Corrigendum: Building an open source classifier for the neonatal EEG background: a systematic feature-based approach from expert scoring to clinical visualization.

[This corrects the article DOI: 10.3389/fnhum.2021.675154.].

Severity and duration of dysglycemia and brain injury among patients with neonatal encephalopathy.

Background: Evidence is needed to inform thresholds for glycemic management in neonatal encephalopathy (NE). We investigated how severity and duration of dysglycemia relate to brain injury after NE. Methods: A prospective cohort of 108 neonates ≥36 weeks gestational age with NE were enrolled between August 2014 and November 2019 at the Hospital for Sick Children, in Toronto, Canada. Participants underwent continuous glucose monitoring for 72 h, MRI at day 4 of life, and follow-up at 18 months. Receiver operating characteristic curves were used to assess the predictive value of glucose measures (minimum and maximum glucose, sequential 1 mmol/L glucose thresholds) during the first 72 h of life (HOL) for each brain injury pattern (basal ganglia, watershed, focal infarct, posterior-predominant). Linear and logistic regression analyses were used to assess the relationship between abnormal glycemia and 18-month outcomes (Bayley-III composite scores, Child Behavior Checklist [CBCL] T-scores, neuromotor score, cerebral palsy [CP], death), adjusting for brain injury severity. Findings: Of 108 neonates enrolled, 102 (94%) had an MRI. Maximum glucose during the first 48 HOL best predicted basal ganglia (AUC = 0.811) and watershed (AUC = 0.858) injury. Minimum glucose was not predictive of brain injury (AUC <0.509). Ninety-one (89%) infants underwent follow-up assessments at 19.0 ± 1.7 months. A glucose threshold of >10.1 mmol/L during the first 48 HOL was associated with 5.8-point higher CBCL Internalizing Composite T-score (P = 0.029), 0.3-point worse neuromotor score (P = 0.035), 8.6-fold higher odds for CP diagnosis (P = 0.014). While the glucose threshold of >10.1 mmol/L during the first 48 HOL was associated with higher odds of the composite outcome of severe disability or death (OR 3.0, 95% CI 1.0-8.4, P = 0.042), it was not associated with the composite outcome of moderate-to-severe disability or death (OR 0.9, 95% CI 0.4-2.2, P = 0.801). All associations with outcome lost significance after adjusting for brain injury severity. Interpretation: Maximum glucose concentration in the first 48 HOL is predictive of brain injury after NE. Further trials are needed to assess if protocols to control maximum glucose concentrations improve outcomes after NE. Funding: Canadian Institutes for Health Research, National Institutes of Health, and SickKids Foundation.

The influence of nutrition on white matter development in preterm infants: a scoping review.

White matter (WM) injury is the most common type of brain injury in preterm infants and is associated with impaired neurodevelopmental outcome (NDO). Currently, there are no treatments for WM injury, but optimal nutrition during early preterm life may support WM development. The main aim of this scoping review was to assess the influence of early postnatal nutrition on WM development in preterm infants. Searches were performed in PubMed, EMBASE, and COCHRANE on September 2022. Inclusion criteria were assessment of preterm infants, nutritional intake before 1 month corrected age, and WM outcome. Methods were congruent with the PRISMA-ScR checklist. Thirty-two articles were included. Negative associations were found between longer parenteral feeding duration and WM development, although likely confounded by illness. Positive associations between macronutrient, energy, and human milk intake and WM development were common, especially when fed enterally. Results on fatty acid and glutamine supplementation remained inconclusive. Significant associations were most often detected at the microstructural level using diffusion magnetic resonance imaging. Optimizing postnatal nutrition can positively influence WM development and subsequent NDO in preterm infants, but more controlled intervention studies using quantitative neuroimaging are needed. IMPACT: White matter brain injury is common in preterm infants and associated with impaired neurodevelopmental outcome. Optimizing postnatal nutrition can positively influence white matter development and subsequent neurodevelopmental outcome in preterm infants. More studies are needed, using quantitative neuroimaging techniques and interventional designs controlling for confounders, to define optimal nutritional intakes in preterm infants.

Seizure Burden and Neurologic Outcomes After Neonatal Encephalopathy.

