An observational study for appraisal of clinical outcome and risk of mother-to-child SARS-CoV-2 transmission in neonates provided the benefits of mothers' own milk.

This observational study done during April-December 2020 at a tertiary-care hospital in Haryana (India) enrolled 152 SARS-CoV-2-exposed neonates. Among them, 150 neonates had perinatal SARS-CoV-2 exposure and 2 neonates had late postnatal exposure. Stable infant-mother dyads were roomed-in with precautions to support breastfeeding. Nasopharyngeal swabs collected from neonates were tested for SARS-CoV-2 by reverse transcriptase-polymerase chain reaction (RT-PCR) test. There was a high incidence of prematurity (23%), low birth weight (31%), intrauterine fetal distress (16%), perinatal asphyxia (6%), admission to neonatal intensive care unit (24%), and mortality (1.3%) among neonates with perinatal SARS-CoV-2 exposure. In this sub-group, 20 neonates tested positive for SARS-CoV-2 in nasopharyngeal swab sample(s). A recent official publication by the World Health Organization emphasizes that the perinatal SARS-CoV-2-exposed neonates found RT-PCR positive once in upper respiratory (non-sterile) sample must document viral persistence in another non-sterile sample for confirmation of mother-to-child virus transmission. With this approach, only one neonate was confirmed intrapartum transmission. A telephonic follow-up in discharged neonates at 1 month of age or 1 month postexposure recorded them all to be asymptomatic and doing well.
Conclusion: Neonates with perinatal SARS-CoV-2 exposure constitute a high-risk group and it is not uncommon to get a positive RT-PCR report in upper respiratory sample(s) from these babies. Majority of them do not demonstrate viral persistence. Clinical outcomes are favorable in breastfed infants roomed-in with their asymptomatic-mild symptomatic SARS-CoV-2-infected mothers following appropriate safety protocols. What is Known: •Neonates with perinatal exposure suffer a high burden of morbidities and mortality. •Still, an uncertainty exists about rooming-in and breastfeeding among neonates born to SARS-CoV-2 positive mothers. What is New: •With the policy of mother-infant rooming-in and supporting breastfeeding, none of the neonate suffered clinical illness compatible with postnatal SARS-CoV-2 transmission and infection. •Around 13% perinatal exposed neonates demonstrated SARS-CoV-2 RNA in nasopharyngeal swab samples but the majority of them did not demonstrate viral persistence.

Introduction

Few studies have demonstrated the presence of virus ribonucleic acid (RNA) material in breast milk samples collected from the mothers infected with SARS-CoV-2 but this seems unlikely to be a mode of mother-to-child transmission because no replication-competent virus has been detected in breast milk samples till date [1-4]. On the other hand, SARS-CoV-2-specific immunoglobulins in breast milk might be protective against infection and symptomatic-severe disease [5, 6]. Unprotected close contact during breastfeeding and other aspects of baby care is still an important route for postnatal virus transmission without any debate. Majority of national and regional guidelines advocates supporting direct breastfeeding among mothers infected with SARS-CoV-2, very few prohibiting any breast milk, and a few restricting direct breastfeeding but allowing expressed breast milk (EBM) feeding [7]. There had always been an uncertainty over rooming-in neonates with their SARS-CoV-2-infected mothers. Majority of guidelines including that given by academic organizations in India recommends keeping stable mother-infant dyads together but some still suggest their separation for variable periods of time after birth [7-9].

Mother-infant isolation demands a lot of logistic support. On the other hand, one cannot guarantee postnatal contact of neonate with another infected caregiver or hospital staff after separation from their own mother. During the early phase of coronavirus pandemic in India, it was a challenge to let go of norm of breastfeeding in neonates without any conclusive evidence, and thus, we allowed rooming-in stable neonates with their stable SARS-CoV-2-infected mothers following a safety protocol so that the babies could be provided benefits of mother’s own milk effectively [8, 9]. There is limited published data about neonatal outcome and risk of mother-to-child virus transmission following such clinical management protocols. The present study attempts to fill this knowledge gap.

Material and methods

Study design, setting, and objectives

This observational study did not interfere with the departmental management protocols and was done with approval of Institutional Ethics Committee between April and December 2020 at Employees State Insurance Corporation Medical College and Hospital, Faridabad (Haryana, India) which served as a referral center and dedicated COVID-19 hospital during the study period.

