Pediatric neurointensive care: 2008 update for the Rogers' Textbook of Pediatric Intensive Care

Protein Network Analysis of the Serum and Their Functional Implication in Patients Subjected to Traumatic Brain Injury

Traumatic brain injury (TBI) often leads to severe neurobehavioral impairment, but the underlying molecular mechanism remains to be elucidated. Here, we collected the sera from 23 patients (aged from 19 to 81 years old, third day after TBI as TBI-third group) subjected to TBI from The First Hospital of Kunming City, and the sera from 22 healthy donors (aged from 18 to 81 years old and as control group). Then, three samples from TBI-third group and three samples from control group were subjected to the protein microarray detection, and bioinformatics analysis. Then, enzyme-linked immunosorbent assay (ELISA) was used to verify significantly altered protein levels. Results showed that, when compared with the control group, all significantly differentially expressed proteins [DEPs, P < 0.05, FDR < 0.05, fold change (FC) > 2] contained 172 molecules in the TBI-third group, in which 65 proteins were upregulated, while 107 proteins were downregulated. The biological processes of these DEPs, mostly happened in the extracellular region and the extracellular region parts, are mainly involved in the regulation of cellular process, signaling and signal transduction, cell communication, response to stimuli, the immune system process and multicellular organismal development. Moreover, the essential molecular functions of them are cytokine activity, growth factor activity and morphogen activity. Additionally, the most significant pathways are enriched in cytokine–cytokine receptor interaction and PI3K-Akt signaling pathways among downregulated proteins, and pathways in cancer and cytokine–cytokine receptor interaction among upregulated proteins. Of these, we focused on the NGF, NT-3, IGF-2, HGF, NPY, CRP, MMP-9, and ICAM-2 with a high number of interactors in Protein–Protein Interaction (PPI) Network indicated by bioinformatics report. Furthermore, using ELISA test, we confirmed that all increase in the levels of NGF, NT-3, IGF-2, HGF, NPY, CRP, MMP-9, and ICAM-2 in the serum from TBI patients. Together, we determined the screened protein expressional profiles in serum for TBI patients, in which the cross-network between inflammatory factors and growth factors may play a crucial role in TBI damage and repair. Our findings could contribute to indication for the diagnosis and treatment of TBI in future translational medicine and clinical practice.

Functional progression of patients with neurological diseases in a tertiary paediatric intensive care unit: Our experience

INTRODUCTION

Neurological diseases explain a considerable proportion of admissions to paediatric intensive care units (PICU), and are a significant cause of morbidity and mortality. This study aims to analyse the functional progression of children with critical neurological conditions.

MATERIAL AND METHODS

Retrospective descriptive study of children admitted to PICU with neurological diseases over a period of 3 years (2012-2014), assessing vital and functional prognosis at PICU discharge and at one year according to the Pediatric Cerebral and Overall Performance Category scales (PCPC-POPC) and the Functional Status Scale (FSS). The results are compared with our previous data (1990-1999), and those of the international multicentre PANGEA study.

RESULTS

A total of 266 children were studied. The mortality rate was 3%; the PRISM-III and PIM2 models did not show predictive ability. Clinically significant worsening was observed in functional health at discharge in 30% of the sample, according to POPC, 15% according to PCPC, and 5% according to FSS. After one year, functional performance improved according to PCPC-POPC, but not according to FSS. Children with no underlying neurological disease had a higher degree of functional impairment; this was prolonged over time. We observed a decrease in overall and neurocritical mortality compared with our previous data (5.60 vs. 2.1%, P=.0003, and 8.44 vs. 2.63%, P=.0014, respectively). Compared with the PANGEA study, both mortality and cerebral functional impairment in neurocritical children were lower in our study (1.05 vs. 13.32%, P<.0001, and 10.47% vs. 23.79%, P<.0001, respectively).

CONCLUSIONS

Nearly one-third of critically ill children have neurological diseases. A significant percentage, mainly children without underlying neurological diseases, had a clinically significant functional impact at PICU discharge and after a year. Neuromonitoring and neuroprotection measures and the evaluation of functional progression are necessary to improve critical child care.

Pediatric Neurocritical Care: A Short Survey of Current Perceptions and Practices

BACKGROUND

Although attention to neurologic injuries and illnesses in pediatric critical care is not new, a sub-specialized field of pediatric neurocritical care has only recently been recognized. Pediatric neurocritical care is an emerging area of clinical and investigative focus. Little is known about the prevalence of specialized pediatric neurocritical care services nor about perceptions regarding how it is impacting medical practice. This survey sought to capture perceptions about an emerging area of specialized pediatric neurocritical care among practitioners in intersecting disciplines, including pediatric intensivists, pediatric neurologits and pediatric neurosurgeons.

