Traumatic brain and spinal cord injury

Extracellular vesicles from human umbilical cord mesenchymal stem cells reduce lipopolysaccharide-induced spinal cord injury neuronal apoptosis by mediating miR-29b-3p/PTEN

OBJECTIVE

This study investigated the molecular mechanism of whether hUC-MSCs-EVs repressed PTEN expression and activated the PI3K/AKT pathway through miR-29b-3p, thus inhibiting LPS-induced neuronal injury.

METHODS

hUC-MSCs were cultured and then identified. Cell morphology was observed. Alizarin red, oil red O, and alcian blue staining were used for inducing osteogenesis, adipogenesis, and chondrogenesis. EVs were extracted from hUC-MSCs and identified by transmission electron microscope observation and Western blot. SCI neuron model was established by 24h lipopolysaccharide (LPS) induction. After the cells were cultured with EVs without any treatment, uptake of EVs by SCI neurons, miR-29b-3p expression, cell viability, apoptosis, caspase-3, cleaved caspase-3, caspase 9, Bcl-2, PTEN, PI3K, AKT, and p-Akt protein levels, caspase 3 and caspase 9 activities, and inflammatory factors IL-6 and IL-1β levels were detected by immunofluorescence labeling, RT-qPCR, MTT, flow cytometry, Western blot, caspase 3 and caspase 9 activity detection kits, and ELISA. The binding sites between PTEN and miR-29b-3p were predicted by the database and verified by dual-luciferase assay.

RESULTS

LPS-induced SCI cell model was successfully established, and hUC-MSCs-EVs inhibited LPS-induced apoptosis of injured spinal cord neurons. EVs transferred miR-29b-3p into LPS-induced injured neurons. miR-29b-3p silencing reversed EV effects on reducing LPS-induced neuronal apoptosis. miR-29b-3p reduced LPS-induced neuronal apoptosis by targeting PTEN. After EVs-miR-inhi and si-PTEN treatment, inhibition of the PI3K/AKT pathway reversed hUC-MSCs-EVs effects on reducing LPS-induced neuronal apoptosis.

CONCLUSION

hUC-MSCs-EVs activated the PI3K/AKT pathway by carrying miR-29b-3p into SCI neurons and silencing PTEN, thus reducing neuronal apoptosis.

Fourteen-year change in activities of daily living of a quadriplegic, ventilator-managed patient injured by high cervical spinal cord injury during infancy: a case report

Background

Rehabilitation of patients with high cervical spinal cord injury (CSCI) to improve activities of daily living (ADL) is challenging due to severe paralysis. In addition, pediatric patients with CSCI are rare, and literature describing ADL changes as the patient grows are limited. In this case report, we present the long-term change in ADL over time in a girl with severe high CSCI from an injury during infancy.

Case presentation

A 2 years and 6 months old girl, who was injured in a traffic accident, was diagnosed with C3 CSCI, resulting in complete quadriplegia and respiratory paralysis below C3. Thus, she was managed with a ventilator. Rehabilitation for quadriplegia, respiratory dysfunction, and autonomic neuropathy was started on the fifth day after the injury while she was in the intensive care unit. Six months after the injury, the patient was transferred to a hospital. Thereafter, she was discharged with nursing and care guidance provided to her family and environmental changes at home. Afterwards, she continued to acquire skills through writing training using a mouse stick, computer operation training, and electric wheelchair operation training, which enabled her to improve her ADL despite her severe disability. In terms of education, she was able to go through a regular elementary school, a regular junior high school, and then to a senior high school of a support school.

Conclusions

We believe that training that utilizes current technology and changes in the environment that are appropriate for daily life are important for improving the ADL of children with severe CSCI.

TLR4 promotes microglial pyroptosis via lncRNA-F630028O10Rik by activating PI3K/AKT pathway after spinal cord injury

Neuroinflammation plays a crucial role in the secondary phase of spinal cord injury (SCI), and is initiated following the activation of toll-like receptor 4 (TLR4). However, the downstream mechanism remains unknown. Pyroptosis is a form of inflammatory programmed cell death, which is closely involved in neuroinflammation, and it can be regulated by TLR4 according to a recent research. In addition, several studies have shown that long non-coding RNAs (lncRNAs) based mechanisms were related to signal transduction downstream of TLR4 in the regulation of inflammation. Thus, in this study, we want to determine whether TLR4 can regulate pyroptosis after SCI via lncRNAs. Our results showed that TLR4 was activated following SCI and promoted the expression of lncRNA-F630028O10Rik. This lncRNA functioned as a ceRNA for miR-1231-5p/Col1a1 axis and enhanced microglial pyroptosis after SCI by activating the PI3K/AKT pathway. Furthermore, we determined STAT1 was the upstream transcriptional factor of IncRNA-F630028O10Rik and was induced by the damage-responsive TLR4/MyD88 signal. Our findings provide new insights and a novel therapeutic strategy for treating SCI.

