key: cord-0026092-02yglipx
authors: John, Hima B; Arumugam, Asha; Priya, Mohana; Murugesan, Nandhini; Rajendraprasad, Nandhini; Rebekah, Grace; Paul, Proma; Chandna, Jaya; Lawn, Joy E; Santhanam, Sridhar
title: South Indian Children’s Neurodevelopmental Outcomes After Group B Streptococcus Invasive Disease: A Matched-Cohort Study
date: 2021-11-03
journal: Clin Infect Dis
DOI: 10.1093/cid/ciab792
sha: 9c6e72f9825ac69d42dc3f7f89593017c4ff3ffc
doc_id: 26092
cord_uid: 02yglipx

BACKGROUND: This study is part of a multicountry matched-cohort study designed to estimate the risk of long-term neurodevelopmental impairment (NDI) of children exposed to invasive group B Streptococcus (iGBS). The specific objective of this paper is to compare NDI across domains of iGBS survivors with a matched non iGBS group in our population. METHODS: Survivors of iGBS in a South Indian hospital were identified and recruited between January 2020 and April 2021. Cases were compared with age- and gender-matched non iGBS children. Participants were assessed using Bayley Scales of Infant and Toddler Development–3rd edition (BSID-III), Wechsler Preschool and Primary Scale of Intelligence–4th edition (WPPSI-IV), Wechsler Intelligence Scale for Children–5th edition (WISC-V), Child Behavior Checklist (CBCL), and Bruininks-Oseretsky Test of Motor Proficiency, 2nd edition (BOT-2), depending on age. RESULTS: Our cohort comprised 35 GBS-exposed and 65 matched non iGBS children, aged 1–14 years. The iGBS-exposed group had 17 (48.6%) children with impairment in ≥1 domain compared to 25 (38%) in the non iGBS group (unadjusted OR, 1.51; 95% CI, .65–3.46), 9 (26%) children with “multi-domain impairment” compared to 10 (15.4%) in the non iGBS group (unadjusted OR, 1.90; 95% CI, .69–5.24), and 1 (2.9%) child with moderate to severe impairment compared to 3 (4.6%) in the non iGBS group (unadjusted OR, .60; 95% CI, .06–6.07). In the iGBS group, more children had motor impairments compared with the non iGBS group (unadjusted OR, 10.7; 95% CI, 1.19–95.69; P = .034). CONCLUSIONS: Children with iGBS seem at higher risk of developing motor impairments compared with a non iGBS group.

The estimated incidence of severe neonatal infections in lowand middle-income countries (LMICs) is 6.9 million [1] . Invasive group B Streptococcus disease (iGBS), an infection that presents as sepsis or meningitis, is a leading cause of neonatal sepsis with a reported incidence of 0.49 per 1000 live births [2, 3] .

Intrauterine and neonatal insults contribute to a high risk of developing long-term neurodevelopmental impairment (NDI) including cognitive, motor (eg, cerebral palsy), hearing, and visual impairment domains [4] . Bacterial meningitis, especially in neonates, is a notable cause of NDI, with pathophysiological disruptions such as cerebral inflammation and edema [5] . After neonatal meningitis, an estimate of moderate to severe NDI is 23% (95% confidence interval [CI]: 19-26%) [6] . A systematic review of NDI of group B Streptococcus (GBS) survivors found moderate to severe NDI in 18% of meningitis survivors, but no usable data after iGBS sepsis. This review included 18 studies from upper-and middle-income countries with a paucity of data for patients older than 2 years, and recommended future studies assessed the total burden of GBS disease in older children and assessing all developmental domains using valid assessment tools [7] . There are no published studies that assessed neurodevelopment outcomes of iGBS survivors in an Asian population.

This article is part of a series 'Every Country, Every Family: Group B Streptococcal Disease Worldwide' reporting a value proposition for maternal vaccines against GBS by the World Health Organization (WHO). The aim of this paper is to present data collected in India as part of a multicountry study describing neurodevelopmental outcomes of iGBS survivors by domains of cognition, language, motor skills, and behavior and comparison with a non iGBS group.

The objectives of the paper are as follows: (1) to describe a cohort of iGBS survivors and a matched non iGBS cohort and (2) to evaluate the risk of NDI and categorize severity in the domains of vision, hearing, cognition, language, motor skills, and behavior in the iGBS cohort when compared with a non iGBS group.

