study. The limitations of this study are as follows. Firstly, although the diagnostic criteria for NEC were standardized across all registered hospitals, the possibility that a similar case, especially if it is a mild expression of NEC, might be diagnosed differently across institutions can not be excluded. Secondly, even including all births from 2008 until 2019, the sample size of Japanese mothers who gave birth to preterm infants in California was small. We were able to report the statistical significance level for all our comparisons. However, when utilizing vital records to ascertain ethnicity and country of birth in California, we could not disclose the number and percentage of infants in a table cell if it was less than 12. Although the differences in NEC incidences were significant among cohorts, a larger sample size would have allowed us to share the details of our findings more completely.ConclusionThe NEC incidence in preterm infants born in Japan was significantly lower than those born to Japanese mothers in California. This suggests that ethnic differences alone could not account for the low rate of NEC in Japan. A detailed analysis of the differences in lifestyle and perinatal practice between Japan and California is warranted to identify potential care strategies to reduce NEC in preterm infants.MethodsData sourcesIn this retrospective cohort study, two large neonatal network databases, the NRNJ30 and the CPQCC31 data registries, were analyzed.Approximately 230 hospitals have participated in the NRNJ since 2003, collecting information on short-term outcomes at NICU discharge from infants born with birth weight at or less than 1500 g. More than 83,000 infants have been registered in the NRNJ database, covering > 65% of infants with VLBW born in Japan. There is no variable regarding ethnicity in the NRNJ dataset, but according to the Vital Statistics in Japan, more than 97% of infants were born to mothers of Japanese ethnicity.In California, approximately 130 hospitals are members of CPQCC, caring for more than 95% of all VLBW infants (1.1% of California births). We used the California birth certificate to obtain self-identified nativity, maternal race, and ethnicity for the California-born infants. These vital statistics data were then linked to the CPQCC demographic and clinical outcomes data using a probabilistic linkage algorithm with a success rate of greater than 98%.Study populationAll infants born at 22–29 weeks of gestational age or with a birthweight between 401–1,500 g between January 1, 2008, and December 31, 2019, admitted for neonatal care within 28 days of birth to hospitals participating in the network databases were included in the study cohort. Gestational age was determined using the following hierarchy: a best estimate based on early prenatal ultrasound, last menstrual period, or physical examination at birth. Infants with major congenital anomalies and incomplete data were excluded. After the exclusion of ineligible infants, 4 groups were defined for data analyses: 1) infants born in Japan, 2) infants born in California to mothers born in Japan, 3) infants born in California to mothers with Japanese ethnicity but who were born in the USA or another country, and 4) infants born in California to non-Hispanic White mothers. To assess the potential impact of acculturation, we compared the risk profiles and neonatal outcomes for infants born to first-generation mothers who were born in