Multiple-level cervical spine trauma in children: Case report and literature review

Spinal trauma is rare in children, but when it occurs, trauma of the cervical spine corresponds to 60%–80% of all cases. The most common causes of pediatric cervical spine injuries are automobile accidents, sports activities, and leisure-related accidents. Herein we report a surgically-treated case of cervical spine trauma with fractures of multiple vertebrae. A 12-year-old female victim of a high fall (from a tree) was admitted to the emergency room with neck pain and weakness in all the limbs. On examination, she was conscious, breathing spontaneously, with grade-4 tetraparesis, and preserved sphincter control. Cervical spine computed tomography (CT) revealed a burst fracture of the C4 body with retropulsion into the spinal cord and fractures of the C5 body and posterior elements of C2, C3, and C4. Cervical spine magnetic resonance imaging (MRI) revealed a hypersignal of the spinal cord from C3 to C6 in T2, indicating contusion. Because no signs of posterior spine instability (ligament lesions) were noted on MRI, we decided to perform a C3–C5 anterior arthrodesis with C4 corpectomy and autologous (iliac) graft placement. The patient had a good postoperative evolution. Furthermore, the patient had no motor deficit, but due to the other fractures in the spine, we chose to keep the cervical collar for 3 months and followed-up on an outpatient basis. Although spinal trauma is less frequent in children than in adults, children can have severe cervical spine injuries (multiple fractures with spinal contusion), and then surgery plays a key role in stabilizing the spine and decompressing the spinal cord to avoid sequelae.

Distraction Injury of the Thoracic Spine With Spinal Cord Transection and Vascular Injury in a 5-Week-Old Infant Boy: A Case of Child Physical Abuse

Distraction injury of the spine with spinal cord transection and adjacent vascular injury is rarely described in the setting of child physical abuse. We report a 5-week-old infant boy who sustained these injuries after an abusive event. The clinical presentation, imaging findings, and recommended evaluation modalities are discussed. An overview of pediatric spinal column and vascular injuries secondary to physical abuse is given.

Trauma

Traumatic brain and spine injury (TBI/TSI) is a leading cause of death and lifelong disability in children. The biomechanical properties of the child's brain, skull, and spine, the size of the child, the age-specific activity pattern, and variance in trauma mechanisms result in a wide range of age-specific traumas and patterns of brain and spine injuries. A detailed knowledge about the various types of primary and secondary pediatric head and spine injuries is essential to better identify and understand pediatric TBI/TSI, which enhances sensitivity and specificity of diagnosis, will guide therapy, and may give important information about the prognosis. The purposes of this chapter are to: (1) discuss the unique epidemiology, mechanisms, and characteristics of TBI/TSI in children; (2) review the anatomic and functional imaging techniques that can be used to study common and rare pediatric TBI/TSI and their complications; (3) comprehensively review frequent primary and secondary brain injuries; and (4) to give a short overview of two special types of pediatric TBI/TSI: birth-related and nonaccidental injuries.

Beyond morbidity and mortality: the social and legal outcomes of non-accidental trauma

BACKGROUND

Abusive head trauma (AHT) is a significant cause of morbidity and mortality in the pediatric population. We aimed to assess the social and legal outcomes of AHT and determine if the rates of successful prosecution have changed over recent years.

METHODS

We utilized the trauma database at a single institution to identify all cases of AHT during two time periods: 1996-2001 and 2006-2010 then collected data from the Child Advocacy and Protection Team database. We characterized the social and legal outcomes and compared them between the two cohorts.

RESULTS

A total of 254 patients (120 historic and 134 modern cohort) were included. Mortality rate was 19.7% and did not differ between the two cohorts. Thirty-seven percent of patients were discharged to foster care, this rate did not change across the two time periods. Suspected perpetrators pled guilty or were found guilty in only 74 cases (29%). However, when a case involved a fatality, perpetrators pled or were found guilty more often than in cases of a non-fatality (50 vs. 21.5%; p=0.0001).

