Family Outcomes After the Pediatric Intensive Care Unit: A Scoping Review.

BACKGROUND: Intensivists are increasingly attuned to the postdischarge outcomes experienced by families because patient recovery and family outcomes are interdependent after childhood critical illness. In this scoping review of international contemporary literature, we describe the evidence of family effects and functioning postpediatric intensive care unit (PICU) as well as outcome measures used to identify strengths and weaknesses in the literature. METHODS: We reviewed all articles published between 1970 and 2017 in PubMed, Embase, PsycINFO, Cumulative Index of Nursing and Allied Health Literature (CINAHL), or the Cochrane Controlled Trials Registry. Our search used a combination of terms for the concept of "critical care/illness" combined with additional terms for the prespecified domains of social, cognitive, emotional, physical, health-related quality of life (HRQL), and family functioning. RESULTS: We identified 71 articles reporting on the postPICU experience of more than 2400 parents and 3600 families of PICU survivors in 8 countries. These articles used 101 different metrics to assess the various aspects of family outcomes; 34 articles also included open-ended interviews. Overall, most families experienced significant disruption in at least five out of six of our family outcomes subdomains, with themes of decline in mental health, physical health, family cohesion, and family finances identified. Almost all articles represented relatively small, single-center, or disease-specific observational studies. There was a disproportionate representation of families of higher socioeconomic status (SES) and Caucasian race, and there was much more data about mothers compared to fathers. There was also very limited information regarding outcomes for siblings and extended family members after a child's PICU stay. CONCLUSIONS: Significant opportunities remain for research exploring family functioning after PICU discharge. We recommend that future work include more diverse populations with respect to the critically ill child as well as family characteristics, include more intervention studies, and enrich existing knowledge about outcomes for siblings and extended family.

Potential Neurodevelopmental Effects of Pediatric Intensive Care Sedation and Analgesia: Repetitive Benzodiazepine and Opioid Exposure Alters Expression of Glial and Synaptic Proteins in Juvenile Rats.

Sedatives are suspected contributors to neurologic dysfunction in PICU patients, to whom they are administered during sensitive neurodevelopment. Relevant preclinical modeling has largely used comparatively brief anesthesia in infant age-approximate animals, with insufficient study of repetitive combined drug administration during childhood. We hypothesized that childhood neurodevelopment is selectively vulnerable to repeated treatment with benzodiazepine and opioid. We report a preclinical model of combined midazolam and morphine in early childhood age-approximate rats. DESIGN: Animal model. SETTING: Basic science laboratory. SUBJECTS: Male and female Long-Evans rats. INTERVENTIONS: Injections of morphine + midazolam were administered twice daily from postnatal days 18-22, tapering on postnatal days 23 and 24. Control groups included saline, morphine, or midazolam. To screen for acute neurodevelopmental effects, brain homogenates were analyzed by western blot for synaptophysin, drebrin, glial fibrillary acidic protein, S100 calcium-binding protein B, ionized calcium-binding adaptor molecule 1, and myelin basic proteins. Data analysis used Kruskal-Wallis with Dunn posttest, with a p value of less than 0.05 significance. MEASUREMENTS AND MAIN RESULTS: Morphine + midazolam and morphine animals gained less weight than saline or midazolam (p ≤ 0.01). Compared with saline, morphine + midazolam expressed significantly higher drebrin levels (p = 0.01), with numerically but not statistically decreased glial fibrillary acidic protein. Similarly, morphine animals exhibited less glial fibrillary acidic protein and more S100 calcium-binding protein B and synaptophysin. Midazolam animals expressed significantly more S100 calcium-binding protein B (p < 0.001) and 17-18.5 kDa myelin basic protein splicing isoform (p = 0.01), with numerically increased synaptophysin, ionized calcium-binding adaptor molecule 1, and 21.5 kDa myelin basic protein, and decreased glial fibrillary acidic protein. CONCLUSIONS: Analysis of brain tissue in this novel rodent model of repetitive morphine and midazolam administration showed effects on synaptic, astrocytic, microglial, and myelin proteins. These findings warrant further investigation because they may have implications for critically ill children requiring sedation and analgesia.

Abnormal downward gaze and cold caloric examination due to propofol: a case study.

BACKGROUND: An adolescent girl had isolated abnormal downward gaze and oculovestibular (cold caloric) testing during propofol administration, prompting concern for brainstem abnormality. PATIENT: An otherwise healthy 16-year-old girl presented after an intentional hanging. Brainstem reflexes were normal except that both eyes exhibited tonic downward gaze on initial examination. After propofol was suspended for 30 minutes in order to evaluate her level of responsiveness, her eyes normalized to midposition from tonic downward gaze. With reinitiation of propofol, the eyes returned to the former downward position. C-collar stabilization prohibited the usual oculocephalic (doll's eyes) evaluation. Right-sided cold water instillation resulted in right eye exodeviation to the right with minimal medial movement of the left eye to the right. After left-sided cold water instillation, the left eye deviated downward with minimal medial deviation of the right eye. She was extubated and off sedatives within 48 hours of admission, and normal ocular motility returned. CONCLUSION: This patient exhibited abnormal ocular motility and cold caloric response with single-agent propofol exposure. The remainder of her cranial nerve examination was normal, and her normal imaging studies and prompt resolution led us to suspect a propofol effect. Physicians should be aware of the pharmacologic alterations of ocular motility and cold caloric testing when propofol is administered.

MRI assessment of cerebral blood flow after experimental traumatic brain injury combined with hemorrhagic shock in mice.

Secondary insults such as hypotension or hemorrhagic shock (HS) can greatly worsen outcome after traumatic brain injury (TBI). We recently developed a mouse combined injury model of TBI and HS using a controlled cortical impact (CCI) model and showed that 90 minutes of HS can exacerbate neuronal death in hippocampus beneath the contusion. This combined injury model has three clinically relevant phases, a shock, pre hospital, and definitive care phases. Mice were randomly assigned to four groups, shams as well as a CCI only, an HS only, and a CCI+HS groups. The CCI and HS reduced cerebral blood flow (CBF) in multiple regions of interest (ROIs) in the hemisphere ipsilateral and contralateral to injury. Hemorrhagic shock to a level of ∼30 mm Hg exacerbated the CCI-induced CBF reductions in multiple ROIs ipsilateral to injury (hemisphere and thalamus) and in the hemisphere contralateral to injury (hemisphere, thalamus, hippocampus, and cortex, all P<0.05 versus CCI only, HS only or both). An important effect of HS duration was also seen after CCI with maximal CBF reduction seen at 90 minutes (P<0.0001 group-time effect in ipsilateral hippocampus). Given that neuronal death in hippocampus is exacerbated by 90 minutes of HS in this model, our data suggest an important role for exacerbation of posttraumatic ischemia in mediating the secondary injury in CCI plus HS. In conclusion, the serial, non invasive assessment of CBF using ASL-MRI (magnetic resonance imaging with arterial spin labeling) is feasible in mice even in the complex setting of combined CCI+HS. The impact of resuscitation therapies and various mutant mouse strains on CBF and other outcomes merits investigation in this model.