Participant eligibility criteria

All SARS-CoV-2-exposed neonates (< 1 month age) admitted in the Department of Paediatrics (Neonatology) during the study period were enrolled after informed consent of parent(s). Neonates were defined to have “perinatal SARS-CoV-2 exposure” if born to a mother with confirmed SARS-CoV-2 infection diagnosed 14 days prior to 2 days after childbirth [9-11]. Exposure of neonate to infected mother beyond this time period or a close contact (< 1 m for > 15 min or living in the same household) with someone else infected with SARS-CoV-2 was defined as “late postnatal SARS-CoV-2 exposure” (Fig. 1).

Fig. 1

Characteristics of SARS-CoV-2 exposure and screening among study participants

Clinical case management

The mode of delivery was guided by obstetric-fetal assessment, intranatal cardiotocographic (CTG) monitoring, and hemodynamic status of the mother. No mother-infant separation was done in well babies with asymptomatic or mild symptomatic mothers, i.e., those without any shortness of breath or hypoxia. Direct breastfeeding was initiated as early as possible within 1 h of birth. Mothers were advised to wear a triple-layered surgical mask all the time and being more careful during breastfeeding and handling the neonate. They were advised to change and discard the mask every 6 h. An easy access to soap and water, as well as alcohol-based hand sanitizers, was provided to maintain hand hygiene. Dedicated nurses trained in essential newborn care and lactation management were stationed for constant supervision. Very low birth weight, high risk, and sick neonates were transferred to a designated NICU (neonatal intensive care unit) in the COVID block. During such periods of temporary mother-infant separation, the mothers were encouraged to visit their baby for feeding with EBM and being involved in baby care (like diapering) taking respiratory and hand hygiene precautions. Formula milk was used only when the EBM provided was inadequate known as “partial breastfeeding or mixed feeding.”

Screening for SARS-CoV-2 infection in neonates and interpretation of results

Nasopharyngeal (NP) swabs for detection of SARS-CoV-2 ribonucleic acid (RNA) by reverse transcription–polymerase chain reaction (RT-PCR) test were collected by trained staff or pediatric residents. Three genes of SARS-CoV-2, i.e., E-gene (envelope coding gene), RdRP-gene (RNA-dependent RNA polymerase gene), and N-gene (nucleocapsid encoding gene) were tested using Allplex™ 2019-nCoV Assay kit (Seegene Inc). Cycle threshold (Ct) value ≤ 35 was considered RT-PCR positive and > 35 as negative.

With an early discharge policy, first NP swab sample was collected at birth (< 24 h of age) after drying and initial stabilization among intramural births. Rooming-in and breastfeeding was not postponed for the sake of collection of NP swab sample. First NP swab sampling in extramural neonates and those with late postnatal exposure was done immediately at the time of admission. Second NP swab sample was collected on day 2 (between 24 and 48 h of life) and the third NP swab sample collected after day 5 by day 14 of life or exposure. Additional NP swab samples were tested in case of any new symptom(s). Examination of placental tissue, amniotic fluid, cord blood, neonatal blood, lower respiratory sample, or stool were not the part of study protocol.

Discharge policy and follow-up

Asymptomatic or mild-moderate ill SARS-CoV-2-positive neonates (whose symptoms and need of oxygen abate within 3 days) stayed in the hospital for minimum of 10 days and were discharged after documentation of at least one negative RT-PCR report. An early discharge policy was followed among stable mother-infant dyads. Mothers were advised to continue exclusive breastfeeding for 6 months and follow above mentioned COVID-19 safety protocols for at least 2 more weeks. At the time of discharge, she was explained about all danger signs. All neonates were followed-up telephonically at 1 month of age or SARS-CoV-2 exposure by the investigators from neonatology team. They were asked about their general well-being and if they had any concerns such as fever, poor feeding, respiratory symptoms, gastrointestinal symptoms, and/or any healthcare visit since discharge.

Variables recorded

Demographic details, severity of COVID-19 illness in the mother, medical-obstetric complications, and labor events were recorded. The variables recorded for the neonates were the gestational age and weight at birth, adverse events at the time of birth, details of feeding, morbidities and mortality suffered, and the results of SARS-CoV-2 testing.

Statistical analysis

Anonymized data was compiled in the Microsoft Excel Software and analyzed by Epi Info Version 7. Descriptive statistics, namely, frequencies, proportions, and mean ± standard deviation, were applied to summarize the data.

Results

Participants

Among 152 SARS-CoV-2-exposed neonates, 138 were intramural births from mothers infected with SARS-CoV-2 at the time of childbirth, 12 were extramural neonates born to SARS-CoV-2-infected mothers and referred from other non-COVID hospitals, and 2 neonates were admitted after their mothers were diagnosed with mild COVID-19 illness day 10 and day 12 postpartum (Fig. 1).

