key: cord-1002179-3i5pvcgu
authors: Antoun, Lina; Taweel, Nashwa El; Ahmed, Irshad; Patni, Shalini; Honest, Honest
title: Maternal COVID-19 infection, clinical characteristics, pregnancy, and neonatal outcome A prospective cohort study
date: 2020-07-15
journal: Eur J Obstet Gynecol Reprod Biol
DOI: 10.1016/j.ejogrb.2020.07.008
sha: 200b0c84847c1f338e66189a328248bcc5de3477
doc_id: 1002179
cord_uid: 3i5pvcgu

OBJECTIVE: To study the effect of COVID-19 on pregnancy and neonatal outcomes. STUDY DESIGN: Prospective cohort study in a large tertiary maternity unit within a university hospital with an average annual birth of over 10,000 births. We prospectively collected and analysed data for a cohort of 23 pregnant patients including singleton and multiple pregnancies tested positive for COVID-19 between February 2020 and April 2020 inclusive to assess the effect of COVID-19 on pregnancy, and neonatal outcomes. RESULTS: Twenty-three pregnant patients tested positive for COVID-19, delivering 20 babies including a set of twins, with four ongoing pregnancies at the time of manuscript submission. 16/23 (70%) whom tested positive were patients from Asian (Indian sub-continent) background. The severity of the symptoms ranged from mild in 13/23 (65.2%) of the patients, moderate in 2/23 (8.7%), and severe in 8/23 (34.8%). Four out of total 23 COVID-19 pregnant patients (17.4%) developed severe adult respiratory distress syndrome complications requiring ICU support, one of whom led to maternal death 1/23 (4.3%). 11/23 (48%) of the patients had pre-existing co-morbidities, with morbid obesity 5/23 (21.7%) and diabetes 4/23 (17.4%) being the more commonly represented. Of the 23 pregnant patients 19 were in their third trimester of pregnancy and delivered; 7/19 (36.8%) had preterm birth, 3/19 (15.8%) developed adult respiratory distress syndrome before delivery, and 2/19 (10.5%) had pre-eclampsia. 16/19 (84%) of patients delivered by C-section. Out of the 20 new-borns, 18 were singletons with a set of twin. CONCLUSION: COVID-19 is associated with high prevalence of preterm birth, preeclampsia, and caesarean section compared to non-COVID pregnancies. COVID-19 infection was not found in the newborns and none developed severe neonatal complications.

The World Health Organisation (WHO) was alerted on the 31st of December 2019 by Chinese authorities of a series of pneumonia-like cases in the city of Wuhan [1] . The Chinese Centre for Disease Control and Prevention identified this infection as a novel coronavirus infection on Jan 7, 2020 and on Feb 11, 2020 , the WHO announced a new name for the pandemic disease as 2019-new coronavirus disease . Symptoms of the infection had included fever, malaise, dry cough, shortness of breath and respiratory distress [2] . Studies from Europe, China, and USA on COVID-19 have consistently shown that older age and comorbidity are major risk factors for adverse outcomes and mortality. Although most reported COVID-19 cases in China were mild (81%), approximately 80% of deaths had occurred among adults population older than 60 years of age; only one (0.1%) death had occurred in a person under 19 years of age [3] [4] [5] .

J o u r n a l P r e -p r o o f 5 Data from MERS-CoV and SARS-CoV, indicate that infection in pregnancy tends to be severe and associated with adverse neonatal outcomes, including increased risk of miscarriage, fetal growth restriction, and preterm birth [6] [7] [8] [9] . Data from the UK [10] of more than 400 pregnant patients hospitalised with COVID-19 suggest an increased potential for adverse maternal outcomes in pregnant patients hospitalised with confirmed COVID-19 infection; while the risk of an intrauterine vertical transmission is inconclusive .

Royal college of Obstetrics and Gynaecology recommends that delivery in COVID-19 patients should be determined primarily by obstetric indication and recommends against routine separation of affected mothers and their babies [11] . Our study aims to provide additional emerging information for maternity and neonatal services planning their response to COVID-19.

