RESUMO
BACKGROUND: Teaching through role-plays is a preferred modality when certain behaviours or skills need to be taught. They provide a risk-free environment that simulates a real-life scenario. For a clinician, appearance in a Court of Law as an expert witness is a part of his/her legal obligation. OBJECTIVE: To explore the utility of Mock Court as an additional teaching tool for undergraduate medical students, in understanding and familiarizing with legal procedures, specifically the courtroom procedures. METHODOLOGY: We conducted Mock Court sessions with the students playing various roles, following which feedback was collected from the students, teachers and guest assessors. The data was statistically analysed by comparison of frequencies and paired t-test (pre- and post-session comparison). RESULTS: The study revealed a positive effect of the Mock Court sessions on the students, based on their increased confidence, motivation and a better grasp of legal procedures. There was a statistically significant (p < 0.001) improvement in the understanding of specific aspects of courtroom procedures after the session. CONCLUSION: The authors recommend the active implementation of Mock Court as a teaching aid for undergraduate medical students, and the use of PDSA (Deming) cycle as a tool for quality-checks and self-improvement in subsequent sessions.
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Educação de Graduação em Medicina , Estudantes de Medicina , Humanos , Masculino , Feminino , EnsinoRESUMO
ABSTRACT: We describe a safe and standardized perfusion protocol for studying brain pathology in high-risk autopsies using a custom-designed low-cost infection containment chamber and high-resolution histology. The output quality was studied using the histological data from the whole cerebellum and brain stem processed using a high-resolution cryohistology pipeline at 0.5 µm per pixel, in-plane resolution with serial sections at 20-µm thickness. To understand the pathophysiology of highly infectious diseases, it is necessary to have a safe and cost-effective method of performing high-risk autopsies and a standardized perfusion protocol for preparing high-quality tissues. Using the low-cost infection containment chamber, we detail the cranial autopsy protocol and ex situ perfusion-fixation of 4 highly infectious adult human brains. The digitized high-resolution histology images of the Nissl-stained series reveal that most of the sections were free of processing artifacts, such as fixation damage, freezing artifacts, and osmotic shock, at the macrocellular and microcellular level. The quality of our protocol was also tested with the highly sensitive immunohistochemistry staining for specific protein markers. Our protocol provides a safe and effective method in high-risk autopsies that allows for the evaluation of pathogen-host interaction, the underlying pathophysiology, and the extent of the infection across the whole brain at microscopic resolutions.
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Encéfalo , Adulto , Humanos , Autopsia , Encéfalo/patologia , Perfusão/métodosRESUMO
BACKGROUND: Forensic Microbiology is an emerging branch of science that has great potential to assist criminal investigations. Having said that, microbial analysis is not performed routinely during forensic investigations in India. This could be attributed to lack of specific training and lack of evidence-based standard protocol. OBJECTIVES: The authors attempt to highlight the key areas in forensic microbiology that need to be explored in a developing nation like India. CONTENT: Forensic microbiology could help in linking a person to a crime, determining the cause of death, estimating postmortem interval (PMI), etc. Additionally, applications are being developed by forensic microbiologists across the globe to investigate the coordinated and dynamic changes in microbial activity which occur after the death of a human host. Such evidence from the human postmortem microbiome can aid in criminal investigations and administration of justice. These recent advances and developments have the potential to transform the field of forensic microbiology in a developing country.
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Criminosos , Microbiota , Humanos , Ciências Forenses/métodos , Microbiologia Forense , ÍndiaRESUMO
Purpose Due to the potential risk of COVID-19 transmission during endonasal surgery, we studied methods to reduce droplet and aerosol generation during these procedures. Methods Droplet spread was assessed using ultraviolet light and a camera that detected fluorescence in the operative field and surgeon's personal protective equipment. Density of aerosols sized <10 µm was measured using a photometric particle counter. We designed a face-mounted negative-pressure mask placed on the patients' face during endoscopic endonasal surgery. Sixteen patients were recruited between October 2020 and March 2021 and randomly assigned to the mask and no-mask groups. We compared droplet spread and aerosols generated in both groups, with copious irrigation and continuous suction during drilling forming the mainstay of surgical technique in all cases. Results Droplet contamination due to direct spillage of fluorescein from the syringe was noted in two patients. Aerosol density rose during sphenoid drilling in both groups, with no significant difference when continuous suction and irrigation were employed (1.27 times vs. 1.07 times the baseline, p = 0 .248 ). Aerosol density rose significantly when suction and irrigation were interrupted in the no-mask group (44.9 times vs. 1.2 times, p = 0 .028) , which was not seen when the mask was used. Conclusion Aerosol generation increases during drilling in endonasal procedures and is a concern during this pandemic. The use of a rigid suction close to the drill along with copious irrigation is effective in reducing aerosol spread. The use of a negative pressure mask provides additional safety when inadvertent blockage of suction and inadequate irrigation occur.