Japan to those of Japanese ancestry who were born in the USA (later generations). Infants born in California to non-Hispanic White mothers were set as a comparison group.Outcome measures and risk factorsThe primary outcome was NEC or mortality during the stay in the NICU. NEC was defined as grade II or III by Bell’s criteria diagnosed with clinical findings, including increased gastric residue, a distended abdominal wall, increased inflammatory indicators, and abdominal X-ray findings with or without intestinal perforation. All information on the diagnosis of NEC was exclusively based on the clinical or pathological findings from hospitals belonging to both networks. SIP, which was defined as the sudden onset of perforation without any preceding signs or symptoms of NEC, was also evaluated because a precise differential diagnosis between these two morbidities is not always possible. Although the diagnosis of NEC or SIP is defined in the operational manual for both cohorts, the final diagnosis exclusively depends on the physician’s reports. Mortality included delivery room deaths, however, clinical outcomes during the stay in the NICU were analyzed only for infants admitted into the NICU. The same outcome definitions are used in Japan and California30,31.To assess the potential impact of differential risk profiles, we compared the percentage of maternal risk factors (age, hypertension, chorioamnionitis, and diabetes), infant factors (gestational age, sex, plurality, birthweight, SGA), healthcare differences (antenatal steroid use, cesarean delivery, neonatal transport, and Apgar score at 5 min), and a social risk factor (teenage pregnancies) in the study groups. These factors and birth year were used for risk adjustment in our regression analyses. Our main exposure variable is the maternal cohort defined by delivery location and ethnicity.Statistical analysesTo assess the maternal cohort effect (the exposure variable) the association of outcomes and the selected variables were examined using descriptive analysis and chi-square tests for categorical variables and ANOVA for continuous variables. Observed outcome rates were assessed for statistical significance between the four cohorts using unadjusted logistic regression. Multivariable hierarchical logistic regression models with hospitals as a random effect were used to estimate adjusted ORs. Candidate variables to account for differences in patient case mix include the maternal, infant, and care factors listed in the previous section. The birth year was also included to adjust for temporal trends in the outcomes over time. The models were estimated based on maximum likelihood with Laplace approximation. All infants in our final cohort were included in all of our analyses, and the level of significance stated. However, because self-identified maternal Race and Country of birth were obtained from California Vital records, to protect the privacy of individuals, we are required by the State to not report the number and percentage of infants in a table cell of less than 12. The analysis was conducted in SAS 9.4 (SAS Institute, USA).Ethical considerationAll information about the infants was collected anonymously, and the stored data were unlinked from individual identifiers. The protocol of this study was approved by the central internal review board at Tokyo Women’s Medical University (Registration number: 692), and informed consent from the parents for registering and analyzing the data was obtained, where all Japanese data were collected, and at Stanford University, where the analyses comparing Japanese and Californian cohorts were conducted in collaboration in accordance with the requirements for the Committee for the Protection of Human Subjects/the Health Care Access and Information (CPHS/HCAI).All methods were performed in accordance with the relevant guidelines and regulations.
