Mortality and Morbidities according to Time of Birth in Extremely Low Birth Weight Infants

Yang, Misun; Ahn, So Yoon; Jo, Heui Seung; Sung, Se In; Chang, Yun Sil; Park, Won Soon; Korean Neonatal Network

doi:10.3346/jkms.2021.36.e86

J Korean Med Sci. 2021 Apr 05;36(13):e86. English.
Published online Mar 15, 2021.
https://doi.org/10.3346/jkms.2021.36.e86

Original Article

Mortality and Morbidities according to Time of Birth in Extremely Low Birth Weight Infants

Misun Yang

,¹^,^* So Yoon Ahn

,¹^,²^,^* Heui Seung Jo

,¹ Se In Sung

,¹ Yun Sil Chang

,¹^,²^,³ Won Soon Park

,¹^,²^,³ and Korean Neonatal Network

Author information

Author notes

Copyright and License

- ¹Department of Pediatrics, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea.
- ²Stem Cell and Regenerative Medicine Institute, Samsung Medical Center, Seoul, Korea.
- ³Department of Health Sciences and Technology, SAIHST, Sungkyunkwan University, Seoul, Korea.
Address for Correspondence: Yun Sil Chang, MD, PhD. Department of Pediatrics, Samsung Medical Center; Sungkyunkwan University School of Medicine, 81 Irwon-ro, Gangnam-gu, Seoul 06351, Korea. Email: yschang@skku.edu

^*Misun Yang and So Yoon Ahn contributed equally to this study as co-first authors.

Received October 10, 2020; Accepted January 14, 2021.

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (https://creativecommons.org/licenses/by-nc/4.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

Background

Although the overall quality of high-risk neonatal care has improved recently, there is still concern about a difference in the quality of care when comparing off-hour births and regular-hour births. Moreover, there are no data in Korea regarding the impact of time of birth on mortality and morbidities in preterm infants.

Methods

A total of 3,220 infants weighing < 1,000 g and born at 23–34 weeks in 2013–2017 were analyzed based on the Korean Neonatal Network data. Mortality and major morbidities were analyzed using logistic regression according to time of birth during off-hours (nighttime, weekend, and holiday) and regular hours. The institutes were sub-grouped into hospital group I and hospital group II based on the neonatal intensive care unit (NICU) care level defined by the mortality rates of < 50% and ≥ 50%, respectively, in infants born at 23–24 weeks' gestation.

Results

The number of births during regular hours and off-hours was similar. In the total population and hospital group I, off-hour births were not associated with increased neonatal mortality and morbidities. However, in hospital group II, increased early mortality was found in the off-hour births when compared to regular-hour births.

Conclusion

Efforts to improve the overall quality of NICU are required to lower the early mortality rate in off-hour births. Also, other sensitive indexes for the evaluation of quality of NICU care should be further studied.

Graphical Abstract

Keywords

Neonatal Mortality; Preterm Infants; Neonatal Intensive Care; Quality of Health Care; After-hours Care

INTRODUCTION

The association between neonatal mortality and time of birth has been well studied.1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 The incidence of night, weekend, or holiday births ranged from 27.7%–65% in other countries.2, 3, 4, 5, 8, 13 Some studies have shown an increased risk of early neonatal mortality for nighttime and weekend births,2, 5, 8, 9 but the results are not consistent.3, 7 The reasons for this variation could be attributed to a difference in the physician’s availability and expertise in the neonatal intensive care unit (NICU), and the circadian rhythm affecting human alertness and work performance.2, 9 This result has raised concern about differences in the quality of care based on the time of birth; however, there have been no studies reporting such data in Korea. Thus, the purpose of this study was to investigate the time of birth and its association with early neonatal mortality and morbidities in Korea. The data were collected from the National Registry data, Korean Neonatal Network (KNN).14

In this study, we compared the risk-adjusted early neonatal mortality rates and major morbidities between extremely low birth weight infants (ELBWIs) at less than 35 weeks of gestation admitted during off-hours (nighttime, weekend, and public holidays) and those admitted during regular hours to NICUs in Korea from 2013 to 2017. Furthermore, after we sub-grouped institutes based on the NICU care level, which was defined by the mortality rate of infants born at 23–24 weeks (< or ≥ 50%),15, 16 we compared the outcomes according to the time of birth between the two groups.