BACKGROUND AND OBJECTIVES: Seizures are common during neonatal encephalopathy (NE), but the contribution of seizure burden (SB) to outcomes remains controversial. This study aims to examine the relationship between electrographic SB and neurologic outcomes after NE. METHODS: This prospective cohort study recruited newborns ≥36 weeks postmenstrual age around 6 hours of life between August 2014 and November 2019 from a neonatal intensive care unit (NICU). Participants underwent continuous electroencephalography for at least 48 hours, brain MRI within 3-5 days of life, and structured follow-up at 18 months. Electrographic seizures were identified by board-certified neurophysiologists and quantified as total SB and maximum hourly SB. A medication exposure score was calculated based on all antiseizure medications given during NICU admission. Brain MRI injury severity was classified based on basal ganglia and watershed scores. Developmental outcomes were measured using the Bayley Scales of Infant Development, Third Edition. Multivariable regression analyses were performed, adjusting for significant potential confounders. RESULTS: Of 108 enrolled infants, 98 had continuous EEG (cEEG) and MRI data collected, of which 5 were lost to follow-up, and 6 died before age 18 months. All infants with moderate-severe encephalopathy completed therapeutic hypothermia. cEEG-confirmed neonatal seizures occurred in 21 (24%) newborns, with a total SB mean of 12.5 ± 36.4 minutes and a maximum hourly SB mean of 4 ± 10 min/h. After adjusting for MRI brain injury severity and medication exposure, total SB was significantly associated with lower cognitive (-0.21, 95% CI -0.33 to -0.08, p = 0.002) and language (-0.25, 95% CI -0.39 to -0.11, p = 0.001) scores at 18 months. Total SB of 60 minutes was associated with 15-point decline in language scores and 70 minutes for cognitive scores. However, SB was not significantly associated with epilepsy, neuromotor score, or cerebral palsy (p > 0.1). DISCUSSION: Higher SB during NE was independently associated with worse cognitive and language scores at 18 months, even after adjusting for exposure to antiseizure medications and severity of brain injury. These observations support the hypothesis that neonatal seizures occurring during NE independently contribute to long-term outcomes.

Pearls & Oy-sters: Genetic Epilepsy: An Important Cause of Neonatal Seizures in Infants With Complex Congenital Heart Disease.

Genetic epilepsies, such as KCNQ2 gene variants, though uncommon, are potential causes of neonatal seizures in infants with complex congenital heart disease (CHD). KCNQ2-related seizures commonly present as tonic posturing with autonomic changes and a distinctive amplitude-integrated EEG (aEEG) pattern with increase in amplitude immediately followed by background suppression. Seizures are typically refractory to commonly used antiepileptics in this age group and respond best to sodium channel blockers such as carbamazepine and fosphenytoin. We report the cases of two neonates with complex CHD who presented with seizures secondary to KCNQ2 gene variation and how early recognition of clinical and EEG features led to early treatment and improved seizure burden. When investigating the etiology of neonatal seizures in the perioperative complex cardiac infant, genetic etiologies, such as KCNQ2 variants should be considered, particularly in the absence of clinical exam and neuroimaging features consistent with brain injury. These two cases highlight the importance of a precision medicine approach utilizing clinical examination and seizure semiology, bedside aEEG monitoring, genetic testing, and targeted treatments to improve patient care and outcomes.

Early neonatal heart rate variability patterns in different subtypes of perinatal hypoxic-ischemic brain injury.

BACKGROUND: This study aims to compare the longitudinal changes in heart rate variability (HRV) during therapeutic hypothermia in neonates with different subtypes of hypoxic-ischemic brain injury. METHODS: HRV was computed from 1 hour time-epochs q6 hours for the first 48 hours. Primary outcome was brain-injury pattern on MRI at 4(3-5) days. We fitted linear mixed-effect regression models with HRV metric, brain injury subtype and postnatal age. RESULTS: Among 89 term neonates, 40 neonates had abnormal brain MRI (focal infarct 15 (38%), basal-ganglia predominant 8 (20%), watershed-predominant 5 (13%), and mixed pattern 12 (30%)). There was no significant difference in the HRV metrics between neonates with normal MRI, focal infarcts and basal ganglia pattern. At any given postnatal age, the degree of HRV suppression (HRV measure in the brain-injury subtype group/HRV measure in Normal MRI group) was significant in neonates with watershed pattern (SDNN(0.63, p = 0.08), RMSSD(0.74, p = 0.04)) and mixed pattern injury (SDNN (0.64, p < 0.001), RMSSD (0.75, p = 0.02)). HRV suppression was most profound at the postnatal age of 24-30 h in all brain injury subtypes. CONCLUSION: Neonates with underlying watershed injury with or without basal-ganglia injury demonstrates significant HRV suppression during first 48 hour of hypothermia therapy. IMPACT: Our study suggests that suppression of heart rate variability in neonates during therapeutic hypothermia varies according to the pattern of underlying hypoxic-ischemic brain injury. Neonates with watershed predominant pattern and mixed pattern of brain injury have the most severe suppression of heart rate variability measures. Heart rate variability monitoring may provide early insights into the pattern of hypoxic-ischemic brain injury in neonates undergoing therapeutic hypothermia earlier than routine clinical MRI.