Data availability
The datasets generated by the current study are available in the Database repository, http://plaza.umin.ac.jp/nrndata/indexe.htm and https://www.cpqcc.org/nicu/nicu-reports.
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The Neonatal Research Network of Japan (NRNJ http://plaza.umin.ac.jp/nrndata/indexe.htm) (Accessed on February 12, 2024).The California Perinatal Quality Care Collaborative (CPQCC, https://www.cpqcc.org/nicu/nicu-reports) (Accessed on February 12, 2024).Download referencesAcknowledgementsWe would like to express our sincere gratitude to all the staff of the facilities who provided valuable data for this study, as well as to the infants and their families who registered valuable data during their NICU stay. The complete list of the Neonatal Research Network of Japan and the California Quality Care Collaborative is shown in Appendix 1.FundingThis study was partly supported by the Neonatal Research Network of Japan and the California Perinatal Quality Care Collaborative.Author informationAuthor notesA list of authors and their affiliations appears at the end of the paper.Authors and AffiliationsDepartment of Pediatrics, Kyorin University, 6-20-2 Shinkawa, Mitaka, Tokyo, 181-8611, JapanSatoshi KusudaPerinatal Epidemiology and Health Outcomes Research Unit, Division of Neonatology, Department of Pediatrics, Stanford University School of Medicine, Stanford, USAMihoko V. Bennett & Jeffrey B. GouldThe Neonatal Research Network of Japan, Tokyo, JapanSatoshi KusudaObihiro Kosei Hospital, Obihiro, JapanTakashi NasuAbashiri Kosei Hospital, Abashiri, JapanYukiteru TachibanaJCHO Hokkaido Hospital, Sapporo, JapanAyumu NoroNTT East Sapporo Hospital, Sapporo, JapanToshihiko MoriAsahikawa Medical University, Asahikawa, JapanKen NagayaAsahikawa Kosei Hospital, Asahikawa, JapanMasaru ShiraiEngaru Kosei Hospital, Engaru, JapanToru IshiokaIwamizawa City Hospital, Iwamizawa, JapanToshiya SaitoKushiro Red Cross Hospital, Kushiro, JapanYosuke KaneshiSapporo Prefecture Medical University, Sapporo, JapanMasaki KobayashiSapporo City Hospital, Sapporo, JapanNobuko ShionoTenshi Hospital, Sapporo, JapanNobuhiro TakahashiTomakomai Chity Hospital, Tomakomai, JapanYusuke OhkadoNikko Kinen Hospital, Sapporo, JapanItaru HayasakaNayoro City Hospital, Nayoro, JapanEiki NakamuraAomori Prefecture Central Hospital, Aomori, JapanTomofumi IkedaIwate Medical University, Morioka, JapanGenichiro SotodateIwate Prefecture Kuji Hospital, Kuji, JapanMari IshiiIwate Prefecture Ohfunato Hospital, Ohfunato, JapanToru HuchimukaiIwate Prefecture Ninohe Hospital, Ninohe, JapanTakahide HosokawaSendai City Hospital, Sendai, JapanRikio SuzukiSendai Red Cross Hospital, Sendai, JapanMasatoshi SanjoOsaki City Hospital, Osaki, JapanMichiya KudoTohoku University, Sendai, JapanTakushi HanitaAkita Red Cross Hospital, Akita, JapanHirokazu AraiAkita University, Akita, JapanMasato ItoOdate City Hospital, Odate, JapanSatoshi NiwaHiraka General Hospital, Yokote, JapanMasanari KawamuraYamagata Prefecture Central Hospital, Yamagata, JapanSatoshi