METHODS

Study population

We included ELBWIs born between 23 weeks 0 days and 34 weeks 6 days of gestation, who were enrolled in the database registry of the KNN from January 2013 to December 2017. The database registry of the KNN prospectively registered the clinical information of very low birth weight infants (VLBWIs) admitted to the 70 voluntarily participating NICUs, covering > 70% of VLBWIs in Korea.14 VLBWIs who were actively resuscitated in the delivery room and admitted to the NICU were registered in the KNN. The KNN registry was approved by the Institutional Review Board of each participating hospital.

We collected data of 3,817 ELBWIs born at 23–34 weeks of gestation during the study period. To reduce skewing of the study outcomes, infants with out-born birth (birth from another institution or home delivery) (n = 138), transferred to another hospital (n = 268), having life-threatening congenital anomalies (n = 103), and missing data regarding the time of birth (n = 14) were excluded. As we sub-grouped institutes by the NICU care level, defined by the mortality rate of infants born at 23–24 weeks, we excluded 74 infants from institutes without preterm deliveries between 23 and 24 weeks of gestation. Thus, the remaining 3,220 infants were included.

Data collection

We operationally defined the regular hours and off-hours. Regular-hour birth was defined as birth from 7:00 am to 6:59 pm Monday to Friday, excluding national holidays in the Republic of Korea. Off-hour birth was defined as birth at any time other than the defined regular hours, i.e., from 7:00 pm Monday to Friday to 6:59 am the following day, and from 7:00 am on a weekend or national holiday to 6:59 am the next day.

We also sub-grouped hospitals according to their NICU care level, defined by the mortality of infants born at 23–24 weeks of gestation. The median mortality rate of peri-viable infants born at 23–24 weeks of gestation was approximately 50% in the KNN data, and based on this, there were previous studies comparing of clinical outcome after subgrouping by mortality rate, 50%.15, 16 Hospital group I included institutes with < 50% mortality rate, while hospital group II included institutes with a ≥ 50% mortality rate in infants born at 23–24 weeks of gestation.

We compared maternal and neonatal variables, including gestational age (GA), birth weight, sex, Apgar scores at 1 and 5 minutes, small for gestational age (SGA), early onset sepsis (EOS), mode of delivery, maternal diabetes, pregnancy-induced hypertension (PIH), chorioamnionitis, premature rupture of membranes (PROM), and antenatal steroid between the regular and off-hour births in hospital groups I and II.

The outcome variable was death of an infant before discharge (within approximately 24 hours, 72 hours, 1 week, and 28 days after birth, and total mortality rates). We also compared various major morbidities, including air leak syndrome (ALS), necrotizing enterocolitis (NEC), retinopathy of prematurity (ROP), intraventricular hemorrhage (IVH), and bronchopulmonary disease (BPD) between regular and off-hour births in hospital groups I and II.

Definitions

The following definitions of the aforementioned terminologies were used in this study. SGA was defined as birth weight < 10th percentile for GA with reference to the pediatric growth chart released in 2017 by the Korean Centers for Disease Control and Prevention. EOS was defined as a positive blood culture obtained before postnatal day 7. Chorioamnionitis was confirmed by placental pathology, and PROM was defined as rupture of membranes over 24 hours before the onset of labor. Antenatal steroid was defined as administration of a complete course of steroid to the mother, such as two doses of betamethasone or four doses of dexamethasone every 24 hours within a week of delivery. ALS was defined as radiologic findings of extrapulmonary air requiring chest tube insertion and drainage. NEC was defined as stage ≥ 2 according to the modified Bell criteria.17 ROP was defined as severe ROP leading to the need for surgery. IVH was defined as grade 3 or 4 according to the classification of Papile et al.18 BPD was defined as the use of supplemental oxygen or respiratory support at postnatal day 28 or more.

Statistical analysis

The statistical software Statistical Package for the Social Sciences version 25 (SPSS, IBM Corp., Armonk, NY, USA) was used for data analysis. We used the chi-square test to compare the differences in clinical characteristics for categorical variables, while the independent t-test was used to analyze continuous variables. Factors with P value < 0.05 at univariate analysis were included in the logistic regression models to determine the association between time of birth and the risk of neonatal mortality and morbidities. The adjusted odds ratio and 95% confidence interval for each possible risk factor were calculated. A P value < 0.05 was considered statistically significant.