Gestational risk factors, severity of COVID-19 in mother, and adverse intranatal events

Among 150 mothers diagnosed with SARS-CoV-2 infection around the time of childbirth, 50 (33.3%) were primigravidae, 65 (43.3%) were second gravidae, and the remaining were gravida ≥ 3. Their age ranged from 17 to 39 years (mean ± SD; 26.07 ± 4.43). Co-morbid medical and/or obstetric complications like anemia, gestational hypertension, diabetes, and oligohydramnios were present in 63 (42%) mothers. One mother had severe pneumonia requiring respiratory support for 2 days, 15 (10%) had mild symptoms, and 134 (89.3%) mothers were asymptomatic for SARS-CoV-2 infection. Both mothers diagnosed of SARS-CoV-2 infection during postpartum period had mild symptoms. CTG recordings were abnormal in 24 (16%) and amniotic fluid was meconium stained in 29 (19.3%) mothers. Cesarean section was performed for various fetal-maternal indications in 98 (65.3%) mothers.

Clinical outcome in SARS-CoV-2-exposed neonates

Among 150 neonates with perinatal exposure, the gestational maturity at birth ranged from 29 to 42 weeks (mean ± SD, 37.85 ± 1.93) and the birth weight ranged from 1100 to 3900 g (mean ± SD, 2642.57 ± 503.24). There was a high incidence of prematurity (22.7%), low birth weight (31.3%), and being small for gestational age (38%). Total 34 (22.7%) neonates required some assistance for breathing at birth, majority (25/34) responding to initial steps alone. Overall, 9 (6%) neonates suffered perinatal asphyxia (Apgar score < 7 at 1 min of age) among which 4 (2.7%) suffered severe perinatal asphyxia (Apgar score < 3 at 1 min of age). Some respiratory support was required in 18 (12%) neonates. All neonates on respiratory support could be completely weaned off oxygen within 3 days. There was a high burden of neonatal morbidities and 36 (24%) neonates required NICU care (Table 1).

Table 1

Clinical profile and outcome in perinatal SARS-CoV-2-exposed neonates

Morbidities/mortalityN = 150(males = 90, females = 60)		n	%
Preterm birth	< 37 weeks	34	22.7
	< 34 weeks	3	2.0
Low birth weight	< 2500 g	47	31.3
	< 1500 g	2	1.3
Small for gestational age (birth weight < 10th percentile for gestational age)		57	38.0
Large for gestational age (birth weight > 90th percentile for gestational age)		2	1.3
Meconium-stained amniotic fluid		29	19.3
Pathological CTG tracings (intrauterine fetal distress)		24	16.0
Requirement for some resuscitation measures at birth	Total	34	22.7
	Initial steps (oro-nasal suction and/or tactile stimulation)	25	16.7
	Positive pressure ventilation (PPV)	8	5.3
	PPV and chest compressions	0	0.0
	PPV and chest compressions and medications	1	0.7
Low Apgar score at 1 min of age	Apgar score 0–7	9	6.0
	Apgar score 0–3	4	2.7
Low Apgar score at 5 min of age	Apgar score 0–7	4	2.7
	Apgar score 0–3	1	0.7
Requirement of NICU care		36	24.0
Requirement of respiratory support	Total	18	12.0
	Low-flow oxygen therapy	13	8.7
	Non-invasive ventilation	3	2.0
	Invasive ventilation	2	1.3
Indications for respiratory support	Postresuscitation care (perinatal asphyxia)	9	6.0
	Transient tachypnea of newborn	4	2.7
	Prematurity	3	2.0
	Pneumonia (early onset sepsis)	5	3.3
	Hyperpyrexia and encephalopathy	1	0.7
Morbidities	Congenital anomalies	1*	0.7
	Early onset sepsis	12^	8.0
	Late onset sepsis	0	0.0
	Perinatal asphyxia	9	6.0
	Neonatal hyperbilirubinemia	17	11.3
	Neonatal seizures	1#	0.7
	Moderate/severe thrombocytopenia	3	2.0
	Coagulopathy	1	0.7
	Shock (requiring ionotropic support)	1	0.7
	Hypoglycemia	1	0.7
	Hyperkalemia	1	0.7
	Hyponatremia	1	0.7
	Hypernatremia	1	0.7
Mortality		2	1.3

*Multicystic kidney

^Sepsis screen positive, blood culture negative—10; sepsis screen positive, blood culture positive—2