CONCLUSIONS

AHT results in fatality in approximately 1 in 5 cases, perpetrators are identified and found guilty in only 29% of the cases. Trauma surgeons need to be strong advocates for these vulnerable patients and actively participate in legal proceedings.

Assessment of medical resource utilization for Taiwanese children hospitalized for intracranial injuries

BACKGROUND

Compared to adults, children and adolescents are at greater risk for traumatic brain injury (TBI), with increased severity and prolonged recovery when compared to adults. It is a challenge to provide care for those children who are at risk for complications of TBI under health care resource constraints.

AIM

To investigate hospitalization among children with intracranial injuries in terms of incidence and factors related to length of stay (LOS) and medical cost.

METHODS

Data from the National Health Insurance Research Database from 2007-2009 were used. In total 8632 children aged <=18 years with acute traumatic intracranial injuries caused by accidents were discharged from hospitals in Taiwan. The associations between patient and hospital covariates (e.g., age, gender, accreditation level of hospital, surgical intervention, and number of comorbid conditions) and log-transferred hospitalization cost and length of stay (LOS) were examined with multivariable regression analysis and mediation analyses.

RESULTS

The incidence rate of hospitalization for acute intracranial injury was 63.3/100,000 per year. Motor vehicle crashes and falls accounted for 63.5% and 23.8% of intracranial injuries, respectively. The mean LOS for children was 5.0 days (median, 3 days), incurring a mean direct medical cost of $US 916.70 (median, $356.2). Boy sustained more injury (64.1%) and greater medicals cost ($965) occurred in boys. Patients with subarachnoid subdural and extradural haemorrhage tended to have a longer LOS and incur greater medical costs. Surgical intervention and type of healthcare institution were also significant predictors for medical costs. Additionally, LOS was the dominant mediator for the relationship between predictor and medical cost.

CONCLUSIONS

Acute intracranial injuries among children incur a substantial health care burden. Therefore, health authorities need to optimally allocate medical resources in care.

The unique features of traumatic brain injury in children. Review of the characteristics of the pediatric skull and brain, mechanisms of trauma, patterns of injury, complications and their imaging findings--part 1

Traumatic head/brain injury (TBI) is a leading cause of death and life-long disability in children. The biomechanical properties of the child's brain and skull, the size of the child, the age-specific activity pattern, and higher degree of brain plasticity result in a unique distribution, degree, and quality of TBI compared to adult TBI. A detailed knowledge about the various types of primary and secondary pediatric head injuries is essential to better identify and understand pediatric TBI. The goals of this review article are (1) to discuss the unique epidemiology, mechanisms, and characteristics of TBI in children, and (2) to review the anatomical and functional imaging techniques that can be used to study common and rare pediatric traumatic brain injuries and their complications.

Delayed intracranial hypertension and cerebral edema in severe pediatric head injury: risk factor analysis

INTRODUCTION

Diffuse brain edema has been described as a major cause of intracranial hypertension (IH) following traumatic brain injury (TBI), and several studies suggest that it may be more frequent in children than in adults. While most cases of IH following TBI are present from the beginning, several studies have described a subgroup of patients with delayed elevations in intracranial pressure (ICP).

METHODS

Retrospective review of severe pediatric TBI cases admitted to a single institution during a 6-year period. Patients were classified into three groups, based on the temporal evolution of ICP: patients who evolved without IH, patients who had IH at admission and patients with delayed IH. A risk factor analysis was performed to find differences between these groups.

RESULTS

31 cases of severe pediatric TBI were analyzed. 13 patients were female and 18 male, with an average age of 8.9 years. 4 patients met the described criteria for delayed IH; the only significant risk factor was presence of edema at the initial brain CT (p = 0.008). 3 additional patients presented clinical deterioration after 48 h and signs of brain edema in the CT, after ICP monitoring had been discontinued.

CONCLUSIONS

Late-onset IH is a relatively common clinical condition in the pediatric population with severe TBI (present in 13% of the cases in our series), and the presence of a Marshall III CT scan at admission is a significant risk factor for this condition. Pediatric patients may benefit from a more prolonged period of ICP monitoring than adults, and the lack of amelioration of brain edema at follow-up brain CT (even with normal ICP values) may be an indication that more prolonged monitoring is needed.