Ethics statement

The KNN registry was approved by the Institutional Review Board (IRB) of each participating hospital. Informed consent was obtained from the parents during enrollment by the NICUs participating in the KNN. All methods were conducted in accordance with the IRB-approved guidelines and protocol.

RESULTS

Overview daily and weekly patterns of births in ELBWIs

Fig. 1 shows the number of births by the day of the week. The number of births during regular and off-hours was 1,612 and 1,608, respectively. The number of births was highest on Monday and lowest on Sunday. We assessed the number of births by the day of the week according to the NICU care level grouped as hospital group I and hospital group II based on < 50% and ≥ 50% mortality rate, respectively, in infants born at 23–24 weeks. There was no difference observed between the two groups (Supplementary Fig. 1).

Fig. 1
Number of births by the day of the week during regular hours and off-hours.

Fig. 2 shows the number of births by hour. During regular hours, the number of births was the highest between 11:00–11:59 am and lowest between 7:00–7:59 am. In off-hour births, the number of births was highest between 7:00–7:59 pm and lowest between 6:00–6:59 pm. The hourly distribution of births was similar between hospital group I and hospital group II (Supplementary Fig. 2).

Fig. 2
Hourly distribution of births between regular hours and off-hours.

Demographic characteristics

Demographic findings of infants according to time of birth and hospital sub-group are presented in Table 1. Infants born during off-hours showed lower GA, lower Apgar scores, lower incidence of SGA, cesarean section, antenatal steroid use, and PIH, and higher incidence of chorioamnionitis and EOS. These aforementioned trends in baseline characteristics were similar in both hospital groups I and II. However, in hospital group I, more male infants were born during off-hours. In hospital group II, the incidence of EOS was not significantly different between the regular hours and off-hours.

Table 1
Demographic and perinatal characteristics

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Mortality and major morbidities

Table 2 shows the mortality and major morbidities of ELBWIs. The early mortality rates (within approximately 24 and 72 hours and 1 week) and incidence of ROP in off-hour births were significantly higher when compared to the regular-hour births. After sub-grouping the hospitals by their NICU care level based on the mortality rate in infants born at 23–24 weeks of gestation, no significant differences were noted in mortality rates according to time of birth in hospital group I. However, in hospital group II, the mortality rate of off-hour births was significantly higher than that of regular-hour births. In hospital group I, the incidence of ROP during off-hour births was significantly higher than that during regular-hour births. In hospital group II, the incidence of severe IVH in off-hour births was significantly higher than that in regular-hour births.

Table 2
Mortality and major morbidities

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Association among mortality, major morbidities, and time of birth

Table 3 shows the results of the multivariate logistic regression analysis associated with mortality, major morbidities, and time of birth. In the total population and hospital group I, off-hour births were not associated with increased neonatal deaths and morbidities. However, in hospital group II, increased early mortality was found in the off-hour births when compared to regular-hour births.

Table 3
Multivariate logistic regression analysis for mortality and morbidities

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Thus, for ELBWIs born in institutes with ≥ 50% mortality rate at 23–24 weeks of gestation, off-hours birth was associated with an increased risk of early mortality.

DISCUSSION

We investigated the number of ELBWIs born at 23 weeks 0 days to 34 weeks 6 days of gestation during regular hours and off-hours in Korea based on KNN data and found that the numbers were similar (50.06% vs. 49.94%). After adjusting for multivariate analysis, we found that lower quality NICUs, i.e., institutes with ≥ 50% mortality rate in infants born at 23–24 weeks' gestation, showed increased early mortality rates in off-hour births than in regular-hour births.

To our knowledge, this is the first study that analyzed mortality by birth time using a national registry in Korea. This study has demonstrated that birth time influences the outcome of ELBWIs admitted to NICUs in Korea. We did not investigate whether the delivery was elective or emergency; however, a previous study found that infants born during regular hours were more likely to have had an elective delivery.3 This was further associated with infants showing an antenatal diagnosis of growth restriction and maternal PIH. In addition, infants born during off-hours were more likely to have had a less planned birth, as indicated by the lower rates of complete use of antenatal steroids and lower Apgar scores. This is consistent with other literature findings.19

The results of our study are contradictory to those of some international studies. Abdel-Latif et al.3 categorized admission time as regular hours (8:00 am to 6:00 pm, Monday to Friday, excluding public holidays). They found that admission to the NICU during off-hours did not have a significant impact on early neonatal mortality. This could be attributed to the even distribution of on-floor NICU resident medical staff working around a structured shift roster, causing less fatigue in the staff. Gould et al.7 reported that there was no significant difference in the mortality rate among infants born on weekends and those born on weekdays in California, thus concluding that the quality of perinatal care was not compromised during the weekend. However, they did not investigate and control demographic factors that could have affected the results.