#Hypoxic-Ischemic-Encephalopathy stage II

Two neonates with perinatal SARS-CoV-2 exposure suffered mortality during early neonatal period. One female neonate was born vaginally at 39 weeks with birth weight 2500 g. Her mother was asymptomatic for SARS-COV-2 infection, young 17-year-old, primigravida, and anemic with gestational hypertension. The history of being handled by traditional birth attendant prior to admission posed a risk for neonatal sepsis, though initially this history was concealed by the family. Baby required oro-nasal suction at birth to clear the airway of secretions, no other resuscitation support was required, and the Apgar scores were normal. The initial sepsis screen including total leucocyte count, differential leucocyte count, µESR, peripheral smear findings, and C-reactive protein were normal, and the blood culture was sterile. Baby was roomed-in with her mother and was partial breastfed. Clinical course was uneventful on day 1 and day 2 of life. On day 3, there were acute symptoms (axillary temperature 39.9 °C and neonatal encephalopathy) with rapid deterioration and the baby could not be revived. The NP swab collected at birth for SARS-CoV-2 was positive. Other test for reliable evidence of in-utero SARS-CoV-2 exposure, imaging, cerebrospinal fluid analysis, postmortem autopsy, or sampling(s) could not be done due to lack of consent (Table 2—Case no. 1). The other baby boy was preterm 29 weeks with birth weight 1140 g born to mother with asymptomatic SARS-CoV-2 infection but having gestational and intranatal risk factors including gestational diabetes, oligohydramnios, prelabor rupture of membranes, and intrauterine fetal distress. His NP swab collected at birth was negative for SARS-CoV-2. Sepsis screen was positive and blood culture was sterile. This baby had been on mechanical ventilation since birth after suffering severe perinatal asphyxia (Apgar score 1, 3) and could not sustain life beyond 8 h of life.