Prospective clinical information was collected at the time of presentation to the maternity unit from February 2020 to April 2020 inclusive. For each patient, a proforma was attached to the clinical note which was completed at each stage of the hospital stay. Telephone follow-up of maternal recovery and neonatal conditions were carried out by community midwives following hospital discharge for completion, and was recorded on electronic maternal notes [Badgernet maternity information system]. The infection was confirmed based on positive RT-PCR results supplemented by clinical symptoms, chest x ray, chest computed tomography (CT) information. RT-PCR for SARS-CoV-2 nucleic acid was used to determine COVID-19 in suspected infection from both maternal and neonatal nasopharyngeal samples. Sample collection, processing, and laboratory testing followed guidance from Public Health England [12] . (Table 1) .

Mean age of patients was 29 [16;40] years, 4/23 (17.3%) were admitted to intensive care unit (ICU), 3/23 (13%) required mechanical ventilation, and 1/23 (4.3%) required ECMO-Extracorporeal membrane oxygenation (ECMO). Comorbidities were diabetes mellitus 4/23 (17.3%), Asthma 2/23 (8.7%), preeclampsia 2/23 (8.7%). One pregnant woman had hypertension, one had Anti-S antibodies, one had well-controlled hyperthyroidism, and hepatitis B. One patient died from basilar artery thrombosis, a co-existing pulmonary embolism, and complicated by diabetic ketoacidosis during ICU admission (Table 1) In our cohort of 23 women, we had 19 pregnant women with confirmed COVID-19 in their 3 rd trimester delivering 20 neonates (18 singleton, and 1 set of twins), and 4 women with confirmed COVID-19 in their second trimester. Of the later, one had missed miscarriage at 13 weeks' gestation, while one developed acute pyelonephritis with consequent acute kidney injury. Of the 19 patients who delivered, 7/19 (36.4%) were preterm. The gestation at delivery J o u r n a l P r e -p r o o f 7 varied from 29 weeks to 36 weeks with mean of 33.1 weeks' gestation. Four of these patients were preterm delivery following preterm pre-labour rupture of membrane (PPROM). Three patients required early delivery due to development of maternal severe adult respiratory distress syndrome; two were at 31 weeks' gestation and another at 35weeks' gestation. The majority had caesarean deliveries 16/19 (68.4%) ( Table 1 ). 13/16 (81%) had an emergency Csections while 3/16 (11.8%) had an elective C-sections. Indications for the C-sections included pathological CTG (2), failure to progress (4), PPROM including subsequent unsuccessful induction of labour (3), maternal request (2) and severe sepsis (2) ( Table 1) . Two of these patients were admitted to ICU, intubated and ventilated prior to delivery. Pre-eclampsia occurred in 2/19 of patients (10.5%), one of whom progressed to develop liver dysfunction, HELLP and DIC. For 6/19 (31.6%) patients there were concurrent complaint of reduced fetal movement (RFM) but only one of whom had a pathological antenatal cardiotocograms (CTG) at her 40 weeks' gestation presentation (Table 1) .

In our cohort, we had one maternal death of a 29-year-old Asian patient with a history of poorly controlled type-2 diabetes. She was admitted with pyrexia and severe breathlessness requiring 100% oxygen. Her infection was complicated by diabetic ketoacidosis. She was delivered by an emergency C-section under general anaesthetic. She was started on amoxicillin and thromboprophylactic dose of enoxaparin. Although she was extubated initially, she had to be reintubated after 4 days due to worsening respiratory function. Her CT pulmonary angiogram confirmed pulmonary embolism, and showed bilateral solid pulmonary consolidations which was consistent with COVID-19. Her CT head showed basilar artery thrombosis. Following multidisciplinary discussion including the neurosurgical team into her care, end of life care was commenced before she passed away soon thereafter.

Neonatal outcomes J o u r n a l P r e -p r o o f 8 In terms of fetal and neonatal outcomes, the majority 19/20 (95%) did not require resuscitation with 1 minute Apgar scores of 8 -9, and 5 minute Apgar scores of 9-10. One new-born, who was delivered at 35 weeks by emergency C-section to black African patient due to severe COVID-19 respiratory symptoms requiring ventilation, had low Apgar score of 3 and 5, at 1 and 5 minutes respectively following delivery ( Table 1 ). The baby was resuscitated with positive oxygen pressure following delivery, intubated and transferred to a special care baby unit (SCBU). The baby was extubated on day 3 and subsequently was discharged from hospital without further adverse, either mother or infant outcomes reported to date.