WatanabeYamagata University, Yamagata, JapanYousuke SudoTsuruoka City Shonai Hospital, Tsuruoka, JapanHiroshi YoshidaNational Fukushima Hospital, Sukagawa, JapanTsutomu IshiiTakeda General Hospital, Aizuwakamatsu, JapanTakashi ImamuraFukusima Prefecture Medical University, Fukushima, JapanMaki SatoIbaraki Children’s Hospital, Mito, JapanYoshiya YukitakeTsukuba University, Tsukuba, JapanYayoi MiyazonoTsuchiura Kyodo Hospital, Tsuchiura, JapanGoro AsadaJichi Medical University, Oyama, JapanYumi KonoAshikaga Red Cross Hospital, Ashikaga, JapanYasuaki KobayashiDokkyo Medical University, Shimotsugagun, JapanHiroshi SuzumuraKiryu Kosei General Hospital, Kiryu, JapanYasushi OkiGunma Prefecture Children’s Hospital, Maebashi, JapanKenji IchinomiyaGunma University, Maebashi, JapanToru FujiuOta General Hospital, Ota, JapanHideaki FukushimaNational Nishisaitama Central Hospital, Tokorozawa, JapanHideshi FujinagaSaitama Medical University, Iruma, JapanTetsuya KunikataSaitama Medical University Medical Center, Kawagoe, JapanFumihiko NambaSaitama Prefecture Children’s Hospital, Omiya, JapanMasaki ShimizuJichi Medical University Saitama Medical Center, Omiya, JapanShigeharu HosonoKawaguchi City Medical Center, Kawaguchi, JapanChika MoriokaKameda General Hospital, Kameda, JapanMotoichiro SakuraiAsahi Central Hospital, Asahi, JapanHiroshi MatsumotoJuntendo University Urayasu Hospital, Urayasu, JapanNaoto NishizakiNarita Red Cross Hospital, Narita, JapanSatoshi ToishiChiba City Kaihin Hospital, Chiba, JapanHarumi OtsukaTokyo Women’s Medical University Yachiyo Medical Center, Yachiyo, JapanMasahiko SatoAiiku Hospital, Minato, JapanKenichiro HirakawaKyorin Univesity, Mitaka, JapanKenichiro HosoiNational International Medical Center, Shinjuku, JapanKeiji GoishiNational Center for Child Health and Development, Setagaya, JapanYuji ItoSanikukai Hospital, Sumida, JapanKyone KoJuntendo University, Bunkyo, JapanHiromichi ShojiShowa University, Shinagawa, JapanAtsuo MiyazawaSaint Luku Hospital, Chuo, JapanYuko NagaokiTeikyo University, Itabashi, JapanNaoki ItoTokyo Metropolitan Otsuka Hospital, Toshima, JapanShoko OhashiTokyo Metropolitan Bokuto Hospital, Sumida, JapanReiko KushimaTokyo Katsushika Red Cross Perinatal Center, Katsushika, JapanSakae KumasakaTokyo Medical and Dental University, Bunkyo, JapanManabu SugieTokyo Medical University, Shinjuku, JapanDaisuke HaruharaTokyo Jikei Medical University, Minatoku, JapanMasahiro KobayashiTokyo Women’s Medical University, Shinjuku, JapanSatsuki KakiuchiTokyo University, Bunkyo, JapanRiki NishimuraTokyo Metropolitan Children’s Medical Center, Fuchu, JapanKaoru OkazakiToho University, Ota, JapanHitoshi YodaJapan Red Cross Hospital, Shibuya, JapanAtsushi NakaoNihon University, Itabashi, JapanIchiro MoriokaYokohama City Hospital, Yokohama, JapanDaisuke OgataYokohama City University Medical Center, Yokohama, JapanFumihiko IshidaYokohama Rosai Hospital, Yokohama, JapanDaisuke NishiYokosuka Kyosai Hospital, Yokosuka, JapanMiho SatoYokohama Medical Center, Yokohama, JapanAyako FukuyamaSaiseikai Eastern Yokohama Hospital, Yokohama, JapanKuriko NakamuraOdawara City Hospital, Odawara, JapanKanji OgoShowa University Northern Yokohama Hospital, Yokohama, JapanMasahiko MuraseKanagawa Children’s Medical Center, Yokohama, JapanKatsuaki ToyoshimaSt. Marianna Medical University, Kawasaki, JapanIsamu HokutoSt. Mariana Medical University Yokohama City Seibu Hospital, Yokohama, JapanMaha SuzukiTokai