METHODS

A web-based survey was distributed via email to members of relevant professional societies and groups. Survey responses were analyzed using descriptive statistics. Differences in responses between groups of respondents were analyzed using Chi-squared analysis where appropriate.

MAIN RESULTS

Specialized clinical PNCC programs were not uncommon among the survey respondents with 20% currently having a PNCC service at their institution. Despite familiarity with this area of sub-specialization among the survey respondents, the survey did not find consensus regarding its value. Overall, 46% of respondents believed that a specialized clinical PNCC service improves the quality of care of critically ill children. Support for PNCC sub-specialization was more common among pediatric neurologists and pediatric neurosurgeons than pediatric intensivists. This survey found support across specialties for creating PNCC training pathways for both pediatric intensivists and pediatric neurologists with an interest in this specialized field.

CONCLUSIONS

PNCC programs are not uncommon; however, there is not clear agreement on the optimal role or benefit of this area of practice sub-specialization. A broader dialog should be undertaken regarding the emerging practice of pediatric neurocritical care, the potential benefits and drawbacks of this partitioning of neurology and critical care medicine practice, economic and other practical factors, the organization of clinical support services, and the formalization of training and certification pathways for sub-specialization.

Hospitalizations of children with neurologic disorders in the United States

OBJECTIVES

Although neurologic disorders are among the most serious acute pediatric illnesses, epidemiologic data are scarce. We sought to determine the scope and outcomes of children with these disorders in the United States.

DESIGN

Retrospective cohort study.

SETTING

All nonfederal hospitals in 11 states encompassing 38% of the U.S. pediatric population.

PATIENTS

Children 29 days to 19 years old hospitalized in 2005.

INTERVENTIONS

None.

MEASUREMENTS AND MAIN RESULTS

Using International Classification of Diseases, 9th Revision, Clinical Modification, codes, we identified admissions with neurologic diagnoses, analyzed patient and hospitalization characteristics, and generated age- and sex-adjusted national estimates. Of 960,020 admissions in the 11 states, 10.7% (103,140) included a neurologic diagnosis, which yields a national estimate of 273,900 admissions of children with neurologic diagnoses. The most common were seizures (53.9%) and traumatic brain injury (17.3%). Children with neurologic diagnoses had nearly three times greater ICU use than other hospitalized children (30.6% vs 10.6%, p < 0.001). Neurologic diagnoses were associated with nearly half of deaths (46.2%, n = 1,790). Among ICU patients, children with neurologic diagnoses had more than three times the mortality of other patients (4.8% vs1.5%, p < 0.001). Children with neurologic diagnoses had a significantly longer median hospital length of stay than other children (3 d [1, 5] vs 2 d [2, 4], p < 0.001) and greater median hospital costs ($4,630 [$2,380, $9,730] vs $2,840 [$1,520, $5,550], p < 0.001).

CONCLUSIONS

Children with neurologic diagnoses account for a disproportionate amount of ICU stays and deaths compared with children hospitalized for other reasons.

An interdisciplinary fetal/neonatal neurology program

A fetal/neonatal neurology program should encompass interdisciplinary service, educational and research objectives, merging curricula concerning maternal, placental, fetal and neonatal contributions to brain health and disease. This approach is anchored by research in early life programming that demonstrates that prenatal and postnatal factors influence long-term neurologic health. This concept also supports the design of neuroprotective interventions during critical periods of brain development when brain circuitries more optimally adapt to maturational challenges. Preventive, rescue and repair protocols will transform pediatric medical practices, to promote improved childhood outcomes. Inclusion of life-course science and research will identify medical and socioeconomic factors that favorably or adversely affect quality of life into adulthood. Greater awareness of the convergence of developmental origins of brain health and disease and developmental aging theories will influence public health policies, to encourage financial support for programs that will improve the quality of life for the child and adult.

Cardiac arrest in children

Major advances in the field of pediatric cardiac arrest (CA) were made during the last decade, starting with the publication of pediatric Utstein guidelines, the 2005 recommendations by the International Liaison Committee on Resuscitation, and culminating in multicenter collaborations. The epidemiology and pathophysiology of in-hospital and out-of-hospital CA are now well described. Four phases of CA are described and the term “post-cardiac arrest syndrome” has been proposed, along with treatment goals for each of its four phases: immediate post-arrest, early post-arrest, intermediate and recovery phase. Hypothermia is recommended to be considered as a therapy for post-CA syndrome in comatose patients after CA, and large multicenter prospective studies are underway. We reviewed landmark articles related to pediatric CA published during the last decade. We present the current knowledge of epidemiology, pathophysiology and treatment of CA relevant to pre-hospital and acute care health practitioners.