Clinical Feasibility of Structural and Functional MRI in Free-Breathing Neonates and Infants.

BACKGROUND: Evaluation of structural lung abnormalities with magnetic resonance imaging (MRI) has previously been shown to be predictive of clinical neonatal outcomes in preterm birth. MRI during free-breathing with phase-resolved functional lung (PREFUL) may allow for complimentary functional information without exogenous contrast. PURPOSE: To investigate the feasibility of structural and functional pulmonary MRI in a cohort of neonates and infants with no cardiorespiratory disease. Macrovascular pulmonary blood flows were also evaluated. STUDY TYPE: Prospective. POPULATION: Ten term infants with no clinically defined cardiorespiratory disease were imaged. Infants recruited from the general population and neonatal intensive care unit (NICU) were studied. FIELD STRENGTH/SEQUENCE: T1 -weighted VIBE, T2 -weighted BLADE uncorrected for motion. Ultrashort echo time (UTE) and 3D-flow data were acquired during free-breathing with self-navigation and retrospective reconstruction. Single slice 2D-gradient echo (GRE) images were acquired during free-breathing for PREFUL analysis. Imaging was performed at 3 T. ASSESSMENT: T1 , T2 , and UTE images were scored according to the modified Ochiai scheme by three pediatric body radiologists. Ventilation/perfusion-weighted maps were extracted from free-breathing GRE images using PREFUL analysis. Ventilation and perfusion defect percent (VDP, QDP) were calculated from the segmented ventilation and perfusion-weighted maps. Time-averaged cardiac blood velocities from three-dimensional-flow were evaluated in major pulmonary arteries and veins. STATISTICAL TEST: Intraclass correlation coefficient (ICC). RESULTS: The ICC of replicate structural scores was 0.81 (95% CI: 0.45-0.95) across three observers. Elevated Ochiai scores, VDP, and QDP were observed in two NICU participants. Excluding these participants, mean ± standard deviation structural scores were 1.2 ± 0.8, while VDP and QDP were 1.0% ± 1.1% and 0.4% ± 0.5%, respectively. Main pulmonary arterial blood flows normalized to body surface area were 3.15 ± 0.78 L/min/m2 . DATA CONCLUSION: Structural and functional pulmonary imaging is feasible using standard clinical MRI hardware (commercial whole-body 3 T scanner, table spine array, and flexible thoracic array) in free-breathing infants. EVIDENCE LEVEL: 2 TECHNICAL EFFICACY: Stage 1.

Hyperglycemia associated with acute brain injury in neonatal encephalopathy.

OBJECTIVE: To identify how alterations in glucose levels are associated with regional brain injury in neonatal encephalopathy. METHODS: This was a prospective cohort study of 102 newborns with neonatal encephalopathy, with continuous glucose monitoring for 72 h. 97 (95%) completed 72 h of therapeutic hypothermia. Brain imaging around day 5 of life included diffusion tensor imaging and MR spectroscopy. Regions of interest were placed for both DTI and MR spectroscopy, and tractography of the optic radiation and corticospinal tract were evaluated. Linear regression models related each MR metric with minimum and maximum glucose values during each day of life, adjusting for 5-minute Apgar scores and umbilical artery pH. RESULTS: Higher maximum glucose levels on the first day of life were associated with widespread changes in mean diffusivity in the anterior and posterior white matter, splenium of the corpus callosum, lentiform nucleus, pulvinar nucleus of the thalamus, posterior limb of the internal capsule, and optic radiations, thus including regions traditionally associated with hypoxia-ischemia or hypoglycemia. No associations were found between lower minimum glucose levels and DTI changes in any regions tested, or between glucose levels and MR spectroscopy. CONCLUSIONS: In this cohort of neonatal encephalopathy with therapeutic hypothermia, higher maximal glucose on the first day of life was associated with widespread microstructural changes, but lower minimum glucose levels were not associated with changes in any of the regions tested. Long-term follow-up will determine if imaging findings translate to long-term outcomes.