University, Isehara, JapanAtsushi UchiyamaNippon Medical School Musashi Kosugi Hospital, Kawasaki, JapanYoshio ShimaKitasato University Hospital, Sagamihara, JapanHidehiko NakanishiYamanashi Prefecture Central Hospital, Kofu, JapanAtsushi NemotoSaku General Hospital, Saku, JapanTatsuya YodaShinshu University, Matsumoto, JapanYukihide MiyosawaNagano Children’s Hospital, Azumino, JapanTakehiko HiromaIida City Hospital, Iida, JapanYosuke ShimaNiigata Central Hospital, Niigata, JapanGen KuratsujiNiigata City Hospital, Niigata, JapanYoshihisa NagayamaNiigata University, Niigata, JapanTohei UsudaNagaoka Red Cross Hospital, Nagaoka, JapanRei KobayashiKoseiren Takaoka Hospital, Takaoka, JapanHiroaki ImamuraToyama Prefectural Central Hospital, Toyama, JapanTakeshi HutaniToyama University, Toyama, JapanTaketoshi YoshidaKanazawa Medical University, Kanazawa, JapanAzusa KobayashiKanazawa Medical Center, Kanazawa, JapanKazuhide OhtaKanazawa University, Kanazawa, JapanShuya NagaokiIshikawa Prefectural Central Hospital, Kanazawa, JapanYasuhisa UenoTsuruga City Hospital, Tsuruga, JapanToru AndoFukui Prefectural Hospital, Fukui, JapanRitsuyo TaguchiFukui University, Fukui, JapanTakashi OkunoGifu Prefectural Medical Center, Gifu, JapanHiroshi YamamotoGifu Prefecture Tajimi Hospital, Tajimi, JapanTakeshi ArakawaTakayama Red Cross Hospital, Takayama, JapanShinji UsuiNational Nagara Medical Center, Nagara, JapanYasushi UchidaOogaki City Hospital, Oogaki, JapanTakashi TachibanaNumazu City Hospital, Numazu, JapanTokuso MurabayashiYaizu City Hospital, Yaizu, JapanTadayuki KumagaiSeirei Hamamatsu Hospital, Hamamatsu, JapanShigeru OkiShizuoka Children’s Hospital, Shizuoka, JapanReiji NakanoShizuoka Saiseikai Hospital, Shizuoka, JapanTaizo UenoFujieda City Hospital, Fujieda, JapanMitsuhiro ItoIwata City Hospital, Shizuoka, JapanMasami ShiraiHamamatsu Medical University, Hamamatsu, JapanAkira OishiToyota Memorial Hospital, Toyota, JapanHikaru YamamotoAichi Medical University, Nagoya, JapanHiroshi TakeshitaAnjokosei Hospital, Anjo, JapanYuichi KatoOkazaki City Hospital, Okazaki, JapanMasashi HayashiKoritsu Tosei Hospital, Toyota, JapanKuniko IedaKonankosei Hospital, Konan, JapanKoji TakemotoKomaki City Hospital, Komaki, JapanTakako HirookaFujita Medical University, Nagoya, JapanMasashi MiyataJapanese Red Cross Aichi Medical Center Nagoya Daiichi Hospital, Nagoya, JapanMakoto OhshiroJapanese Red Cross Aichi Medical Center Nagoya Daini Hospital, Nagoya, JapanMasanori KowakiHanda City Hospital, Handa, JapanOsamu ShinoharaToyohashi City Hospital, Toyohashi, JapanYasunori KoyamaNogoya City University, Nagoya, JapanOsuke IwataNagoya City Seibu Medical Cneter, Nagoya, JapanTakahiro MuramatsuNagoya University, Nagoya, JapanTakashi MaedaIse Red Cross Hospital, Ise, JapanNaoki KamataNational Mie Central Medical Center, Tsu, JapanHiroshi UchizonoYokkaichi City Hospital, Yokkaichi, JapanKanemasa MakiShiga Medical University, Otsu, JapanTakahide YanagiOtsu Red Cross Hospital, Otsu, JapanKenji NakamuraNagahama Red Cross Hospital, Nagahama, JapanMasahito YamamotoUji Tokushukai Hospital, Uji, JapanJitsuko OhiraKyoto Katsura Hospital, Kyoto, JapanMachiko SawadaKyoto City Hospital, Kyoto, JapanKozue ShiomiKyoto University, Kyoto, JapanRyosuke ArakiKyoto Red Cross Daiichi Hospital, Kyoto, JapanDaisuke KinoshitaKyoto Prefecture Medical University, Kyoto, JapanRyuji HasegawaKyoto Prefectural Medical University Northern Hospital, Yosagun, JapanAkira NishimuraNational Maizuru