First aid in illness and injury

The Anterior Cruciate Ligament (ACL) resists excessive anterior translation and
internal rotation of the tibia during athletic activities and stabilizes the knee. In the US,
annually, over 200,000 cases of ACL disruption are reported. The impact on the quality of life of the subject and its cost to healthcare is tremendous. The objectives of this study were to determine any significant associations between the size of the tibial eminence and ACL injury and to develop a finite element model for structural analysis. The results suggest that the size of the tibial eminence plays a role in loading the ACL and is therefore a risk factor. In addition to the epidemiological analysis, a finite element model of the knee was developed that with added modifications can be used for complex knee loading situations. The results in this thesis may be used to develop strategies for ACL injury prevention and rehabilitation.

Purpose: To evaluate the influence of physical fitness on the metabolic and perceptual responses to chest compression-only (CCO) CPR. Methods: In a counterbalanced design, forty-seven CPR-certified participants were randomized to perform: 1) a fitness assessment in which muscular (e.g., push-ups = PU) and cardiorespiratory endurance (e.g., step test recovery heart rate = RHR) were determined, and 2) a 10-minute CCO-CPR trial in which the heart rate (HR) response and ratings of perceived exertion (RPE) were determined. Results: Both PU and RHR were significantly correlated to the HR response to CCO-CPR (r = - 0.45, p < 0.01; r = 0.54, p < 0.001). PU were significantly correlated to RPE: local muscular (r = - 0.43; p < 0.01), central (r = - 0.45; p < 0.01), and over-all (r = - 0.39; p < 0.01). Conclusions: Greater physical fitness lessens the metabolic and perceptual strain to CCO-CPR.