Severe head injury in children: intensive care unit activity and mortality in England and Wales

OBJECTIVE

To explore the relationship between volume of paediatric intensive care unit (PICU) head injury (HI) admissions, specialist paediatric neurosurgical PICU practice, and mortality in England and Wales.

METHODS

Analysis of HI cases (age  <16 years) from the Paediatric Intensive Care Audit Network national cohort of sequential PICU admissions in 27 units in England and Wales, in the 5 years 2004-2008. Risk-adjusted mortality using the Paediatric Index of Mortality (PIM) model was compared between PICUs aggregated into quartile groups, first to fourth based on descending number of HI admissions/year: highest volume, medium-higher volume, medium-lower volume, and lowest volume. The effect of category of PICU interventions - observation only, mechanical ventilation (MV) only, and intracranial pressure (ICP) monitoring - on outcome was also examined. Observations were reported in relation to specialist paediatric neurosurgical PICU practice.

RESULTS

There were 2575 admissions following acute HI (4.4% of non-cardiac surgery PICU admissions in England and Wales). PICU mortality was 9.3%. Units in the fourth-quartile (lowest volume) group did not have significant specialist paediatric neurosurgical activity on the PICU; the other groups did. Overall, there was no effect of HI admissions by individual PICU on risk-adjusted mortality. However, there were significant effects for both intensive care intervention category (p<0.001) and HI admissions by grouping (p<0.005). Funnel plots and control charts using the PIM model showed a hierarchy in increasing performance from lowest volume (group IV), to medium-higher volume (group II), to highest volume (group I), to medium-lower volume (group III) sectors of the health care system.

CONCLUSIONS

The health care system in England and Wales for critically ill HI children requiring PICU admission performs as expected in relation to the PIM model. However, the lowest-volume sector, comprising 14 PICUs with little or no paediatric neurosurgical activity on the unit, exhibits worse than expected outcome, particularly in those undergoing ICP monitoring. The best outcomes are seen in units in the mid-volume sector. These data do not support the hypothesis that there is a simple relationship between PICU volume and performance.

Quo vadis 2010? - carpe diem: challenges and opportunities in pediatric traumatic brain injury

Traumatic brain injury (TBI) in infants and children remains a public health problem of enormous magnitude. It is a complex and heterogeneous condition that presents many diagnostic, therapeutic and prognostic challenges. A number of investigative teams are studying pediatric TBI both in experimental models and in clinical studies at the bedside. This review builds on work presented in a prior supplement to Developmental Neuroscience that was published in 2006, and addresses several active areas of research on this topic, including (1) the application of novel imaging methods, (2) the use of serum and/or CSF biomarkers of injury, (3) advances in neuromonitoring, (4) the development and testing of novel therapies, (5) developments in modeling pediatric TBI, (6) the consideration of a new approach to classification of pediatric TBI, and (7) assessing the potential impact of the development of pediatric and neonatal neurocritical care services on the management and outcome of pediatric TBI.

Brain tumor resection in children: neurointensive care unit course and resource utilization

OBJECTIVE

To describe the pediatric intensive care unit (PICU) course and resource utilization for children with brain tumor resection and to identify factors predicting prolonged (>1 day) PICU length of stay. After craniotomy for brain tumor resection, children recover in the PICU. A few require critical care interventions and a >24-hr length of stay.

DESIGN

We reviewed all brain tumor resection patients admitted to the PICU over 2 yrs. Preoperative, intraoperative, and postoperative variables and tumor characteristics were examined. The extracted variables were compared between two groups with a length of stay in the PICU of >1 or <1 day.

SETTING

Pediatric intensive care unit in a tertiary academic children's medical center.

PATIENTS

A total of 105 patients post brain tumor resection were admitted to the PICU over the study period and analyzed.

INTERVENTIONS

Record review.