Table 2

Clinical profile and outcome in SARS-CoV-2-positive neonates

Serial no	Results and interpretation of SARS-CoV-2 RT-PCR testing in NP swab(s)	Severity of COVID-19 symptoms in mother	Maternal age, gravida status, and gestational risk factors	Color of amniotic fluid, intranatal CTG findings	Mode of delivery	Place of birth and age at admission	Gender, gestational maturity, and birth weight	Requirement of resuscitation at birth, Apgar score-1, 5 min of age, requirement of NICU care, respiratory support	Feeding	Neonatal outcome
1	D1—positive; repeat testing could not be done Indeterminate in-utero transmission	Asymptomatic	17 years, primigravida, anemia, gestational hypertension, prior handling by traditional birth attendant	Clear amniotic fluid/normal CTG	Vaginal	Intramural	Girl, 39 weeks, 2500 g, SGA	Required initial steps of resuscitation/normal Apgar scores/required NICU care, acute symptomatic on D-3 of life, required ventilation for 2 h	Partial breastfeeding	Suffered mortality (hyperpyrexia, encephalopathy, probable neonatal sepsis/indeterminate in-utero transmission)
2	D1—positive D3—negative D5—negative D7—negative Transient superficial contamination/virus fragments	Asymptomatic	27 years, primigravida	Meconium-stained amniotic fluid/pathological CTG tracings	Cesarean (indication—fetal distress)	Intramural	Boy, 40 weeks, 2300 g, SGA	Required PPV/Apgar score 3,8/required NICU care, low-flow oxygen since birth for 2 days	Partial breastfeeding	Discharged (severe perinatal asphyxia)
3	D1—positive D4—negative D5—negative Transient superficial contamination/virus fragments	Asymptomatic	26 years, gravida-2	Meconium-stained amniotic fluid/pathological CTG tracings	Cesarean (indication—fetal distress)	Intramural	Girl, 36 weeks, 2500 g, AGA	Required initial steps of resuscitation/normal Apgar scores/no need of NICU care or respiratory support	Exclusive breastfeeding	Discharged
4	D1—positive D2—negative D5—negative Transient superficial contamination/virus fragments	Asymptomatic	28 years, primigravida, polyhydramnios, intrahepatic cholestasis of pregnancy	Clear amniotic fluid/normal CTG	Cesarean (indication—large-size baby)	Intramural	Boy, 37 weeks, 3900 g, LGA	No resuscitation required/normal Apgar scores/NICU stay for monitoring of sugars/no respiratory concerns	Exclusive breastfeeding	Discharged
5	D1—positive D2—negative D5—negative D10—negative Transient superficial contamination/virus fragments	Asymptomatic	27 years, primigravida	Clear amniotic fluid/pathological CTG tracings	Cesarean (indication—fetal distress)	Intramural	Girl, 40 weeks, 2800 g, AGA	Required initial steps of resuscitation/normal Apgar scores/no need of NICU care or respiratory support	Exclusive breastfeeding	Discharged
6	D1—positive D3—negative Transient superficial contamination/virus fragments	Asymptomatic	23 years, gravida-2, gestational hypertension, prelabor rupture of membranes > 18 h	Clear amniotic fluid/normal CTG	Cesarean (indication—high blood pressure)	Intramural	Boy, 35 weeks, 2000 g, AGA	No resuscitation required/normal Apgar scores/no need of NICU care or respiratory support	Partial breastfeeding	Discharged
7	D1—positive D4—negative D10—negative D13—negative D15—negative Transient superficial contamination/virus fragments	Asymptomatic	24 years, primigravida, gestational hypertension	Clear amniotic fluid/normal CTG	Cesarean (indication—high blood pressure)	Intramural	Boy, 37 weeks, 2930 g, AGA	No resuscitation required/normal Apgar scores/no need of NICU care or respiratory support	Exclusive breastfeeding	Discharged
8	D1—positive D2—negative D5—negative Transient superficial contamination/virus fragments	Asymptomatic	22 years, gravida-2	Clear amniotic fluid/normal CTG	Cesarean (indication—previous cesarean with scar tenderness)	Intramural	Girl, 37 weeks, 2400 g, AGA	No resuscitation required/normal Apgar scores/no need of NICU care or respiratory support	Exclusive breastfeeding	Discharged
9	D1—positive D2—negative Transient superficial contamination/virus fragments	Asymptomatic	21 years, gravida-3	Clear amniotic fluid/normal CTG	Cesarean (indication—previous two cesarean sections)	Intramural	Girl, 41 weeks, 2500 g, SGA	No resuscitation required/normal Apgar scores/no need of NICU care or respiratory support	Partial breastfeeding	Discharged
10	D1—negative D2—positive D6—positive D10—positive D12—positive D13—negative D14—negative Confirmed intrapartum transmission	Asymptomatic	22 years, gravida-2	Clear amniotic fluid/normal CTG	Cesarean (indication—previous cesarean with scar tenderness)	Intramural	Boy, 39 weeks, 2400 g, SGA	No resuscitation required/normal Apgar scores/no need of NICU care or respiratory support	Exclusive breastfeeding	Discharged
11	D1—positive D5—negative Transient superficial contamination/virus fragments	Asymptomatic	30 years, primigravida, gestational diabetes	Clear amniotic fluid/pathological CTG tracings	Cesarean (indication—fetal distress)	Intramural	Boy, 37 weeks, 2770 g, AGA	No resuscitation required/normal Apgar scores/no need of NICU care or respiratory support	Partial breastfeeding	Discharged
12	D2—positive D5—negative D7—negative Unlikely intrapartum transmission	Asymptomatic	28 years, gravida-2, anemia	Meconium-stained amniotic fluid/pathological CTG tracings	Cesarean (indication—fetal distress)	Extramural, day 3	Girl, 36 weeks, 2600 g, AGA	Required PPV/Apgar score 3,8/required NICU care, low-flow oxygen since birth for 1 day	Partial breastfeeding	Discharged (severe perinatal asphyxia, HIE stage II, neonatal seizures, early onset sepsis—screen positive)
13	D1—positive D2—negative D6—negative Transient superficial contamination/virus fragments	Asymptomatic	28 years, gravida-4, gestational diabetes	Meconium-stained amniotic fluid/pathological CTG tracings	Cesarean (indication—fetal distress)	Intramural	Boy, 38 weeks, 2690 g, AGA	No resuscitation required/normal Apgar scores/no need of NICU care or respiratory support	Exclusive breastfeeding	Discharged
14	D1—negative D2—positive D3—negative D5—negative Unlikely intrapartum transmission	Asymptomatic	28 years, gravida-3	Clear amniotic fluid/normal CTG	Vaginal	Intramural	Boy, 38 weeks, 3300 g, AGA	No resuscitation required/normal Apgar scores/no need of NICU care or respiratory support	Exclusive breastfeeding	Discharged
15	D2—positive D3—negative D5—negative Unlikely intrapartum transmission	Asymptomatic	20 years, gravida-2, anemia, twin gestation	Clear amniotic fluid/normal CTG	Cesarean (indication—first twin in breech presentation)	Intramural	Boy, 35 weeks, 1750 g, SGA	Required initial steps of resuscitation/normal Apgar scores/required NICU care, low-flow oxygen since birth for 4 h	Partial breastfeeding	Discharged (transient tachypnea of newborn)
16	D1—not known D5—positive D7—negative Unlikely postnatal transmission	Asymptomatic	24 years, gravida-2, oligohydramnios	Meconium-stained amniotic fluid/pathological CTG tracings	Cesarean (indication—fetal distress)	Extramural, day 4	Girl, 42 weeks, 2000 g, SGA	Required initial steps of resuscitation/normal Apgar scores/required NICU care, low-flow oxygen since birth for 3 days	Partial breastfeeding	Discharged (early onset sepsis—screen positive, pneumonia, neonatal hyperbilirubinemia)
17	D1—not known D6—positive D8—negative Unlikely postnatal transmission	Asymptomatic	22 years, gravida-2	Clear amniotic fluid/normal CTG	Vaginal	Extramural, day 6	Girl, 39 weeks, 3100 g, AGA	No resuscitation/normal Apgar scores/no need of NICU care or respiratory support	Exclusive breastfeeding	Discharged
18	D2—negative D5—positive D6—negative D8—negative D11—negative Unlikely postnatal transmission	Asymptomatic	22 years, gravida-3	Clear amniotic fluid/normal CTG	Vaginal	Intramural	Girl, 38 weeks, 3000 g, AGA	No resuscitation/normal Apgar scores/no need of NICU care or respiratory support	Exclusive breastfeeding	Discharged
19	D1—negative D5—negative D8—negative D12—positive D13—negative Unlikely postnatal transmission	Mild symptoms for 3 days before delivery	24 years, primigravida	Meconium-stained amniotic fluid/pathological CTG tracings	Cesarean (indication—fetal distress)	Intramural	Girl, 38 weeks, 3160 g, AGA	Required initial steps of resuscitation/normal Apgar scores/required NICU care, low-flow oxygen since birth for 3 days	Partial breastfeeding	Discharged (early onset sepsis—screen positive, blood culture positive for Staphylococcus hominis, pneumonia, thrombocytopenia, hyperkalemia, neonatal hyperbilirubinemia)
20	D1—negative D5—positive D9—negative D12—negative Unlikely postnatal transmission	Asymptomatic	19 years, primigravida, anemia, gestational hypertension, oligohydramnios	Clear amniotic fluid/normal CTG	Cesarean (indication—high blood pressure)	Intramural	Girl, 36 weeks, 2920 g, LGA	No resuscitation/normal Apgar scores/required NICU care for neonatal hyperbilirubinemia	Partial breastfeeding	Discharged (LGA, neonatal hyperbilirubinemia)