Nasal swabs were performed to screen for COVID-19 in seven infants 7/19 (37%) who were delivered to mothers with severe symptoms (one test was not performed as guidance for not routinely performing screening test on the neonates born to COVID-19 patient was changed to routine screening soon after the data collection started). The swabs were taken on day 0, and day 3 following delivery. All 7 infants were started on antibiotics following delivery whilst awaiting swabs results. Additional neonatal pharyngeal swab testing was taken based on index of suspicion, there were four neonates where these additional swabs were taken. All neonatal swabs were, however, negative for COVID-19. None of the infants presented any respiratory symptoms as of the submission of the manuscript.

The immune function of pregnant patients is relatively suppressed during pregnancy. At the same time, physiological changes during pregnancy will also expose pregnant patients to a higher risk, which will lead to a more adverse outcomes [13, 14] . It is reported in the literature that pregnant patients infected with SARS-CoV, and MERS-CoV indeed have more adverse outcomes (spontaneous miscarriage, intrauterine growth restriction and premature delivery); the J o u r n a l P r e -p r o o f 9 mortality rate of pregnant patients is as high as 25% compared to 10% in ordinary infected people [15, 16] . Recently, Chen et al. [5] , and Zhu et al. [17] reported that the perinatal infection COVID-19 may have adverse effects on new-borns, but compared with SARS-CoV, the adverse mother-to-child outcomes are fewer.

Analyses of our prospectively collected data of a cohort of pregnant patients infected with COVID-19 in their second and third trimester seems to bear these.

Of all patients presenting in the 2 nd or 3 rd trimester, most cases had mild manifestation with eight severe cases. Chest imaging including CT and x ray examination showed typical patchy solid consolidation consistent with COVID-19 pneumonia in 20/23 (87%) of the patients. Three of the severe cases progressed to requiring intubation and ventilation. All three were in the 3rd trimester.

In our cohort, there was a relatively higher rate of preterm birth, preeclampsia, and C-section. 7/19 (37%) of the patients who acquired the infection in the 3rd trimester had preterm delivery, which remains higher compared to the national rate of preterm delivery (7.3%) [18] . Furthermore, the rate of C-section in our cohort was 16/19 (84%) which is significantly higher than the national C-section rate in the UK (26.2%) [19] . Out of all patients 2/19 (10.5%) had severe preeclampsia compared to (1-2%) risk in general population [19] , out of which one patient developed HELLP and DIC. One pregnancy with confirmed COVID-19 infection in the third trimester had a neonate with intrauterine growth restriction. 

We are acknowledging that our study is limited by the small sample size, and incomplete information on the outcome of the infants beyond the end date of data collection, however, our findings are important for understanding the characteristics of the disease in pregnant patients, and their infants.

Although our cohort of 23 patients with confirmed COVID-19 was relatively small in absolute numbers, we have prospectively collected data for the three months' period covered. The incidence of COVID-19 in our cohort mirrored the national UK trend. There is a relatively higher rate of preterm birth, preeclampsia, and C-section for patients with COVID-19 but vertical transmission including development of severe neonatal COVID-19 complications seemed reassuringly rare. Our findings can provide an additional guidance to enhance prenatal counselling of patients with COVID-19 infection during pregnancy.

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

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ECMO (1), death (1)

Abbreviations: ECMO-Extracorporeal membrane oxygenation; OC-obstetrics Cholestasis; PPROM-Preterm premature rupture of the membranes; SGAsmall for gestational age

DIC-disseminated intravascular coagulation; ELCS-elective c-section

EMCS-emergency c-section

CVA-cerebrovascular accident; HTNhypertension Table 1: Clinical data and follow-up data of 23 cases of pregnant women infected

Varies from 16 Preterm delivery (7), RFM (6), PPROM (4), preeclampsia (2), HELLP (2), DIC (2), OC (1), fetal distress (1) meconium (2), missed miscarriage (1)

Antenatal/intrapartum Pyrexia 14 antenatal, 2 intrapartum Varies from 2240 to 4450 grams with mean of 3139 g ± 437