Medical Center, Maizuru, JapanHiroshi KomatsuMitubishi Kyoto Hospital, Kyoto, JapanKoji NozakiFukuchiyama City Hospital, Fukuchiyama, JapanShinsuke AdachiJapan Baptist Hospital, Kyoto, JapanToru YamakawaBell Land General Hospital, Sakai, JapanMasahiko KaiRinku General Hospital, Izumisano, JapanHiroshi SumidaTakatsuski General Hospital, Takatsuki, JapanHirotaka MinamiKansai Medical University, Hirakata, JapanKenji MineNational Cerebral and Cardiovascular Center, Suita, JapanReiko NegiSaiseikai Suita Hospital, Suita, JapanSatoru OgawaHannan Central Hospital, Hannan, JapanRyoko YoshinareToyonaka City Hospital, Toyonaka, JapanYasuyuki TokunagaAizenbashi Hospital, Osaka, JapanKiyoaki SumiChifune Hospital, Osaka, JapanAkihiro TakateraOsaka Medical University, Takatsuki, JapanAtsushi OgiharaOsaka Metropolitan University, Osaka, JapanSatoshi OnishiOsaka City Sumiyoshi Hospital, Osaka, JapanTasho KimOsaka City General Hospital, Osaka, JapanHiroyuki IchibaOsaka Red Cross Hospital, Osaka, JapanMisao YoshiiOsaka University, Suita, JapanHitomi OkabeOsaka General Medical Center, Osaka, JapanYoshio KusumotoOsaka Women’s and Children’s Hospital, Izumi, JapanShinya HiranoKitano Hospital, Osaka, JapanHiroshi MizumotoYao City Hospital, Yao, JapanYae MichinomaeYodogawa Christian Hospital, Osaka, JapanMakoto NabetaniKakogawa City Hospital, Kakogawa, JapanTakeshi MorisawaToyooka General Hospital, Toyooka, JapanDai KataokaSaiseikai Hyogo Hospital, Kobe, JapanTakahiro OkutaniKobe City Medical Center Central Hospital, Kobe, JapanMasaru YamakawaKobe University, Kobe, JapanKazumichi FujiokaHimeji Red Cross Hospital, Himeji, JapanTomoaki IoroiHyogo Medical University Hospital, Nishinomiya, JapanTakeshi UtsunomiyaKobe Children’s Hospital, Kobe, JapanSeiji YoshimotoHyogo Prefectural Awaji Medical Center, Sumoto, JapanTamaki OhashiNara Prefecture Medical University, Kashiwara, JapanToshiya NishikuboWakayama Prefecture Medical University, Wakayama, JapanKen KumagayaTottori Prefectural Central Hospital, Tottori, JapanAkiko TamuraTottori University, Yonago, JapanMasumi MiuraMatsue Red Cross Hospital, Matsue, JapanYuki HasegawaShimane Prefectural Central Hospital, Izumo, JapanRie KanaiOkayama Red Cross Hospital, Okayama, JapanKei TakemotoNational Okayama Medical Center, Okayama, JapanMisao KageyamaKawasaki Medical University, Kurashiki, JapanTakashi NakanoKurashiki Central Hospital, Kurashiki, JapanHironobu TokumasuTsuyama Central Hospital, Tsuyama, JapanMoriharu SugimotoHiroshima Prefectural Hospital, Hiroshima, JapanRie FukuharaHiroshima City Central Hospital, Hiroshima, JapanYutaka NishimuraHiroshima University, Hiroshima, JapanSeiichi HayakawaNational Kure Medical Center, Kure, JapanYasuhiko SeraTsuchiya General Hospital, Hiroshima, JapanMasahiro TaharaSaiseikai Shimonoseki General Hospital, Shimonoseki, JapanShinosuke FukunagaYamaguchi Prefecture Medical Center, Hofu, JapanKeiko HasegawaYamaguchi University, Ube, JapanKazumasa TakahashiTokuyama Central Hospital, Tokuyama, JapanHiroshi TateishiTokushima Prefecture Central Hospital, Tokushima, JapanTomomasa TeradaTokushima City Hospital, Tokushima, JapanTakashi YamagamiTokushima University, Tokushima, JapanTakahiko SaijoKagawa University, Kida, JapanKosuke KoyanoShikoku Medical Center for Children and Adults, Zentsuji, JapanToru KuboiEhime Prefectural Imabari Hospital, Imabari, JapanOsamu MatsudaEhime Prefectural Central Hospital, Matsuyama, JapanShinosuke AkiyoshiUwajima City Hospital, Uwajima, JapanTakahiro