Training in neonatal neurocritical care: a proposal for a hybrid model of competence by design and time-based methods.

BACKGROUND: Neonatal neurocritical care (NNCC) is a rapidly advancing field with limited fellowship training available in locally developed, non-accredited programs. A standardized survey aimed to understand the training backgrounds of individuals practicing NNCC, the structure of existing clinical NNCC services/training programs, and suggested clinical competencies for new graduates. METHODS: We developed an anonymous survey electronically sent to members of societies related to NNCC. Using the survey results as a guide, we discuss a competence by design (CBD) curriculum as a complementary approach to traditional time-based training. RESULTS: There were 82 responses to the survey from 30 countries; 95% of respondents were physicians. Thirty-one (42%) institutions reported having an NNCC service, 24 (29%) individuals reported formal NNCC training, 81% reported "significant variability" across NNCC training programs, and 88% were both in favor of standardizing training programs and pursuing formal accreditation for NNCC in the next 5 years. CONCLUSIONS: The survey results demonstrate international interest in standardizing NNCC training and development of an accreditation or certification process. We propose consideration of a CBD-type curriculum as a training approach to focus on the development of specific NNCC competencies, rather than assuming the acquisition of these competencies based on time as a surrogate. IMPACT: Continued growth and development in the field of NNCC has led to increasing need for training programs suited to meet the diverse needs of trainees from varied backgrounds. We present the results of an international survey that assessed the structure of existing training programs and the priority areas in which graduates must demonstrate competence, highlighting the combination of CBD and time-based training as one approach to address these recommendations. The survey results support interest in translating published training competencies, existing expertise, and infrastructure across centers into a standardized curriculum for NNCC including certification opportunities.

Building an Open Source Classifier for the Neonatal EEG Background: A Systematic Feature-Based Approach From Expert Scoring to Clinical Visualization.

Neonatal brain monitoring in the neonatal intensive care units (NICU) requires a continuous review of the spontaneous cortical activity, i.e., the electroencephalograph (EEG) background activity. This needs development of bedside methods for an automated assessment of the EEG background activity. In this paper, we present development of the key components of a neonatal EEG background classifier, starting from the visual background scoring to classifier design, and finally to possible bedside visualization of the classifier results. A dataset with 13,200 5-minute EEG epochs (8-16 channels) from 27 infants with birth asphyxia was used for classifier training after scoring by two independent experts. We tested three classifier designs based on 98 computational features, and their performance was assessed with respect to scoring system, pre- and post-processing of labels and outputs, choice of channels, and visualization in monitor displays. The optimal solution achieved an overall classification accuracy of 97% with a range across subjects of 81-100%. We identified a set of 23 features that make the classifier highly robust to the choice of channels and missing data due to artefact rejection. Our results showed that an automated bedside classifier of EEG background is achievable, and we publish the full classifier algorithm to allow further clinical replication and validation studies.

Intervention experiences among children with congenital and neonatal conditions impacting brain development: patterns of service utilization, barriers and future directions.

OBJECTIVE: The current study examined reported patterns of utilization and barriers to early and school-age interventions, as well as directions for future care, among families of children with congenital or neonatal conditions with known-risk for poor neurocognitive development. The impact of the child's severity of injury, condition and adaptive functioning, as well as family sociodemographic factors were considered. METHODS: The sample included 62 parents (53 mothers, 5 fathers, 4 mother-father pairs) of children diagnosed with neonatal stroke, hypoxia ischemic encephalopathy (HIE), and congenital heart disease (CHD) ranging in age between 3 to 9 years (mean age = 4.5 years, SD = 1.82). RESULTS: In this sample, approximately 80% of children were reported to have had utilized one or more therapies. The most frequent services utilized included: (a) speech and language therapy, (b) occupational therapy, and (c) physical therapy. Less than 10% of sample reported utilizing any psychological therapies. Common family barriers to all interventions included time off work, lack of childcare, and transportation. Parents of children with more severe injury or condition reported that their children were utilizing a greater number of interventions and also perceived a greater number of barriers. Over half of the parents expressed a need for more parent support groups, remote psychosocial services, and individualized psychological therapy for themselves or their family. CONCLUSIONS: Findings highlight patterns of utilization and perceived gaps in early and school-age interventions for children with congenital or neonatal conditions that impact neurodevelopment. Direction for clinical care and improved intervention opportunities are discussed.

