Safety baseballs and chest protectors: a systematic review on the prevention of commotio cordis

The Effects of Cardiac Implantable Electronic Device Personal Protective Equipment Use in Patients with Pediatric and Adult Congenital Heart Disease

Pediatric and adult congenital heart disease (ACHD) patients encounter physical and emotional barriers. Cardiac implantable electronic devices (CIEDs), including pacemakers and implantable cardiac defibrillators (ICD) often compound these issues. Patient fear associated with damaging the CIED system can lead to avoidance of physical activity and reduced quality of life (QOL). CIED personal protective equipment (PPE) is a potential treatment for decreasing this fear. We sought to determine the effects of CIED PPE use in the pediatric and ACHD population. Patients 5 years or older with a CIED at a single pediatric and ACHD heart rhythm center received a CIED protector and customized athletic shirt. QOL was assessed using the PedsQL TM 4.0 SF15 prior to and after 6-12 months. Of the 77 patients enrolled, 26 completed repeat assessment. The mean age at enrollment was 15.6 years (range 5-36) with a mean device age of 2.2 years (< 1-10 years). Pacemakers were present in 77% and 23% had ICDs. The PPE was used in 92% with no PPE malfunction. Fear associated with physical activity was reduced, z = - 4, p < 0.001, with a large effect size (r = 0.55). There was a trend toward increased physical activity. Total QOL scores improved, z = - 2.771, P < 0.05, with a medium effect size (r = 0.4). This first study of CIED PPE in children shows that providing CIED PPE to pediatric and ACHD patients may decrease their fear of damaging their device system, increasing physical activity levels, and improving quality of life.

Commotio Cordis in Non-Sport-Related Events: A Systematic Review

BACKGROUND

Commotio cordis is an increasingly recognized cause of sudden cardiac death. Although commonly linked with athletes, many events occur in non-sport-related settings.

OBJECTIVES

The goal of this study was to characterize and compare non-sport-related vs sport-related commotio cordis.

METHODS

PubMed and Embase were searched for all cases of commotio cordis from inception to January 5, 2022.

RESULTS

Of 334 commotio cordis cases identified, 121 (36%) occurred in non-sport-related contexts, which included assault (76%), motor vehicle accidents (7%), and daily activities (16%). Projectiles were implicated significantly less in non-sport-related events (5% vs 94%, respectively; P < 0.001). Nonprojectile etiologies in non-sport-related events mostly consisted of impacts with body parts (79%). Both categories affected similar younger aged demographic (P = 0.10). The proportion of female victims was significantly higher in non-sport-related events (13% vs 2%, respectively; P = 0.025). Mortality was significantly higher in non-sport-related events (88% vs 66%, respectively; P < 0.001). In non-sport-related events, rates of cardiopulmonary resuscitation (27% vs 97%, respectively; P < 0.001) and defibrillation (17% vs 81%, respectively; P < 0.001) were both lower and resuscitation was more commonly delayed beyond 3 min (80% vs 5%, respectively; P < 0.001).

CONCLUSIONS

Commotio cordis occurs across a spectrum of non-sport-related settings including assault, motor vehicle accidents, and daily activities. Both categories affected a younger and male-predominant demographic. Mortality is higher in non-sport-related commotio cordis, likely owing to lower rates of cardiopulmonary resuscitation, defibrillation, automated external defibrillator availability, and extended time to resuscitation. Increased awareness of non-sport-related commotio cordis is essential to develop a means of prevention and mortality reduction, with earlier recognition and prompt resuscitation measures.

Sudden Cardiac Death: An Update on Commotio Cordis

Sudden cardiac death (SCD) is one of the leading causes of cardiovascular mortality, and it is caused by a diverse array of conditions. Among these is commotio cordis, a relatively infrequent but still significant cause, often seen in young athletes involved in competitive or recreational sports. It is known to be caused by blunt trauma to the chest wall resulting in life-threatening arrhythmia (typically ventricular fibrillation). The current understanding pertains to blunt trauma to the precordium, with an outcome depending on factors such as the type of stimulus, the force of impact, the qualities of the projectile (shape, size, and density), the site of impact, and the timing of impact in relation to the cardiac cycle. In the management of commotio cordis, a history of preceding blunt chest trauma is usually encountered. Imaging is mostly unremarkable except for ECG, which may show malignant ventricular arrhythmias. Treatment is focused on emergent resuscitation with the advanced cardiac life support protocol algorithm, with extensive workup following the return of spontaneous circulation. In the absence of underlying cardiovascular pathologies, implantable cardiac defibrillator insertion is not beneficial, and patients can even resume physical activity if the workup is unremarkable. Proper follow-up is also key in the management and monitoring of re-entrant ventricular arrhythmias, which are amenable to ablative therapy. Prevention of this condition involves protecting the chest wall against blunt trauma, especially with the use of safety balls and chest protectors in certain high-risk sporting activities.  This study aims to elucidate the current epidemiology and clinical management of SCD with a particular focus on a rarely explored etiology, commotio cordis.

Developing commotio cordis injury metrics for baseball safety: unravelling the connection between chest force and rib deformation to left ventricle strain and pressure

Commotio cordis is a sudden death mechanism that occurs when the heart is impacted during the repolarization phase of the cardiac cycle. This study aimed to investigate commotio cordis injury metrics by correlating chest force and rib deformation to left ventricle strain and pressure. We simulated 128 chest impacts using a simulation matrix which included two initial velocities, 16 impact locations spread across the transverse and sagittal plane, and four baseball stiffness levels. Results showed that an initial velocity of 17.88 m/s and an impact location over the left ventricle was the most damaging setting across all possible settings, causing the most considerable left ventricle strain and pressure increases. The impact force metric did not correlate with left ventricle strain and pressure, while rib deformations located over the left ventricle were strongly correlated to left ventricle strain and pressure. These results lead us to the recommendation of exploring new injury metrics such as the rib deformations we have highlighted for future commotio cordis safety regulations.

Evaluation and treatment of trauma related collapse in athletes

Although blunt traumatic injuries are common in athletes, life-threatening trauma is fortunately rare. Most current literature has focused on nontraumatic causes of athlete death though traumatic injuries may be more common. Although prevention of these injuries may be more difficult than nontraumatic causes, prompt recognition and treatment is paramount. Common traumatic causes of collapse athlete generally involve the head, neck, and trunk and are more frequent in collision sports. Other higher risk sports include track and field, cheerleading, snow sports, and those involving motorized vehicles. Health care providers who participate in sports coverage should be aware of the potential for these injuries as emergency treatment is required to maximize outcomes. Emergency action plans allow providers to expediently activate emergency management services while providing treatment and stabilization.

Commotio cordis - under-recognized in Europe?: a case report and review

This case and the review illustrate the induction of a sudden collapse of a football player secondary to a blow to his chest (commotio cordis) [CC]. The article argues that CC probably is under recognized in Europe and cautions that the mounting intensity and speed inherent in modern sports possibly increase the likeliness of CC in the future. If CC occurs, immediate cardiopulmonary resuscitation and automatic external defibrillator should be used.