Imaging of accidental paediatric head trauma

Head trauma is the most common form of injury sustained in serious childhood trauma and remains one of the top three causes of death despite improved road planning and safety laws. CT remains the first-line investigation for paediatric head trauma, although MRI may be more sensitive at picking up the full extent of injuries and may be useful for prognosis. Follow-up imaging should be tailored to answer the specific clinical question and to look for possible complications.

Neuroimaging evaluation of non-accidental head trauma with correlation to clinical outcomes: a review of 57 cases

OBJECTIVE

To review the clinical presentation and neuroimaging findings in patients with high clinical suspicion for non-accidental trauma (NAT) of the head, to investigate associations between imaging findings and long-term neurologic outcome in abused children.

STUDY DESIGN

A retrospective review of 57 cases of NAT of the head from a single institution was performed. Neuroimaging studies (computed tomography [CT] and magnetic resonance imaging [MRI]) were reviewed by a senior neuroradiologist, a neuroradiology fellow, and a radiology resident. Clinical history and physical findings, including retinal examination, imaging, and follow-up assessment, were reviewed.

RESULTS

The mean time between the patient's arrival at the hospital and CT and MRI imaging was 2.9 hours and 40.6 hours, respectively. The most common clinical presentation was mental status changes, seen in 47% of patients. The most common neuroimaging finding was subdural hematoma, seen in 86% of patients. In the 47 patients who underwent both MRI and CT, 1 case of suspected NAT was missed on head CT. CT detected signs of global ischemia in all 11 patients who died (mean time after arrival at the hospital until undergoing CT, 1.1 hours). MRI detected additional signs of injury in patients who developed mild to moderate developmental delay.

CONCLUSION

CT was able to detect evidence of NAT of the head in 56 of 57 abused children included in our cohort and predicted severe neurologic injury and mortality. MRI was useful in detecting additional evidence of trauma, which can be helpful in risk stratification for neurologic outcomes as well in providing confirming evidence of repeated injury.

Rehabilitation for Traumatic Brain Injury in Children and Adolescents

Children and adolescents who have sustained a traumatic brain injury (TBI) may be left with multiple deficits and impairments that can impact adversely their abilities to return to pre-morbid functioning in the home, school and community. Early rehabilitation has been shown to improve functional outcome; the rehabilitation programme itself has to be based on real-world demands and experiences. Rehabilitation has to be continued beyond the post-acute stage in order to promote neuronal re-organisation, monitor the child’s development as well as identify and manage new issues that may appear with growth, development and maturation. The availability of relevant research data and findings for children is much less than those for adults. It is not always appropriate to apply data for adults to the younger persons due to important differences in the 2 groups and these are discussed in more detail in the article. Multiple factors have been found to affect recovery and functional outcome. Apart from age and developmental stage at injury, other variables can be grouped as injury-related, patient-related and treatment-related factors. The goals and components of the rehabilitation process are examined for the various stages of recovery and the last section of the article describes the paediatric rehabilitation scene in Singapore. Key words: Development, Family involvement, Functional outcome, Interdisciplinary, Neuroplasticity

Class II G protein-coupled receptors and their ligands in neuronal function and protection

G protein-coupled receptors (GPCRs) play pivotal roles in regulating the function and plasticity of neuronal circuits in the nervous system. Among the myriad of GPCRs expressed in neural cells, class II GPCRs which couples predominantly to the Gs-adenylate cyclase-cAMP signaling pathway, have recently received considerable attention for their involvement in regulating neuronal survival. Neuropeptides that activate class II GPCRs include secretin, glucagon-like peptides (GLP-1 and GLP-2), growth hormone-releasing hormone (GHRH), pituitary adenylate cyclase activating peptide (PACAP), corticotropin-releasing hormone (CRH), vasoactive intestinal peptide (VIP), parathyroid hormone (PTH), and calcitonin-related peptides. Studies of patients and animal and cell culture models, have revealed possible roles for class II GPCRs signaling in the pathogenesis of several prominent neurodegenerative conditions including stroke, Alzheimer's, Parkinson's, and Huntington's diseases. Many of the peptides that activate class II GPCRs promote neuron survival by increasing the resistance of the cells to oxidative, metabolic, and excitotoxic injury. A better understanding of the cellular and molecular mechanisms by which class II GPCRs signaling modulates neuronal survival and plasticity will likely lead to novel therapeutic interventions for neurodegenerative disorders.