Both neonates with late postnatal exposure to SARS-CoV-2 were asymptomatic at the time of admission and remained so during hospital stay.

Acceptance of breastfeeding

Overall, 98% (149/152) neonates were breastfed. Exclusive (and direct) breastfeeding was done in 67% (102/152) neonates. Another 31% (47/152) neonates were partial/mixed breastfed. Most common reason for partial breastfeeding was temporary mother-infant isolation among neonates admitted to NICU where they were fed with EBM as well as formula milk whenever EBM provided was not adequate. There were only three neonates who were never breastfed, one who did not get opportunity to receive any milk due to being on ventilator since birth and demise within few hours of birth and the other two who were replacement-fed (only formula milk fed) as their mothers refused to feed them with any breast milk. No mother-infant separation was done among these two replacement-fed babies.

Results and interpretation of SARS-CoV-2 testing in neonates

Total 288 NP swab samples were collected for RT-PCR testing from 150 perinatal SARS-CoV-2-exposed neonates. Single NP swab testing could be done in 54 neonates, 51 neonates underwent two tests, and ≥ 3 tests were done in 42 neonates. Three neonates could never be tested. Twenty (13.3%) neonates tested SARS-CoV-2 RNA positive in ≥ 1 NP swab sample(s). The interpretation of NP swab results using the classification scheme proposed by World Health Organization (WHO) [10] is provided in Table 2 and Fig. 2.