The study setting was a tertiary care teaching hospital in South India ( Figure 1 ). This hospital is a referral perinatal center catering to the population of 4 adjoining districts of 3 neighboring states. The 75 bedded neonatal unit with level 3 facilities has admissions of over 2500 infants every year. There are approximately 12 000-14 000 births per year and the neonatal mortality rate between 2015 and 2019 ranged from 2.7 to 5.6 per 1000 live births (mean: 3.8/1000 live births; national Neonatal Mortality Rate (NMR) in 2019: 21.7/1000 live births). The hospital has a risk-based intrapartum antibiotic policy for GBS prophylaxis since 2003, with no national policy for the same. A multinational study in 2017 found the prevalence of GBS colonization among pregnant women in the institution was 20.9 % [8] . The incidence of GBS disease between 1998 to 2010 in the institution was 0.76 per 1000 live births, of which the incidence of early-onset sepsis was 0.68 per 1000 live births (95% CI: .52-.83) [8, 9] .

The study was a matched-cohort study. Exposed were survivors of infant iGBS disease, henceforth termed as "iGBS survivors, " and unexposed were individuals with no GBS identified. This study is part of a multicenter trial on the long-term outcomes of GBS survivors in LMICs; the study protocol has already been published [10] .

Survivors of iGBS born between August 2006 and July 2018 were identified from the hospital's database. As per protocol, children born at less than 32 weeks' gestation were excluded. An additional criterion for inclusion was knowledge of English or Tamil for administration of neurodevelopmental assessments.

Parents were contacted by telephone and via post with an invitation to attend the neurodevelopmental assessment. Home visits, although initially planned, were not executed due to the coronavirus disease 2019 (COVID-19) pandemic during the period of recruitment. Exposure to GBS disease was defined as GBS isolated in blood culture between 0 and 89 days of the infant's life. This study did not differentiate between GBS sepsis or GBS meningitis. In our cohort, none of the infants with "meningitis" had a positive cerebrospinal fluid (CSF) culture, which is the gold standard for diagnosis, but were diagnosed based on high CSF counts or protein.

Non iGBS children were matched for gender and age of ±2 months of the iGBS survivors. We aimed to recruit 3:1 non-GBS to exposed children. Non iGBS children were recruited by identifying and contacting case-matched children from the hospital records, via the immunization clinic and through distribution of posters in the community. No exclusion criteria were placed, except for a positive history of GBS infection in early infancy. There was a time lag in the recruitment of exposed children due to governmentimposed lockdown measures to contain COVID-19 infection.

Recruitment was from January 2020 to April 2021. Once the family arrived at the hospital, written informed consent and child assent were obtained. The demographic, health, and economic health questionnaire and the EQ5D questionnaire were administered to the caregiver. The children's anthropometric measurements were taken, vision and hearing assessed, and the neurodevelopmental assessments and relevant questionnaires administered. Information was collected on paper forms, then transferred using standard operating procedures to a tabletbased application for data entry.

The study assessment team consisted of 3 occupational therapists, 2 psychologists, a fieldworker, and a data entry operator. All team members were trained using an 8-session training module, covering standard guidelines for assessment of anthropometry, vision, and hearing, and administration of questionnaires and data entry. They were also certified in the administration, interpretation, and scoring of the assessment tools.

Children Aged Below 42 Months. Children aged 42 months or below were assessed using the Bayley Scales of Infant and Toddler Development, 3rd edition (BSID-III), for cognition, language, motor skills, socioemotional skills, and adaptive behavior. The BSID is a globally accepted goal standard in child assessment and has recently been used in a large number of studies in our population [11] [12] [13] .

Children Aged Above 42 Months. In children older than 42 months, cognition was assessed using the Wechsler's Preschool and Primary Scale of Intelligence-4th edition (WPPSI-IV) or the Wechsler's Scale of Intelligence-5th edition (WISC-V), depending on age. The WPPSI assesses cognitive abilities in children aged 2.5 to 7 years. It has 13 subtests, which yield scaled scores, standard scores, and percentiles [14] . The WISC-V is a commonly used assessment in school-aged children. Both tools render composite scores for fluid reasoning, processing speed, verbal comprehension, visual spatial and working memory and a full-scale IQ. The validity of both scales has been supported for use in LMICs and the WISC-IV standardized to the Indian population [15, 16] .

