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BACKGROUND: Sudden cardiac death (SCD) is the leading medical cause of death in athletes. To prevent SCD, screening for high-risk cardiovascular conditions (HRCC) is recommended. Screening strategies are based on a limited number of studies and expert consensus. However, evidence and efficacy of athlete HRCC screening is unclear. OBJECTIVE: To determine methodological quality and quality of evidence of athlete screening, and screening efficacy to detect HRCC in a systematic review. METHODS: We performed a systematic search of Medline, Embase, Scopus and Cochrane Library up to June 2021. We included articles containing original data of athlete cardiovascular screening, providing details of screening strategies, test results and HRCC detection. We assessed methodological quality of the included articles by QUADAS-2, quality of evidence of athlete HRCC screening by GRADE, and athlete HRCC screening efficacy by SWiM. RESULTS: Of 2720 citations, we included 33 articles (1991-2018), comprising 82 417 athletes (26.7% elite, 73.4% competitive, 21.7% women, 75.2% aged ≤35). Methodological quality was 'very low' (33 articles), caused by absence of data blinding and inappropriate statistical analysis. Quality of evidence was 'very low' (33 articles), due to observational designs and population heterogeneity. Screening efficacy could not be reliably established. The prevalence of HRCC was 0.43% with false positive rate (FPR) 13.0%. CONCLUSIONS: Methodological quality and quality of evidence on athlete screening are suboptimal. Efficacy could not be reliably established. The prevalence of screen detected HRCC was very low and FPR high. Given the limitations of the evidence, individual recommendations need to be prudent.
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AIMS: To quantitatively analyse exercise-induced cardiac remodeling (EICR) data in female athletes. METHODS: This scoping review included from the databases Medline, Embase, and Google Scholar, peer-reviewed original English-language articles on female athlete-populations aged ≥18 years containing data on electrocardiography (ECG), echocardiography or cardiac magnetic resonance (CMR), and excluded athletes with cardiovascular conditions. From the extracted ECG data, we calculated prevalence percentages, and from the imaging data we compared the results with the upper reference limits of the general female population (URL). RESULTS: We included 31 articles comprising 4,896 female athletes, aged mean 22.2±4.6 years. On ECG (n=889), most prevalent findings were increased QRS voltages for LV hypertrophy (LVH, n=97), J-point elevation (JPE, n=108), and T-wave inversion (TWI, n=104). On echocardiography (n=4,644), we found increased mean of means BSA-indexed volumes for the LV 67.3 mL/m2 (95%CI 66.8-67.8; URL=61) and right ventricle (RV) 82.7 mL/m2 (95%CI 79.5-86.0; URL=74), while atrial volumes, septal wall thickness and LV mass were within the upper reference limits of the general population (URL). On CMR (n=309), the mean of means volumes of LA (62.0 mL/m2, 95%CI 58.8-65.2; URL=61), LV (103.4 mL/m2, 95%Ci 101.8-105.0; URL=96), and RV (105.3 mL/m2, 95%CI 103.3-110.6; URL=107.2) were >URL. CONCLUSION: Female athletes demonstrate distinct features of electrical (increased QRS voltages for LVH, JPE and TWI) and morphological EICR (biventricular dilatation). On CMR, LA was borderline dilated. Extensive studies on female athletes are needed to understand sex specific EICR.
Prolonged and repetitive exercise induces changes in the heart, both electrical (as seen on the ECG) and in size and shape (as seen on echocardiography or cardiac magnetic resonance imaging. These changes may include wall thickening and increase in chamber volumes. These changes are well-described in male athletes, but not in female athletes. This review highlights the changes in the hearts of healthy female athletes including electrical signs of increased cardiac muscle mass and of altered electrical reloading, and shape changes that include increases in left and right sided chamber volumes with normal ventricular wall thickness and mass.
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The outer root sheath of hair follicles plays an important role in epidermal regeneration in vivo. Keratinocytes isolated by explantation of outer root sheath tissue have extensive proliferative capacity irrespective of donor age, which probably depends on pluripotent epithelial stem cells residing in the outer root sheath. These keratinocytes can be organotypically grown to epidermal equivalents in vitro. We report here that in a multicenter, randomized phase II study, EpiDex trade mark, a tissue-engineered, fully differentiated autologous epidermal equivalent derived from keratinocytes of the outer root sheath of plucked anagen hair follicles, is as effective as split-thickness skin autografting in the promotion of healing and complete closure of recalcitrant vascular leg ulcers.