MotokiMatsuyama Red Cross Hospital, Matsuyama, JapanYoichi KondoKochi Health Science Center, Kochi, JapanYusei NakataKurume University, Kurume, JapanMasahiro KinoshitaKyushu University, Fukuoka, JapanMasayuki OchiaiNational Kokura Medical Center, Kitakyushu, JapanToshinori NakashimaNational Kyushu Medical Center, Fukuoka, JapanToshiharu HikinoUniversity of Occupational and Environmental Health Japan, Kitakyushu, JapanShutaro SugaSaint Maria Hospital, Kurume, JapanMitsuaki UnnoIizuka Hospital, Iizuka, JapanHiroshi KandaFukuoka City Children’s Hospital, Fukuoka, JapanYasushi TakahataFukuoka University, Fukuoka, JapanHiroyasu KawanoKitakyushu City Hospital, Kitakyushu, JapanTakayuki KokuboNational Saga Hospital, Saga, JapanToshimitsu TakayanagiNational Nagasaki Medical Center, Nagasaki, JapanMikio AokiSasebo City Hospital, Sasebo, JapanMuneichiro SumiNagasaki City Hospital, Nagasaki, JapanFumiko KinoshitaNagasaki University, Nagasaki, JapanTsutomu OgataKumamoto City Hospital, Kumamoto, JapanKei InomataKumamoto University, Kumamoto, JapanMasanori IwaiAlmeida Memorial Hospital, Oita, JapanNaoki FukushimaOita Prefectural Hospital, Oita, JapanKoichi IidaNakatsu City Hospital, Nakatsu, JapanMitsushi GoushiMiyazaki University, Miyazaki, JapanYuki KodamaNational Miyakonojo Hospital, Miyakonojo, JapanShuichi YanagibeImakyure General Hospital, Kagoshima, JapanYuko MaruyamaKagoshima City Hospital, Kagoshima, JapanTakuya TokuhisaOkinawa Prefectural Central Hospital, Uruma, JapanYoriko KisatoOkinawa Prefectural Nanbu Medical Center, Nanbu Child Medical Center, Shimajiri, JapanTatsuo OshiroOkinawa Red Cross Hospital, Naha, JapanKazuhiko NakasoneNaha City Hospital, Naha, JapanAsao YaraAuthorsSatoshi KusudaView author publicationsYou can also search for this author inPubMed Google ScholarMihoko V. BennettView author publicationsYou can also search for this author inPubMed Google ScholarJeffrey B. GouldView author publicationsYou can also search for this author inPubMed Google ScholarConsortiaNeonatal Research Network of JapanTakashi Nasu, Yukiteru Tachibana, Ayumu Noro, Toshihiko Mori, Ken Nagaya, Masaru Shirai, Toru Ishioka, Toshiya Saito, Yosuke Kaneshi, Masaki Kobayashi, Nobuko Shiono, Nobuhiro Takahashi, Yusuke Ohkado, Itaru Hayasaka, Eiki Nakamura, Tomofumi Ikeda, Genichiro Sotodate, Mari Ishii, Toru Huchimukai, Takahide Hosokawa, Rikio Suzuki, Masatoshi Sanjo, Michiya Kudo, Takushi Hanita, Hirokazu Arai, Masato Ito, Satoshi Niwa, Masanari Kawamura, Satoshi Watanabe, Yousuke Sudo, Hiroshi Yoshida, Tsutomu Ishii, Takashi Imamura, Maki Sato, Yoshiya Yukitake, Yayoi Miyazono, Goro Asada, Yumi Kono, Yasuaki Kobayashi, Hiroshi Suzumura, Yasushi Oki, Kenji Ichinomiya, Toru Fujiu, Hideaki Fukushima, Hideshi Fujinaga, Tetsuya Kunikata, Fumihiko Namba, Masaki Shimizu, Shigeharu Hosono, Chika Morioka, Motoichiro Sakurai, Hiroshi Matsumoto, Naoto Nishizaki, Satoshi Toishi, Harumi Otsuka, Masahiko Sato, Kenichiro Hirakawa, Kenichiro Hosoi, Keiji Goishi, Yuji Ito, Kyone Ko, Hiromichi Shoji, Atsuo Miyazawa, Yuko Nagaoki, Naoki Ito, Shoko Ohashi, Reiko Kushima, Sakae Kumasaka, Manabu Sugie, Daisuke Haruhara, Masahiro Kobayashi, Satsuki Kakiuchi, Riki Nishimura, Kaoru Okazaki, Hitoshi Yoda, Atsushi Nakao, Ichiro Morioka, Daisuke Ogata, Fumihiko Ishida, Daisuke Nishi, Miho Sato, Ayako Fukuyama, Kuriko Nakamura, Kanji Ogo, Masahiko Murase, Katsuaki Toyoshima, Isamu Hokuto, Maha Suzuki, Atsushi Uchiyama, Yoshio Shima, Hidehiko