Fig. 2

Interpretation of SARS-CoV-2 RT-PCR in nasopharyngeal swab samples

Eleven neonates were RT-PCR positive in NP swab sample collected < 24 h of age among which 10 were negative on repeat testing on day 2. These 10 neonates without viral persistence were categorized as transient superficial contamination or virus fragments. No retesting could be done in one neonate, categorized as indeterminate for in-utero transmission (Table 2—Case no. 1). Four neonates were positive in NP swab collected on day 2. Three did not document viral persistence at age > 48–7 days and unlikely to be intrapartum transmission and the one who documented viral persistence in NP swabs (days 6, 10, and 12) was categorized as confirmed intrapartum SARS-CoV-2 transmission. Total 5 neonates were positive in NP swabs collected ≥ 48 h of age (3 on day 5, 1 on day 6, and 1 on day 12 of life). All were negative on retesting, unlikely to be early postnatal transmission (Fig. 2).

One neonate with late postnatal SARS-CoV-2 exposure was tested once on day 6 of exposure and the other neonate with late postnatal SARS-CoV-2 exposure was tested twice on day 7 and day 10 of exposure. All NP swab results were negative in this sub-group (Fig. 1).

Clinical outcome in SARS-CoV-2-positive neonates

The clinical details of 20 neonates who tested positive for SARS-CoV-2 RNA in ≥ 1 NP swab sample(s) are provided in Table 2. Among them, 14 (70%) were asymptomatic. Respiratory symptoms were most common among the symptomatic ones (Table 2).

Duration of hospital stay and telephonic follow-up

The duration of hospital stay in SARS-CoV-2-exposed neonates ranged from 8 h to 32 days (mean ± SD, 5.49 ± 3.92) guided by many factors such as the gestational maturity at birth, weight, clinical course, and the results of SARS-CoV-2 testing. All 148 perinatal exposed neonates who survived early neonatal period fared well by 1 month of age without any new symptoms or concerns after discharge. Both neonates with late postnatal exposure had an asymptomatic clinical course throughout 1-month postexposure time period.

Discussion

Worldwide published literature describes a high incidence of operative delivery, preterm birth, low birth weight, intrauterine fetal distress, perinatal asphyxia, and NICU admission rates among neonates born to SARS-CoV-2-infected mothers [12-29]. The present study confirms these findings in our region although a high prevalence of gestational risk factors among SARS-CoV-2-infected mothers could be co-modifying the neonatal outcome. NICU care was required by 24% neonates, and 12% neonates required respiratory support. These data are relevant as an approximate guide to plan and channelize resources for dedicated isolation-NICUs amidst ongoing COVID-19 pandemic.

Most of the reports describe SARS-CoV-2 infection and vertical transmission in neonates based on single positive RT-PCR in upper respiratory sample. A simple approach is to classify neonatal SARS-CoV-2 infection as perinatal transmission (which includes intrauterine and intrapartum transmission) if there is a positive RT-PCR in NP swab ≤ 72 h after birth, and horizontal transmission if there is a negative RT-PCR ≤ 72 h after birth subsequently testing positive any time > 72 h of age [9, 11]. Neonatology Forum India COVID-19 Registry group [11] described 8.4% risk of perinatal SARS-CoV-2 transmission and 3.1% risk of horizontal transmission among neonates born to SARS-CoV-2-infected mothers. The risk of horizontal transmission was higher (22.1%) among extramural neonates. Applying this approach on the data from present study, perinatal SARS-CoV-2 transmission was present in 15 (10%) neonates and horizontal transmission in 5 (3.3%) neonates. However, these estimates based on single positive upper respiratory (non-sterile) sample may over-estimate the true risk of vertical transmission.

Classification systems to define the timing of vertical mother-to-child SARS-CoV-2 transmission have been proposed by few groups of authors and also by the WHO [10, 30, 31] which are elaborate and difficult to implement in daily clinical practice but useful from epidemiological point of view. The WHO classification scheme [10] guides that for confirmation of in-utero SARS-CoV-2 transmission, positive RT-PCR in sterile specimen(s) like the amniotic fluid sample collected with sterile technique during cesarean section prior to the rupture of membranes or amniocentesis, neonatal blood (not cord blood), lower respiratory tract specimens, or cerebrospinal fluid collected < 24 h of age with documentation of viral persistence in repeat sterile sample(s) taken at age 24–48 h is required. Such an evaluation to confirm in-utero transmission could not be done in the present study, and thus, in-utero transmission could not be confirmed in the neonate who was SARS-CoV-2 positive in NP swab sample collected at birth and suffered mortality. In the absence of repeat NP swab testing, this neonate was categorized as indeterminate for in-utero transmission. The non-specific sign and symptoms of varying severity tend to overlap with other non-infective and infective illnesses of newborn [32-42]. Clinical symptoms and signs are not included in the WHO classification system [10].

