The prevalence of adrenal incidentaloma (AI) on computed tomography (CT) in the general population has been reported to be as high as 4.2%. However, many of the previous studies in this field utilised a prospective approach with analysis of CT scans performed by one or more radiologists with a specialist interest in adrenal tumours and a specific focus on identifying the presence of an adrenal mass. A typical radiology department, with a focus on the patient's presenting complaint as opposed to the adrenal gland, may not be expected to diagnose as many adrenal incidentalomas as would be identified in a dedicated research protocol. We hypothesised that the number of AI reported in routine clinical practice is significantly lower than the published figures would suggest. We retrospectively reviewed the reports of all CT thorax and abdomen scans performed in our hospital over a 2 year period. 3,099 patients underwent imaging, with 3,705 scans performed. The median age was 63 years (range 18-98). Thirty-seven true AI were diagnosed during the time period studied. Twenty-two were diagnosed by CT abdomen (22/2,227) and 12 by CT thorax (12/1,478), a prevalence of 0.98 and 0.81% with CT abdomen and thorax, respectively, for AI in routine clinical practice.
Introduction Increasingly, medical schools are integrating Point of Care Ultrasound (POCUS) into their curricula. This review investigated the available literature on how best to integrate POCUS in the teaching of medical students and the benefits of doing so. Methods Given the heterogeneous literature that has emerged on POCUS education, a scoping review was conducted. Relevant medical databases, including PubMed, MEDLINE, PsycINFO, EMBASE and CINAHL, were searched between January 1980 and August 2016, using keywords identified by the authors. Inclusion criteria were as follows: prospective or retrospective studies, observational or intervention studies, and studies describing how medical students learn to use ultrasound. Results The literature search yielded 593 articles, of which 128 met the inclusion criteria. Studies that met the inclusion criteria were sub-categorised under the following headings: those that described or evaluated an ultrasound curriculum, those that employed ultrasound as a means of teaching another topic in the curriculum (i.e., anatomy, physical examination, physiology, invasive procedures), those that investigated the learning curve of ultrasound education and those that employed adjuncts or peer mentoring to teach ultrasound. Conclusions The reviewed literature indicates that the integration of ultrasound in undergraduate medical education is both feasible and beneficial to medical students. This article is intended to inform medical educators aiming to integrate ultrasound into their medical school curricula.
reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. carbon dioxide 30 [27][28][29][30][31][32][33][34][35] mmHg and median temperature 37.1 [36.8-37.3]°C. After removal of artefacts, the mean monitoring time was 22 h08 (8 h54). All patients had impaired cerebral autoregulation during their monitoring time. The mean IAR index was 17 (9.5) %. During H 0 H 6 and H 18 H 24 , the majority of our patients; respectively 53 and 71 % had an IAR index > 10 %. Conclusion According to our data, patients with septic shock had impaired cerebral autoregulation within the first 24 hours of their admission in the ICU. In our patients, we described a variability of distribution of impaired autoregulation according to time. ReferencesSchramm P, Klein KU, Falkenberg L, et al. Impaired cerebrovascular autoregulation in patients with severe sepsis and sepsis-associated delirium. Crit Care 2012; 16: R181. Aries MJH, Czosnyka M, Budohoski KP, et al. Continuous determination of optimal cerebral perfusion pressure in traumatic brain injury. Crit. Care Med. 2012.
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