Motor skills were assessed using the Bruininks-Oseretsky Test of Motor Proficiency, 2nd edition (BOT-2). It assesses fine and gross motor skills in children and youth aged 4 to 21 years. This study used the short form of the assessment, which yields standard scores, percentile ranks, and descriptive categorization [17] .

Behavioral outcomes for all children were measured using the Child Behavior Checklist (CBCL). The CBCL is a parent-report questionnaire (composed of 2 versions: a younger 1.5-5 years and older 6-18 years) on which the child is rated on various behavioral and emotional problems. It assesses internalizing (ie, anxious, depressive, and overcontrolled) and externalizing (ie, aggressive, hyperactive, noncompliant) behaviors [18, 19] . The questionnaire was translated and back-translated into Tamil. Questions were read aloud to caregivers with limited literacy.

The assessors were not blinded to participant group. During a developmental or psychological assessment, it is inevitable that parents share their traumatic neonatal intensive care unit experience and this is not discouraged since this information contributes to the holistic understanding of the child. Hence, the assessors were not blinded to the groups. Since the assessment tools have stringent guidelines on scoring and interpretation, we did not anticipate bias due to the lack of blinding. Parental concerns were addressed by the team. Children with mild NDI had an additional appointment with the unit's psychologist or occupational therapist (depending on the domain of impairment). Parents were taught a home-based program and encouraged to attend regular follow-up visits at 2-month intervals. Children with moderate to severe NDI were referred to the institution's Developmental Pediatric Unit.

All assessments were scored according to their scoring manuals. Neurodevelopmental impairment was defined based on the work by the Global Burden of Disease [7] . Severity coding within each assessment was as follows (Supplementary Table  2 ): Mild, if 1-2 SDs below the standardized mean; Moderate, if 2-3 SDs below the standardized mean; Severe, if 3 or more SDs below the standardized mean; "Any impairment, " if the child had impairment in any domain (vision, hearing, cognition, language, motor, or behavior); "Multi-domain impairment, " if there were impairments in more than 1 domain; "Moderate to severe impairment, " if the child had moderate or severe impairment in any domain [10] . Socioeconomic status was assessed using the Updated Modified Kuppuswamy SES scale for the year 2020 [20] .

Neurodevelopmental outcomes were assessed separately for the 2 age groups-1 group with children younger than 42 months (who had BSID and CBCL assessments) and 1 group with children 43 months and older (who had a WISC or WPPSI, BOT, and CBCL assessments)-and combined (Supplementary Table 2 ). Domains of vision, hearing, cognition, language, motor abilities and behavior were compared between exposed and non-GBS groups using a severity classification for NDI.

Analysis was undertaken in SPSS software version 21 (IBM Corporation). Descriptive statistics were reported using means ± SDs for continuous variables; categorical variables were reported using frequencies and percentages. Association was reported using chi-square/Fisher's exact test. Comparison of means was reported using 2 independent-samples t tests. Binary logistic regression was performed to arrive at the risk factor analysis. The odds ratio (OR) was reported along with the 95% C). A P value less than .05 was considered statistically significant.

Out of 79 iGBS survivors contacted, 35 (44.3%) consented for participation and completed the assessment ( Figure 2 ). Of the 35 children with iGBS, 33 (94.3%) had early-onset sepsis and 2 (5.7%) had late-onset sepsis. There were no significant differences in gender, prematurity, birth weight, gestational age, onset of sepsis, and rates of meningitis and chorioamnionitis between children who consented for participation and those who did not participate. Out of 158 matched non iGBS children approached (Figure 2 ). One child in the non iGBS group had sepsis not caused by GBS in the neonatal period. Initially, it was planned to recruit patients from the hospital database using sequential sampling based on closest match. We were able to recruit approximately one-third of the sample in this way. Working memory Composite score, mean (SD) 100.76 (12) 107.57 (16) .061

Working memory interpretation (n = 47) Mild impairment 2 (12) 3 (10) .697

Moderate impairment 0 3

Severe impairment 0 0 Due to the pandemic-related travel restrictions, we later used convenience sampling by offering assessments to children who came for an immunization visit and distribution of posters in the community. Participants were aged 1-14 years (mean [SD]: 4.49 [3.47]; median: 3 years). There were no significant differences in demographic variables in exposed and non iGBS groups except in birth order (P = .003) ( Table 1) . Of the parents of children who underwent treatment for GBS sepsis in our hospital who were contacted, none reported postdischarge death.