Neonates with positive RT-PCR in non-sterile samples (upper respiratory tract sample or stool) collected < 24 h, if RT-PCR positive again 24–48 h of age, suggest possible in-utero transmission. Otherwise, a single positive RT-PCR in upper respiratory sample < 24 h of age could even be virus fragments acquired during passage through the birth canal or transient superficial contamination not resulting in actual infection [10]. This has been reported that around 1.6–5.2% NP swabs collected < 24 h of age from neonates born to SARS-CoV-2-infected collected are positive [11, 17, 18, 43]. In the present study also, 7.3% neonates were RT-PCR positive for SARS-CoV-2 RNA in NP sample collected < 24 h of age but most of them (10/11) were negative on retesting. Non-sterile samples positive for SARS-CoV-2 at age 24–48 h also need confirmation with positive RT-PCR on a second non-sterile sample at age > 48 h–7 days to consider the possibility of intrapartum transmission [10]. Four neonates RT-PCR positive on day 2 seemed to acquire the infection intrapartum but only one of them had viral persistence, confirmed as intrapartum transmission.

Salvatore et al. [29] described that all breastfed neonates born to SARS-CoV-2-positive mothers who were tested by RT-PCR in NP swab sample(s) between days 5–7 and day 14 of life were negative and no one developed symptoms of COVID-19. Reviewing the two datasets from India, around 8–10% breastfed neonates born to SARS-CoV-2-positive mothers tested positive for SARS-CoV-2 in NP swab sample collected at age ≥ 48 h [17, 18]. Positive RT-PCR for SARS-CoV-2 in non-sterile samples at age ≥ 48 h also need confirmation in second non-sterile sample obtained within 10 days of first positive test to consider the possibility of early postnatal transmission [10]. In the present study, 5 (3.3%) neonates seemed to acquire infection postnatal but in the absence of viral persistence, they represented early postnatal exposure, not transmission and true infection. This risk was more apparent among extramural (2/12—16.6%) than intramural neonates (3/138—2.2%), suggesting that the adequacy of precautions taken by mothers and their constant supervision during early neonatal period plays a role.

The present study suffers certain limitations. Reliable tests for the evidence of in-utero exposure could not be included in the study protocol, and thus, virological confirmation of in-utero transmission could not be done. With an early discharge policy among stable mother-infant dyads, many neonates could not be tested beyond 48 h of age for early postnatal transmission. There were ethical concerns, also reluctance of the family to bring back a well-baby for follow-up and testing during restricted travel conditions. With few recorded outcomes, sub-group analyses to identify risk factors could not be done.

Despite these limitations, the study affirms some important findings. Among neonates born to SARS-CoV-2-positive mothers, one may be tempted to consider a positive RT-PCR in upper respiratory sample as evidence of vertical transmission but most of these neonates do not demonstrate viral persistence. Postnatal transmission seems to be rare in breastfed infants roomed-in with their clinically stable SARS-CoV-2-infected mothers following appropriate respiratory and hand hygiene practices and the clinical neonatal outcomes are decent when such protocols are implemented. However, one cannot exclude mother-to-child SARS-CoV-2 transmission by screening upper respiratory samples till 2 weeks of age. For example, the neonate may have been in close contact with his/her SARS-CoV-2-infected mother at day 10 and asymptomatic infected at day 19 of life. A prolonged systematic follow-up with serologic assessments may provide more data on mother-to-child SARS-CoV-2 transmission. Irrespective of the initial screening results, this would be safer to isolate these SARS-CoV-2-exposed neonates till 4 weeks of age to prevent accidental spread of infection.

The natural history of SARS-CoV-2 infection in neonates is still unknown, and as of now the learning experience from other congenital infections such as cytomegalovirus infection may be utilized [44, 45]. Routine follow-up for 1 month seems inadequate, and a long-term comprehensive surveillance till school age for neuromotor, intellectual, audio-visual, respiratory and cardiovascular outcomes is warranted among neonates with perinatal SARS-CoV-2 exposure.

What is Known: •Neonates with perinatal exposure suffer a high burden of morbidities and mortality. •Still, an uncertainty exists about rooming-in and breastfeeding among neonates born to SARS-CoV-2 positive mothers.

What is New: •With the policy of mother-infant rooming-in and supporting breastfeeding, none of the neonate suffered clinical illness compatible with postnatal SARS-CoV-2 transmission and infection. •Around 13% perinatal exposed neonates demonstrated SARS-CoV-2 RNA in nasopharyngeal swab samples but the majority of them did not demonstrate viral persistence.