Introduction: Cardiopulmonary resuscitation (CPR) is among the most important skills in clinical practice. Errors can happen here, just like everywhere, and potentially have severe consequences. Two common error handling strategies known from practice are Error Management (EM) and Error Avoidance (EA). However, its effects on medical performance outcomes remain unclear. This study aimed to examine the role of error framing in basic life support (BLS) training for future healthcare professionals.
Materials And Methods: In an equivalence trial ( = 430), first-year medical, dentistry, physiotherapy, and midwifery students underwent BLS training. In the three study arms, participants received either (1) instructions framing errors positively (EM), (2) instructions framing errors to be avoided (EA), or (3) no further instructions (Control). CPR performance was assessed using a resuscitation manikin measuring compression depth (CD) and compression rate (CR). The self-confidence ratings were assessed using a questionnaire. Equivalence margins for the outcome parameters and sample size calculations were based on previous standard BLS studies, using two-sided 95% confidence intervals to determine significance of equivalence.
Results: The results regarding CD revealed equivalence with a trend toward superiority of EM over EA (proportional difference 23.3%-points; 95% CI 11.4%-34.2%) and EM over control (proportional difference 23.4%-points; 95% CI 11.5%-34.2%.) and significant equivalence of EA and control (proportional difference 0.1%-points; 95% CI -11.6%-11.7%). Significant equivalence was determined for all study arms with respect to CR and self-confidence.
Conclusion: Our study revealed that EM was not detrimental to learners' CPR performance. Given existing research on long-term beneficial effects of EM on patient safety, coupled with the proven equivalence of EM and EA concerning short-term performance, we argue that EM is a promising approach for future medical education purposes. Raising awareness of error framing and teaching error-handling strategies is expected to benefit ongoing safety management efforts in medical education and beyond.
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http://dx.doi.org/10.1080/07853890.2024.2408458 | DOI Listing |
IEEE J Transl Eng Health Med
December 2024
Patients with nasogastric (NG) tubes require careful monitoring due to the potential impact of the tube on their ability to swallow safely. This study aimed to investigate the utility of high-resolution cervical auscultation (HRCA) signals in assessing swallowing functionality of patients using feeding tubes. HRCA, capturing swallowing vibratory and acoustic signals, has been explored as a surrogate for videofluoroscopy image analysis in previous research.
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December 2024
Neuroplasticity, Imagery, and Motor Behaviour Lab, Department of Psychology, University of British Columbia, Kelowna, BC, Canada.
Background: Markerless motion tracking methods have promise for use in a range of domains, including clinical settings where traditional marker-based systems for human pose estimation are not feasible. Artificial intelligence (AI)-based systems can offer a markerless, lightweight approach to motion capture. However, the accuracy of such systems, such as MediaPipe, for tracking fine upper limb movements involving the hand has not been explored.
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CAEN, Viareggio, Italy.
We provide a technical description and experimental results of the practical development and offline testing of an innovative, closed-loop, adaptive mirror system capable of making rapid, precise and ultra-stable changes in the size and shape of reflected X-ray beams generated at synchrotron light and free-electron laser facilities. The optical surface of a piezoelectric bimorph deformable mirror is continuously monitored at 20 kHz by an array of interferometric sensors. This matrix of height data is autonomously converted into voltage commands that are sent at 1 Hz to the piezo actuators to modify the shape of the mirror optical surface.
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December 2024
Laboratory of the Physics of Biological Systems, Institute of Physics, École Polytechnique Federale de Lausanne (EPFL), CH-1015 Lausanne, Switzerland.
Scar-less genome editing in budding yeast with elimination of the selection marker has many advantages. Some markers such as URA3 and TRP1 can be recycled through counterselection. This permits seamless genome modification with pop-in/pop-out (PIPO), in which a DNA construct first integrates in the genome and, subsequently, homologous regions recombine and excise undesired sequences.
View Article and Find Full Text PDFEur J Nucl Med Mol Imaging
December 2024
School of Biomedical Engineering, Shanghai Jiao Tong University, Shanghai, 200240, China.
Purpose: Prolonged scanning durations are one of the primary barriers to the widespread clinical adoption of dynamic Positron Emission Tomography (PET). In this paper, we developed a deep learning algorithm that capable of predicting dynamic images from dual-time-window protocols, thereby shortening the scanning time.
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