On the contrary, Luo and Karlberg5 reported higher mortality in infants who were born during the night (9:00 pm to 9:00 am). Lee et al.2 found that the risk-adjusted early neonatal mortality (death within 7 days of NICU admission) odds were 60% higher among inborn infants ≤ 32 weeks of gestation and admitted to NICUs at night (6:00 pm to 8:00 am). Results similar to our study were found in the aforementioned studies even though the definition of “off-hours” varied.6, 8, 9 The researchers speculated that the following factors could contribute to the increased mortality in nighttime or weekend births: decreased number of neonatologists and house staff (fellows, pediatric residents, clinical assistants, or neonatal nurse practitioners) at night, difference in physician availability and expertise, and variation in circadian rhythm affecting human alertness and work performance.2, 7 However, we did not have data to compare the availability and experience of the medical staff between the off-hours and regular hours.

We considered the level of neonatal care provided by the birth hospital, which is indicative of the mortality risk in infants born at night, to be influenced by hospital characteristics.4 In previous studies, wide institutional variations were evident regarding the mortality of infants born at 23–24 weeks' gestation.15, 16 After categorizing infants into two groups based on institutional mortality rates of < 50% (hospital group I) and ≥ 50% (hospital group II) in this study, we compared the mortality according to the birth time stratified by the group.

There was little difference in the extent of disadvantage seen between off-hour births and regular-hour births in hospital group I, but early mortality was higher in off-hour births than in regular-hour births in hospital group II. This suggests that birth time was an important factor at the institute with higher mortality rates of periviable extremely preterm infants.

The incidence of ROP and BPD in hospital group I was significantly higher than hospital group II. Since the mortality rate in hospital group I was lower than hospital group II (19.8% vs. 38.1%), it is considered that complications related to long-term treatment and survival, such as BPD and ROP, were more developed in hospital group I.

The inevitable limitation of this study stems from the none of collected data on the differences between these two hospital groups. Therefore, additional information regarding the patient and staff volume, institutional level, staff workload, work shift, and level of hospital care for each group is needed. It is necessary to examine the impact of the level of care and access to diagnostic and therapeutic services, including obstetrics, anesthesiology, and radiology in each group.

Admission is the most vulnerable period for seriously ill infants, and early mortality is associated with this period. There is a difference in early mortality rate between off-hour and regular-hour births depending on the quality of care; therefore, efforts to improve the overall quality of NICU are required and other sensitive indexes for the evaluation of quality of NICU care should be further studied. Also, it should be a priority for perinatal care to identify causal factors of mortality in off-hour births and reduce mortality rates. The early mortality rate in off-hour births can be lowered by expansion and proper allocation of healthcare workers and infrastructure, and close cooperation between obstetricians and neonatologists.

SUPPLEMENTARY MATERIALS

Supplementary Fig. 1

Number of births by the day of the week in hospital group I and hospital group II.

Click here to view.^{(53K, doc)}

Supplementary Fig. 2

Hourly distribution of births between hospital group I and hospital group II.

Click here to view.^{(50K, doc)}

Notes

Funding:This work was supported the Research Program funded by the Korea National Institute of Health (2019 ER7103 02#).

Disclosure:The authors have no potential conflicts of interest to disclose.

Author Contributions:

Conceptualization: Park WS, Chang YS.
Data curation: Sung SI.
Formal analysis: Ahn SY, Cho HS.
Investigation: Ahn SY.
Methodology: Yang MS, Ahn SY, Sung SI.
Validation: Yang MS, Cho HS.
Writing - original draft: Yang MS.
Writing - review & editing: Park WS, Chang YS.

ACKNOWLEDGMENTS

We would like to thank Editage (www.editage.co.kr) for English language editing.

