Head kinematics during shaking associated with abusive head trauma

Nonfatal Emergency Department Visits Associated with Fall-Related Fractured Skulls of Infants Aged 0-4 Months

BACKGROUND

Children aged 0-4 years have the highest rate of emergency department (ED) visits for traumatic brain injury (TBI); falls are the leading cause. Infants younger than 2 years are more likely to sustain a fractured skull after a fall.

OBJECTIVE

This study examined caregiver actions and products associated with ED visits for fall-related fractured skulls in infants aged 0-4 months.

METHODS

Data were analyzed from the 2001-2017 National Electronic Injury Surveillance System-All Injury Program. Case narratives of infants aged 0-4 months who visited an ED for a fall-related skull fracture were examined to code caregiver actions preceding the fall. Product codes determined fall location and product type involved (e.g., flooring, bed, or stairs). All national estimates were weighted.

RESULTS

There were more than 27,000 ED visits (weighted estimate) of infants aged 0-4 months for a nonfatal fall-related fractured skull between 2001 and 2017. Most were younger than 2 months (46.7%) and male (54.4%). Falls occurred primarily in the home (69.9%) and required hospitalization (76.4%). Primary caregiver actions coded involved placing (58.6%), dropping (22.7%), and carrying an infant (16.6%). Floor surfaces were the most common product (mentioned in 24.0% of the cases).

CONCLUSIONS

Fall-related fractured skulls are a health and developmental concern for infants, highlighting the importance of a comprehensive assessment at the time of the injury to better understand adult actions. Findings indicated the need to develop prevention messages that include safe carrying and placement of infants.

Inflicted head-injury by shaking-trauma in infants: the importance of spatiotemporal variations of the head's rotation center

Inflicted head injury by shaking trauma (IHI-ST) in infants is a type of abusive head trauma often simulated computationally to investigate causalities between violent shaking and injury. This is commonly done with the head's rotation center kept fixed over time. However, due to the flexibility of the infant's neck and the external shaking motion imposed by the perpetrator it is unlikely that the rotation center is static. Using a test-dummy, shaken by volunteers, we demonstrated experimentally that the location of the head's rotation center moves considerably over time. We further showed that implementation of a spatiotemporal-varying rotation center in an improved kinematic model resulted in strongly improved replication of shaking compared to existing methods. Hence, we stress that the validity of current infant shaking injury risk assessments and the injury thresholds on which these assessments are based, both often used in court cases, should be re-evaluated.

Ocular Injuries in Pediatric Patients Admitted With Abusive Head Trauma

BACKGROUND

Pediatric abusive head trauma (AHT) refers to head injury from intentional blunt force or violent shaking in children aged five years or less. We sought to evaluate the epidemiology of ocular injuries in AHT.

METHODS

This retrospective analysis of the National Trauma Data Bank (2008 to 2014) identified children aged five years or less with AHT and ocular injuries using ICD-9-CM codes. Demographic data, types of ocular and nonocular/head injuries, geographic location, length of hospital admission, injury severity, and Glasgow Coma scores were tabulated and analyzed.

RESULTS

A total of 10,545 children were admitted with AHT, and 2550 (24.2%) had associated ocular injuries; 58.7% were female. The mean age was 0.5 (±1.0) years. Most (85.7%) were aged one year or less. Common ocular injuries included contusion of eye/adnexa (73.7%) and retinal edema (59.3%), and common head injuries were subdural hemorrhage (SDH) (72.8%) and subarachnoid hemorrhage (22.9%). Retinal hemorrhages occurred in 5.3%. About 42.8% of children had injury severity scores greater than 24 (very severe), and the mortality rate was 19.2%. Children aged one year or less had the greatest odds of retinal hemorrhages (odds ratio [OR] = 2.44; P = 0.008) and SDH (OR = 1.55; P < 0.001), and the two- to three-year-old group had the greatest odds of contusions (OR = 1.68; P = 0.001), intracerebral hemorrhages (OR = 1.55; P = 0.002), and mortality (OR = 1.78; P < 0.001). For all ages, SDH occurred most frequently with retinal edema compared with other ocular injuries (OR = 2.25; P < 0.001).

CONCLUSIONS AND RELEVANCE

Ocular injuries varied with age and were variably associated with nonocular injury. The youngest group was most frequently affected; however, the two- to three-year-old group was most likely to succumb to injuries.

Modeling of inflicted head injury by shaking trauma in children: what can we learn? : Part II: A systematic review of mathematical and physical models

Various types of complex biomechanical models have been published in the literature to better understand processes related to inflicted head injury by shaking trauma (IHI-ST) in infants. In this systematic review, a comprehensive overview of these models is provided. A systematic review was performed in MEDLINE and Scopus for articles using physical (e.g. dolls) and mathematical (e.g. computer simulations) biomechanical models for IHI-ST. After deduplication, the studies were independently screened by two researchers using PRISMA methodology and data extracted from the papers is represented in a “7-steps description”, addressing the different processes occurring during IHI-ST. Eleven papers on physical models and 23 papers on mathematical models were included after the selection process. In both categories, some models focus on describing gross head kinematics during IHI-ST events, while others address the behavior of internal head- and eye structures in various levels of detail. In virtually all physical and mathematical models analyzed, injury thresholds are derived from scaled non-infant data. Studies focusing on head kinematics often use injury thresholds derived from impact studies. It remains unclear to what extent these thresholds reflect the failure thresholds of infant biological material. Future research should therefore focus on investigating failure thresholds of infant biological material as well as on possible alternative injury mechanism and alternative injury criteria for IHI-ST.

Simulation-based research to improve infant health outcomes: Using the infant simulator to prevent infant shaking

Simulation is a technique that creates a situation or environment to allow persons to experience a representation of a real event for the purpose of practice, learning, evaluation, testing, or to gain understanding of systems or human actions. We will first provide an introduction to simulation in healthcare and describe the two types of simulation-based research (SBR) in the pediatric population. We will then provide an overview of the use of SBR to improve health outcomes for infants in health care settings and to improve parent-child interactions using the infant simulator. Finally, we will discuss previous and future research using simulation to reduce morbidity and mortality from abusive head trauma, the most common cause of traumatic death in infancy.