Usefulness of heart rate recovery parameters to monitor cardiovascular adaptation in elite athletes: The impact of the type of sport.

PURPOSE: The purpose of this study is to determine heart rate (HR) recovery after maximal test in elite athletes who compete in high dynamic, high static, and in mixed sport disciplines; to assess differences in HR recovery between these groups of athletes; and to measure the association of HR index (HRI) with heart adaptation variables to determine whether these values were correlated with the type of exercise. METHODS: One hundred and ninety-four elite athletes were divided into three groups according to the predominant type of exercise performed: endurance (n = 40), strength-sprinter (n = 36), and ball-game players (n = 118). They performed maximal cardiopulmonary exercise testing on a treadmill and were subjected to echocardiography. The rate of decline (HR recovery) was calculated as the difference between maximum and recovery HRs (HRrec1 and HRrec3). The HRI was calculated as HRmax - 1-min post-exercise HR (HRrec1). RESULTS: The most significant correlation of HRI was with posterior wall diameter and left ventricular (LV) mass index (r = 0.43 and r = 0.51; p = 0.012 and p = 0.003, respectively). LV mass index [Beta (B) = 0.354, p = 0.001] was an independent predictor of HRI and HRrec1. HRI may be an effective tool for discrimination of physiological and "gray zone" LV hypertrophy, with area under the curve of 0.545 (95% CI = 0.421-0.669, p = 0.0432). HRI displayed a sensitivity of 50% and specificity of 52.2% at the optimal cut-off value of 23.5. CONCLUSION: HR recovery pattern, especially HRI, may offer a timely and efficient tool to identify athletes with autonomous nervous system adaptive changes.

[Correlation between survival time and severity of injuries in fatal injuries in traffic accidents]. / Korelacija izmedju vremena nadzivljavanja i tezine traume kod smrtno stradalih osoba u saobracaju.

INTRODUCTION: In forensic pathology, only trauma systems based on disintegration of anatomic structure of organs and tissues, could be used for objectivization, comparison and establishing of severity of injuries. Trauma systems based on pathophysiological values are useless. The Abbreviated Injury Scale (AIS) and its derivate Injury Severity Score (ISS) are the most common. AIS coded injuries are divided into six body regions and injuries are assigned a six-digit score in relation to their severity. ISS results the sum of the squares of the highest AIS values from the three most severely injured body regions. In this way, the ISS values are discontinued and vary from 0 (absence of injuries) to 75 (incompatible-with-life injury). PURPOSE: The purpose of this paper is to establish the correlation degree between outliving period and trauma severity in persons fatally injured in traffic accidents, and according to this finding to point out the ISS value of critical injury. MATERIAL AND METHOD: A retrospective autopsy study was performed; it included the material of the Institute of Forensic Medicine in Belgrade of 1998. The autopsy reports and accessible clinical medical data were analyzed for persons over the age of 18, fatally injured in traffic accidents who survived trauma less than 15 days. The sample was statistically prepared (chi 2-test, t-test, correlation coefficient, regression line). RESULTS AND DISCUSSION: The sample included 272 persons: 193 males and 79 females. The proportion of men was more significant (chi 2 = 4.76; 0.01 < p < 0.05). Average age was 51.08 years (SD = 18.08): males 49.84 +/- 17.41 and females 54.09 +/- 19.38. The most frequently injured persons in our sample were pedestrians (134). The authors combined the autopsy and accessible clinical data in order to obtain the ISS value for each case. They considered that all persons found dead on the spot or died ante portam did not outlive trauma. The sample distribution by ISS values showed three peaks: for ISS--75, 41-50 and 26-35. Peaks indicated the number of the injured body regions and trauma severity in these persons. In 87 persons who did not survive, the ISS value was 75. There were 73 persons without outliving period with ISS values less than 75: their mean ISS value was 31.87 (SD = 11.30). In 112 cases the mean outliving period was 4.79 days (SD = 3.77) and their mean ISS value was 18.05 (SD = 15.33), which was a statistically significant lower ISS value than in previous group (t = 7.015; p < 0.001). A weak negative correlation between outliving period and ISS values in our sample was noted (coefficient of linear correlation r = -0.452). Our sample is representative (t = 8.37). Coefficient of a determination (r2 = 0.20), pointed to the fact that direct correlation outliving period-trauma severity was only about 20% and the rest of correlation i.e. 80% depended on other factors (e.g. effective emergency medical system and triage, prompt and correct diagnosis, adequate medical treatment and care, etc.). The calculated linear regression was as follows: outliving period approximately 52-3 ISS. This regression pointed out that critical and potentially fatal injury, in our sample, was injury with ISS of 17. There were 22 persons with ISS < or = 7. Six of them died on the spot as car passengers; they died due to mechanical asphyxia (thoracoabdominal pressure) or respiratory and/or circulation failure due to critical chest injury (flail chest, contusions and rupture of the lungs with consequent haemopneumothorax). The rest of 16 persons survived trauma in an average of 8.56 days (SD = 3.88), and the causes of death were pneumonia, thrombus and fat embolism, sepsis, etc. CONCLUSION: By anaylzing our sample of fatally injured persons in traffic accidents (unpenetrated blunt trauma), there was a negative weak correlation between the outliving period and severity of injury based on ISS. This correlation was partly direct but mostly depended on other factors (e.g. effective emergency medical system and triage, prompt and correct diagnosis, adequate medical treatment and care, etc.). Establishment of these factors could be possible through state medical projects in big medical trauma centres. Prospect registration, evaluation and scoring of all injuries in hospitals and dissecting rooms, and comparison of the obtained results, can give valid data on mortality of injured people, bad diagnosis, and appropriate medical treatment. The autopsy of injured persons dead on the spot can point out what kind of injuries are incompatible with life, as well as with their severity. The autopsy of injured persons who survived trauma can point to the most frequent injury complications, clinical diagnosis and preventable deaths. According to this paper, the critical injury by ISS is 17. In such cases, the forensic pathologist must answer the following questions: whether the death was due to trauma; whether the precipitated cause of death was the consequence or complication of injury; what were the mechanism and mode of dying; whether the death was preventable; if there were possible malpractice and negligence, etc.