References

1. de Graaf JP, Ravelli AC, Visser GH, Hukkelhoven C, Tong WH, Bonsel GJ, et al. Increased adverse perinatal outcome of hospital delivery at night. BJOG 2010;117(9):1098–1107.
  PubMed
  
  CrossRef
1. Lee SK, Lee DS, Andrews WL, Baboolal R, Pendray M, Stewart S, et al. Higher mortality rates among inborn infants admitted to neonatal intensive care units at night. J Pediatr 2003;143(5):592–597.
  PubMed
  
  CrossRef
1. Abdel-Latif ME, Bajuk B, Oei J, Lui K. New South Wales and the Australian Capital Territory Neonatal Intensive Care Audit Group. Mortality and morbidities among very premature infants admitted after hours in an Australian neonatal intensive care unit network. Pediatrics 2006;117(5):1632–1639.
  PubMed
  
  CrossRef
1. Gould JB, Qin C, Chavez G. Time of birth and the risk of neonatal death. Obstet Gynecol 2005;106(2):352–358.
  PubMed
  
  CrossRef
1. Luo ZC, Karlberg J. Timing of birth and infant and early neonatal mortality in Sweden 1973–95: longitudinal birth register study. BMJ 2001;323(7325):1327–1330.
  PubMed
  
  CrossRef
1. Jensen EA, Lorch SA. Association between off-peak hour birth and neonatal morbidity and mortality among very low birth weight infants. J Pediatr 2017;186:41–48.e4.
  PubMed
  
  CrossRef
1. Gould JB, Qin C, Marks AR, Chavez G. Neonatal mortality in weekend vs weekday births. JAMA 2003;289(22):2958–2962.
  PubMed
  
  CrossRef
1. Pasupathy D, Wood AM, Pell JP, Fleming M, Smith GC. Time of birth and risk of neonatal death at term: retrospective cohort study. BMJ 2010;341:c3498.
  PubMed
  
  CrossRef
1. Stephansson O, Dickman PW, Johansson AL, Kieler H, Cnattingius S. Time of birth and risk of intrapartum and early neonatal death. Epidemiology 2003;14(2):218–222.
  PubMed
1. Palmer WL, Bottle A, Aylin P. Association between day of delivery and obstetric outcomes: observational study. BMJ 2015;351:h5774.
  PubMed
  
  CrossRef
1. Mangold WD. Neonatal mortality by the day of the week in the 1974–75 Arkansas live birth cohort. Am J Public Health 1981;71(6):601–605.
  PubMed
  
  CrossRef
1. Mathers CD. Births and perinatal deaths in Australia: variations by day of week. J Epidemiol Community Health 1983;37(1):57–62.
  PubMed
  
  CrossRef
1. Kalogiannidis I, Margioula-Siarkou C, Petousis S, Goutzioulis M, Prapas N, Agorastos T. Infant births during the internal night are at increased risk for operative delivery and NICU admission. Arch Gynecol Obstet 2011;284(1):65–71.
  PubMed
  
  CrossRef
1. Lee SM, Chang YS, Park WS. Korean Neonatal Network. International perspectives: implementation of the Korean Neonatal Network. Neoreviews 2019;20(4):e177–88.
  PubMed
  
  CrossRef
1. Park JH, Chang YS, Sung S, Park WS. Korean Neonatal Network. Mortality rate-dependent variations in the timing and causes of death in extremely preterm infants born at 23–24 weeks' gestation. Pediatr Crit Care Med 2019;20(7):630–637.
  PubMed
  
  CrossRef
1. Kim JK, Chang YS, Sung S, Park WS. Mortality rate-dependent variations in the survival without major morbidities rate of extremely preterm infants. Sci Rep 2019;9(1):7371.
  PubMed
  
  CrossRef
1. Bell MJ, Ternberg JL, Feigin RD, Keating JP, Marshall R, Barton L, et al. Neonatal necrotizing enterocolitis. Therapeutic decisions based upon clinical staging. Ann Surg 1978;187(1):1–7.
  PubMed
  
  CrossRef
1. Papile LA, Burstein J, Burstein R, Koffler H. Incidence and evolution of subependymal and intraventricular hemorrhage: a study of infants with birth weights less than 1,500 gm. J Pediatr 1978;92(4):529–534.
  PubMed
  
  CrossRef
1. Al Nuaim L, Soltan MH, Khashoggi T, Addar M, Chowdhury N, Adelusi B. Outcome in elective and emergency cesarean sections: a comparative study. Ann Saudi Med 1996;16(6):645–649.
  PubMed
  
  CrossRef