Of the 35 iGBS survivors who participated in the study, all children had GBS sepsis and 4 (11%) also had meningitis. Among iGBS survivors, 17 (48.6%) children had impairment in at least 1 of the assessed domains as compared to 25 (38%) in the non iGBS group (unadjusted OR: 1.51; 95% CI: .65-3.46); 9 (26%) children had impairment in more than 1 domain compared to 10 (15.4%) in the non iGBS group (unadjusted OR: 1.90; 95% CI: .69-5.24); and 1 (2.9%) child had moderate to severe impairment compared to 3 (4.6%) in the non iGBS group (unadjusted OR: .60; 95% CI: .06-6.07). The iGBS group had more children with motor impairments compared with the non iGBS group (unadjusted OR: 10.7; 95% CI: 1.19-95.69; P = .033). There were no differences in impairments in vision, hearing, cognitive skills (unadjusted OR: 1.51; 95% CI: .65-3.46; P = .857), language skills (unadjusted OR: 2.12; 95% CI: .85-5.28; P = .106), or behavior (unadjusted OR: .77; 95% CI: .18-3.21; P = .727) between the iGBS and non iGBS groups (Table 2, Figure 3 ).

Looking at iGBS and non iGBS groups combined, among children with "any impairment," 27 (64%) had language impairment, 20 (47%) had cognitive impairment, 6 (14%) had motor impairment, and 11 (26%) had behavioral impairment. Among children with "multi-domain impairment," 19 (100%) had language impairment, 17 (89%) had cognitive impairment, 6 (31.5%) had motor impairment, and 3 (15.7%) had behavioral impairment. Among children with "moderate to severe impairment," 3 (75%) had language impairment, 4 (100%) had cognitive impairment, and 1 (25%) had motor impairment.

There were 17 children in the exposed group and 32 in the non iGBS group below 42 months. Four children (23.5%) in the exposed group and 1 (3.1%) child in the non iGBS group had "multi-domain impairment' (P = .043).

There were 18 children in the exposed group and 33 children in the non iGBS group above 42 months. The exposed group had more children with motor impairments: 4 (23.5%) in the exposed group and 1 (3.1%) child in the non iGBS group (P = .042). There was a trend towards lower scores in the working memory subscale (P = .06) and the full-scale IQ (P = .06) in the exposed group (Table 2 ) compared with the non iGBS group. When children with "any impairment" were excluded from analysis, the exposed group had lower full-scale IQ scores than the non iGBS group (P = .014).

This study found that iGBS-exposed children had approximately 50% higher odds of NDI but this was not statistically significant (unadjusted OR: 1.51; 95% CI: .65-3.46). Children in the iGBS group had more motor impairments compared with the non iGBS group (P = .033). An important limitation of this study was the small size due to COVID-19 pandemic travel restrictions, reducing the number of both iGBS and the non iGBS children recruited. This is the first published study in Asia examining NDI among iGBS survivors using standardized developmental assessment tools across several domains, and comparing with a matched non iGBS group.

The iGBS-exposed group had 17 (48.6%) children with "any impairment" compared to 25 (38%) in the non iGBS group, 9 (26%) children with "multi-domain impairment" compared to 10 (15.4%) in the non iGBS group, and 1 (2.9%) child with "moderate to severe impairment" in the exposed group compared to 3 (4.6%) in the non iGBS group. The exposed group had more children with motor impairments compared with the non iGBS group. Studies from South Africa found GBS-affected children to be 13 times more likely to have any abnormal neurological signs when compared with non iGBS group at 6 months (5 [7.4%] in exposed and 1 [0.4%] in non-GBS) [21] , and a 3.5-fold (95% CI: 1.23-10.04-fold) increased odds of NDI compared with matched controls at 1 year (11 [24. 4%] in exposed and 10 [7.1%] in non iGBS) using abnormal Denver Developmental Screening Test II scores to define NDI [22] . A study on the association of GBS disease on NDI at a median age of 14 years found an increased risk of moderate to severe NDI with risk ratios (RRs) of 1.7 (95% CI: 1.44-2.18) in Denmark and 2.28 (1.64-3.17) in the Netherlands. In Denmark, the proportion of children with moderate to severe NDI at 10 years was 45 (4.6%) in the exposed group and 245 (2.5%) in the non iGBS group (RR: 1.82; 95% CI: 1.33-2.49). In the Netherlands, the proportion of children who received special educational support at 10 years in the exposed group was 36 (14.3%) and 157 (6.2%) in the non iGBS group [23] . A study in the United States found 2 (16%) children with neonatal GBS to have neurological impairments at 4 years [24] . Children with GBS meningitis showed a larger proportion of NDI: a meta-analysis of GBS meningitis survivors, followed up for more than 18 months reported "any NDI" in 32% (95% CI: 25-38%) of children.