Abnormalities in evoked potentials associated with abnormal glycemia and brain injury in neonatal hypoxic-ischemic encephalopathy.

OBJECTIVE: To investigate how functional integrity of ascending sensory pathways measured by visual and somatosensory evoked potentials (VEP & SEP) is associated with abnormal glycemia and brain injury in newborns treated with hypothermia for hypoxic-ischemic encephalopathy (HIE). METHODS: Fifty-four neonates ≥ 36 weeks gestational age with HIE underwent glucose testing, VEPs, SEPs, and magnetic resonance imaging (MRI) the first week of life. Minimum and maximum glucose values recorded prior to evoked potential (EP) testing were compared with VEP and SEP measures using generalized estimating equations. Relationships between VEP and SEP measures and brain injury on MRI were assessed. RESULTS: Maximum glucose is associated with decreased P200 amplitude, and increased odds that N300 peak will be delayed/absent. Minimum glucose is associated with decreased P22 amplitude. Presence of P200 and N300 peaks is associated with decreased odds of brain injury in the visual processing pathway, with delayed/absent N300 peak associated with increased odds of brain injury in posterior white matter. CONCLUSIONS: Deviations from normoglycemia are associated with abnormal EPs, and abnormal VEPs are associated with brain injury on MRI in cooled neonates with HIE. SIGNIFICANCE: Glucose is a modifiable risk factor associated with atypical brain function in neonates with HIE despite hypothermia treatment.

Location and Size of Preterm Cerebellar Hemorrhage and Childhood Development.

OBJECTIVE: To examine the association between cerebellar hemorrhage (CBH) size and location and preschool-age neurodevelopment in very preterm neonates. METHODS: Preterm magnetic resonance images of 221 very preterm neonates (median gestational age = 27.9 weeks) were manually segmented for CBH quantification and location. Neurodevelopmental assessments at chronological age 4.5 years included motor (Movement Assessment Battery for Children, 2nd Edition [MABC-2]), visuomotor integration (Beery-Buktenica Developmental Test of Visual-Motor Integration, 6th Edition), cognitive (Wechsler Primary and Preschool Scale of Intelligence, 3rd Edition), and behavioral (Child Behavior Checklist) outcomes. Multivariable linear regression models examined the association between CBH size and 4.5-year outcomes accounting for sex, gestational age, and supratentorial injury. Probabilistic maps assessed CBH location and likelihood of a lesion to predict adverse outcome. RESULTS: Thirty-six neonates had CBH: 14 (6%) with only punctate CBH and 22 (10%) with ≥1 larger CBH. CBH occurred mostly in the inferior aspect of the posterior lobes. CBH total volume was independently associated with MABC-2 motor scores at 4.5 years (ß = -0.095, 95% confidence interval = -0.184 to -0.005), with a standardized ß coefficient (-0.16) that was similar to that of white matter injury volume (standardized ß = -0.22). CBH size was similarly associated with visuomotor integration and externalizing behavior but not cognition. Voxelwise odds ratio and lesion-symptom maps demonstrated that CBH extending more deeply into the cerebellum predicted adverse motor, visuomotor, and behavioral outcomes. INTERPRETATION: CBH size and location on preterm magnetic resonance imaging were associated with reduced preschool motor and visuomotor function and more externalizing behavior independent of supratentorial brain injury in a dose-dependent fashion. The volumetric quantification and localization of CBH, even when punctate, may allow opportunity to improve motor and behavioral outcomes by providing targeted intervention. ANN NEUROL 2020;88:1095-1108.

Sensory assessment: Neurophysiology in neonates and neurodevelopmental outcome.