Nakanishi, Atsushi Nemoto, Tatsuya Yoda, Yukihide Miyosawa, Takehiko Hiroma, Yosuke Shima, Gen Kuratsuji, Yoshihisa Nagayama, Tohei Usuda, Rei Kobayashi, Hiroaki Imamura, Takeshi Hutani, Taketoshi Yoshida, Azusa Kobayashi, Kazuhide Ohta, Shuya Nagaoki, Yasuhisa Ueno, Toru Ando, Ritsuyo Taguchi, Takashi Okuno, Hiroshi Yamamoto, Takeshi Arakawa, Shinji Usui, Yasushi Uchida, Takashi Tachibana, Tokuso Murabayashi, Tadayuki Kumagai, Shigeru Oki, Reiji Nakano, Taizo Ueno, Mitsuhiro Ito, Masami Shirai, Akira Oishi, Hikaru Yamamoto, Hiroshi Takeshita, Yuichi Kato, Masashi Hayashi, Kuniko Ieda, Koji Takemoto, Takako Hirooka, Masashi Miyata, Makoto Ohshiro, Masanori Kowaki, Osamu Shinohara, Yasunori Koyama, Osuke Iwata, Takahiro Muramatsu, Takashi Maeda, Naoki Kamata, Hiroshi Uchizono, Kanemasa Maki, Takahide Yanagi, Kenji Nakamura, Masahito Yamamoto, Jitsuko Ohira, Machiko Sawada, Kozue Shiomi, Ryosuke Araki, Daisuke Kinoshita, Ryuji Hasegawa, Akira Nishimura, Hiroshi Komatsu, Koji Nozaki, Shinsuke Adachi, Toru Yamakawa, Masahiko Kai, Hiroshi Sumida, Hirotaka Minami, Kenji Mine, Reiko Negi, Satoru Ogawa, Ryoko Yoshinare, Yasuyuki Tokunaga, Kiyoaki Sumi, Akihiro Takatera, Atsushi Ogihara, Satoshi Onishi, Tasho Kim, Hiroyuki Ichiba, Misao Yoshii, Hitomi Okabe, Yoshio Kusumoto, Shinya Hirano, Hiroshi Mizumoto, Yae Michinomae, Makoto Nabetani, Takeshi Morisawa, Dai Kataoka, Takahiro Okutani, Masaru Yamakawa, Kazumichi Fujioka, Tomoaki Ioroi, Takeshi Utsunomiya, Seiji Yoshimoto, Tamaki Ohashi, Toshiya Nishikubo, Ken Kumagaya, Akiko Tamura, Masumi Miura, Yuki Hasegawa, Rie Kanai, Kei Takemoto, Misao Kageyama, Takashi Nakano, Hironobu Tokumasu, Moriharu Sugimoto, Rie Fukuhara, Yutaka Nishimura, Seiichi Hayakawa, Yasuhiko Sera, Masahiro Tahara, Shinosuke Fukunaga, Keiko Hasegawa, Kazumasa Takahashi, Hiroshi Tateishi, Tomomasa Terada, Takashi Yamagami, Takahiko Saijo, Kosuke Koyano, Toru Kuboi, Osamu Matsuda, Shinosuke Akiyoshi, Takahiro Motoki, Yoichi Kondo, Yusei Nakata, Masahiro Kinoshita, Masayuki Ochiai, Toshinori Nakashima, Toshiharu Hikino, Shutaro Suga, Mitsuaki Unno, Hiroshi Kanda, Yasushi Takahata, Hiroyasu Kawano, Takayuki Kokubo, Toshimitsu Takayanagi, Mikio Aoki, Muneichiro Sumi, Fumiko Kinoshita, Tsutomu Ogata, Kei Inomata, Masanori Iwai, Naoki Fukushima, Koichi Iida, Mitsushi Goushi, Yuki Kodama, Shuichi Yanagibe, Yuko Maruyama, Takuya Tokuhisa, Yoriko Kisato, Tatsuo Oshiro, Kazuhiko Nakasone & Asao YaraContributionsS.K. and J.B.G. wrote the main manuscript text, and M.V.B. conducted the initial statistical analyses. All authors reviewed the manuscript.Corresponding authorCorrespondence to
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Reprints and permissionsAbout this articleCite this articleKusuda, S., Bennett, M.V., Gould, J.B. et al. Comparative analysis of necrotizing enterocolitis in preterm infants born in Japan and born to mothers of Japanese ethnicity in California.
Sci Rep 15, 9943 (2025). https://doi.org/10.1038/s41598-025-92393-yDownload citationReceived: 28 June 2024Accepted: 27 February 2025Published: 22 March 2025DOI: https://doi.org/10.1038/s41598-025-92393-yShare this articleAnyone you share the following link with will be able to read this content:Get shareable linkSorry, a shareable link is not currently available for this article.Copy to clipboard
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KeywordsEpidemiologyEthnicityGenetic backgroundExtremely preterm infantsMortalityIncidencePractices