There are several possibilities as to why the rates of moderate to severe NDI in this study were lower than in other studies. The small sample size and the possibility of selection bias (with families of children with less severe impairment more able to attend, especially during the pandemic) may have been factors.

In our population, survivors of GBS disease are routinely enrolled in a follow-up program postdischarge, which includes an early stimulation program. Education about developmental milestones may have sensitized the parents to the child's vulnerability, resulting in active interventions to compensate for the child's difficulties [25] , so the lower rates of impairment may reflect earlier intervention [26] . Systematic reviews have shown that, while early intervention programs may not avert moderate to severe impairment, they have positive effects on cognitive development, with little influence on motor development [27] . Another stipulation is the influence of genetic polymorphisms, such as interleukin-6 (rs1800795), which is associated with the development of cerebral palsy, which may account for racial differences in outcomes of infants seen in other studies [28, 29] . Additionally, there may be measurement error due to varying developmental assessment tools used. The Cognitive, Language, and Motor composites of the BSID-III, for example, have been shown to overestimate development, resulting in lower detection rates of NDI, when compared with the Denver Developmental Screening Test (DDST-II) [30, 31] .

In this study, most children with abnormal NDI had language impairments: 64% in "any impairment," 75% in "moderate to severe impairment," and 100% in "multi-domain impairment." This may be explained in 2 ways: the lack of culturally appropriate assessment tools or as inherent cultural differences in language acquisition. The mechanism of language development is proposed to be cultural rather than universal, implying its sensitivity to social factors and cultural context [32] .

The non iGBS group in this study has unexpected high percentages of NDI, also reported by (Harden et al, unpublished data) in this series. This study was conducted during the COVID-19 pandemic. The lockdown in India caused a disruption in schooling, with preschoolers not yet enrolled, and most children not having access to any schooling. Since the exposed children were identified and assessed first, and the non iGBS controls recruited later, the effect of the lockdown may have been more pronounced in the non iGBS group. Disasters, including pandemics or disease outbreaks, have been shown to cause short-term and lasting effects on psychological functioning, behavior, and the developmental trajectory of children [33] .

The "recovery continuum model" postulates that a child's recovery after early brain insult falls along a continuum that depends not just on injury-related factors such as nature, severity, and timing of insult but also on constitutional factors such as genetic make-up, gender and cognitive capacity, and environmental factors such as social status, access to rehabilitation, and intervention [34] . A limitation of this study is that, due to the small sample size, confounding factors could not be studied in detail; this can be addressed in future studies in this population.

Strengths of this study include using standardized multicountry approaches and NDI tools with trained assessors, as well as inclusion of a matched non iGBS group. This study was based in a referral center and may therefore not be generalizable to other populations.

Children with iGBS seem at higher risk of developing motor impairments compared with a non iGBS group. Larger studies are needed in LMICs to estimate incidences of NDI in survivors of GBS and to study environmental adversities that adversely influence child development.

Supplementary materials are available at Clinical Infectious Diseases online. Consisting of data provided by the authors to benefit the reader, the posted materials are not copyedited and are the sole responsibility of the authors, so questions or comments should be addressed to the corresponding author.

Authors' contributions. The GBS study was conceptualized by J. E. L. All site teams contributed to the design of the study protocol and undertook data collection. S. S. together with H. B. J. and A. A. developed the detailed research questions and overall analysis plan for this paper. Analysis was undertaken by G. R. S. S. provided statistical oversight. The manuscript was drafted by H. B. J. and S. S. All authors reviewed and helped to revise the manuscript. All authors reviewed and approved the final version.

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Acknowledgments. We thank all the children and their parents who took part in the study. We recognize the contributions of Mr Ramesh Krishnan in managing data, Mr Selvakumar G for translation of consent forms, Ms SujaAngelin and Ms Archana for patient recruitment and data collection, and Ms Poongodi K for her support in data entry. We express appreciation