Neurophysiological studies, including electroencephalography (EEG) and evoked potentials (EPs), are helpful bedside tools for assessing neurologic function and helping with prediction of long-term neurodevelopmental outcomes following brain injury in preterm and term newborns. In this chapter, we describe the use of electroencephalography, including both amplitude-integrated EEG and continuous video EEG, and EPs, including visual, somatosensory, and brainstem auditory EPs, in the neonatal period. We review the current literature on the utility of these neurophysiological studies in the prediction of long-term outcomes in preterm and term newborns.

The Response to Stress Questionnaire for Parents Following Neonatal Brain Injury.

OBJECTIVE: The Response to Stress Questionnaire-Brain Injury (RSQ-BI) was adapted utilizing a patient-oriented approach, exploring parental stress, coping, and associated mental health outcomes in parents of children with neonatal brain injury. The contributions of social risk, child adaptive functioning, and brain injury severity were also explored. METHODS: Using a mixed-method design, this study explored adapted stressor items on the RSQ-BI. Parents and clinicians engaged in semistructured interviews to examine key stressors specific to being a parent of a child with neonatal brain injury. The adapted RSQ-BI was piloted in a parent sample (N = 77, child mean age 1 year 7 months) with established questionnaires of social risk, child adaptive functioning, severity of the child's injury, coping style, and parent mental health. Descriptive statistics and correlations examined parent stress, coping, and their association with parent mental health. RESULTS: The final RSQ-BI questionnaire included 15 stressors. Factor analysis showed stressors loaded onto two factors related to (a) daily role stressors and (b) brain injury stressors. Using the RSQ-BI, parents reported brain injury stressors as more stressful than daily role stressors. When faced with these stressors, parents were most likely to engage in acceptance-based coping strategies and demonstrated lower symptoms of parent depression and anxiety. CONCLUSIONS: The RSQ-BI provides a valuable adaptation to understand both stressors and coping specific to being a parent of a child with neonatal brain injury. Relevant interventions that promote similar coping techniques are discussed for future care and research.

Predictors of Long-Term Neurodevelopmental Outcome of Hypoxic-Ischemic Encephalopathy Treated with Therapeutic Hypothermia.

Hypoxic-ischemic encephalopathy (HIE) is a manifestation of perinatal asphyxial insult that continues to evolve over days to weeks following the initial injury. Therapeutic hypothermia has demonstrated that a proportion of this secondary brain injury may indeed be preventable. However, therapeutic hypothermia has also altered the prognostic utility of many bedside tools that are commonly used as predictors of long-term neurodevelopmental outcome in HIE. Clinicians are often confronted with uncertainty when assessing the prognosis of infants with HIE. Improved understanding of the implications and limitations of individual investigations may inform clinical decisions and allow for timely intervention. This review summarizes the predictive value of currently available prognostic markers in HIE infants in the therapeutic hypothermia era, including clinical, biochemical, neurophysiological, physiological, and neuroimaging predictors.

Understanding Early Childhood Resilience Following Neonatal Brain Injury From Parents' Perspectives Using a Mixed-Method Design.

OBJECTIVES: The current study used a mixed-method design to qualitatively examine parents' definitions of resilience and factors they believed optimized their child's early outcome following neonatal brain injury. This was followed by quantitative analyses of early developmental and mental health outcomes and their relation to salient biopsychosocial factors. METHODS: Participants were parents of children diagnosed with neonatal brain injury due to stroke or hypoxic-ischemic encephalopathy (N=51; age range of children 18 months to 8 years). The Parent Experiences Questionnaire (PEQ) was used to qualitatively analyze parents' open-ended responses about their child's early experiences and outcome. The Child Behavior Checklist (CBCL) and Scales of Independent Behaviour Early Developmental Form (SIB-ED) parent ratings were used to measure child resilience from a quantitative perspective, identifying "at-risk" and "resilient" children using standard cutoffs. "Resilient" and "at-risk" children were compared on biopsychosocial variables using univariate t tests and chi-square analyses. RESULTS: Parents provided five unique definitions of their child's positive outcomes, and many children demonstrated resilience based on parent perspectives and quantitative definitions. Supporting factors included close medical follow-up, early intervention, and intrinsic factors within the child and parent. Group comparisons of "resilient" and "at-risk" children highlighted the importance of parent mental health across these early developmental and mental health outcomes. CONCLUSIONS: Many children were described as resilient during the early years by parents using qualitative and quantitative approaches. Findings highlighted the importance of parent well-being in promoting optimal early outcomes. (JINS, 2019, 25, 390-402.).