MEASUREMENTS AND MAIN RESULTS

Thirty-two (31%) of 105 patients remained in the PICU for >1 day. The mean age of patients in the >1 day group was 5.0 ± 0.81 yrs and 8.78 ± 0.65 yrs in the <1 day group (p < .05). The estimated blood loss was 20 ± 2.37 mL/kg in the >1 day and 9 ± 0.92 mL/kg in the <1 day group (p < .05). Fifteen (14.3%) patients were mechanically ventilated on arrival in the PICU; these patients more often had a length of stay of >1 day (p < .05). The number of unexpected intensive care unit interventions were 0.7 per patient, were more common in the >1 day group, and included treatment of sodium abnormalities, new neurologic deficits, paresis, or seizures (p < .05). In a logistic regression model, estimated blood loss and intubation on arrival predicted longer lengths of stay in the PICU (odds ratio, 1.1; 95% confidence interval, 1.05-1.18; and odds ratio, 33; 95% confidence interval, 2.57-333, respectively), with a receiver operating characteristic curve of 0.86 and 95% confidence interval, 0.78-0.94.

CONCLUSIONS

Large intraoperative estimated blood loss and intubation on arrival may be predictive of PICU lengths of stay of >1 day for children who have had a craniotomy for brain tumor resection. Intensive care unit interventions are more common in these children.

Pediatric infectious diseases: 2009 update for the Rogers' Textbook of Pediatric Intensive Care

OBJECTIVE

To review important articles in the field of infectious diseases that pertain to the care of children in pediatric critical care units, published subsequent to the fourth edition of the Rogers' Textbook of Pediatric Intensive Care.

DATA SOURCES

The U.S. National Library of Medicine was searched for the terms: critical care, nosocomial, antimicrobial resistance, opportunistic infection, sepsis, central nervous system infections, encephalitis, meningitis-bacterial, meningitis-tuberculous, brain abscess, measles, dengue, hemorrhagic fever, human immunodeficiency virus infection (HIV), opportunistic infections, fungal infections, tetanus, diphtheria, botulism, toxic shock syndrome, and pediatrics.

STUDY SELECTION AND DATA EXTRACTION

Promising articles were reviewed and the decision to include them or not in this review was made by the authors, based on clinical relevance.

DATA SYNTHESIS

Articles were included based on their relevance to specific chapters included in this section of the textbook.

CONCLUSIONS

Significant advances continue to be made in our understanding of specific diseases as well as the approach to treatment. There are significant variations in outcome from specific infectious diseases in developing countries compared with the developed world. The looming problem of antimicrobial resistance and relative lack of new anti-infective agents in development is an issue that will be faced by pediatric intensive care units throughout the world in the near future. Updated evidence-based guidelines have appeared for early treatment of septic shock in children, and on prevention and treatment of opportunistic infections in adults and adolescents with human immunodeficiency virus. In patients with measles, use of oral co-trimoxazole or amoxicillin reduces the risk of secondary bacterial infections of respiratory tract; however, the same may not be true for other systemic viral infections, such as influenza. In patients with acute bacterial meningitis, maintenance fluids-instead of restricted fluids-and use of glycerol may improve the outcomes; however, the role of dexamethasone in prevention of adverse outcome needs reevaluation. Intravenous use of botulism immune globulin decreases the length of hospital stay and mechanical ventilation. Pediatric patients with aspergillosis have radiologic findings distinct from those of adults and present more often with nodules, and only rarely with cavitation; early focal surgical resection may improve the survival of these patients.

Pediatric neurocritical care: is it time to come of age?

PURPOSE OF REVIEW

Neurocritical care in adults with life-threatening neurological disease is a distinct discipline that has developed out of critical care medicine and neurology. This review considers whether it is time for such a specialized service to be developed in pediatrics.

RECENT FINDINGS

Recent reports describe how some institutions and pediatric professional bodies have set about transferring the specialist neurocritical care experience in adults to pediatric practice. The issue, now, is whether such a development would improve pediatric healthcare, medical education and training in the newly defined field. Adult neurocritical care did not develop in a void. The historical influences were the polio epidemics and the investment in experimental neuroprotection. These traditions provided a foundation for success in recent clinical trials, patient outcomes and healthcare research. Pediatric neurocritical care does not have the equivalent parallels and track record in healthcare research. Size of practice and casemix is also significantly different, with one-third of potential beneficiaries of the new field having a primary medical, rather than neurological, disorder. Three types of development for pediatric neurocritical services are, therefore, suggested by the literature and the implications of these on cross-discipline staffing and education are discussed.

SUMMARY

Pediatric neurocritical care is the new frontier for pediatric critical care medicine and pediatric neurology. There is sufficient specialist interest and momentum for the development of a multidisciplinary collaboration that has the aim of improving patient care.