Background The Coronavirus Disease 2019 (COVID-19) pandemic has necessitated a sudden transition to remote learning in medical schools. We aimed to assess perceptions of remote learning among pre-clinical medical students and subsequently to identify pros and cons of remote learning, as well as uncover gaps to address in ongoing curricular development. Methods A survey was distributed to first- and second-year medical students at the University of California San Diego School of Medicine in March 2020. Frequencies of responses to structured multiple-choice questions were compared regarding impacts of remote learning on quality of instruction and ability to participate, value of various remote learning resources, living environment, and preparedness for subsequent stages of training. Responses to open-ended questions about strengths and weaknesses of the remote curriculum and overall reflections were coded for thematic content. Results Of 268 students enrolled, 104 responded (53.7% of first-year students and 23.9% of second-year students). Overall, students felt that remote learning had negatively affected the quality of instruction and their ability to participate. Most (64.1%) preferred the flexibility of learning material at their own pace. Only 25.5% of respondents still felt connected to the medical school or classmates, and feelings of anxiety and isolation were noted negatives of remote learning. Most second-year students (56.7%) felt their preparation for the United States Medical Licensing Examination Step 1 exam was negatively affected, and 43.3% felt unprepared to begin clerkships. In narrative responses, most students appreciated the increased flexibility of remote learning, but they also identified several deficits that still need to be addressed, including digital fatigue, decreased ability to participate, and lack of clinical skills, laboratory, and hands-on learning. Conclusions Videocasted lectures uploaded in advance, electronic health record and telehealth training for students, and training for teaching faculty to increase technological fluency may be considered to optimize remote learning curricula.
Background: The COVID-19 pandemic has necessitated a sudden transition to remote learning in medical schools. We aimed to assess student perceptions of remote learning during the pre-clinical curricular training phase. Methods: A survey was distributed to first- and second-year medical students enrolled at the University of California San Diego School of Medicine in March 2020. Frequencies of responses to structured multiple-choice questions were compared regarding impacts of remote learning on quality of instruction and ability to participate, value of various remote learning resources, living environment, and preparedness for subsequent stages of training. Responses to open-ended questions about strengths and weaknesses of the remote curriculum and overall reflections were coded for thematic content.Results: Of 268 students enrolled, 104 responded (53.7% of first-year students and 23.9% of second-year students). Overall, students felt the quality of instruction and their ability to participate had been negatively affected. Most (64.1%) preferred the flexibility of learning material at their own pace. Only 25.5% of respondents still felt connected to the medical school or classmates. Most second-year students (56.7%) felt their preparation for the USMLE Step 1 exam was negatively affected and 43.3% felt unprepared to begin clerkships. In narrative responses, most appreciated the increased flexibility of remote learning but recognized that digital fatigue, decreased ability to participate, and lack of clinical skills and hands-on lab learning were notable deficits.Conclusions: Videocasted lectures uploaded in advance, electronic health record and telehealth training for students, and training for teaching faculty to increase technological fluency may be considered to optimize remote learning curricula.
Purpose To assess student perceptions of remote learning curricula implemented by clinical clerkships at a single US medical school during the COVID-19 pandemic. Method Students enrolled in core clinical clerkships at the UC San Diego School of Medicine from March to April 2020 were sent an anonymous online survey, assessing components of remote learning curricula via quantitative rating and free-response questions. Results Of 132 students enrolled, 96 (73%) completed the survey. Online question banks, remote progress reviews, and telehealth sessions were rated as the most valuable resources, while textbooks were rated least valuable. Most students felt that the number of resources was adequate (69/94, 74%), the quantity of required content was appropriate (77/93, 83%), and there was a good balance of rigidity versus flexibility in the schedule (81/94, 86%). Most students felt "prepared" or "somewhat prepared" for the shelf examination (61/91, 67%) and for the next year of medical training (73/94, 78%). In narrative reflections, students valued the flexibility afforded by remote curricula but desired some weekly structure. Students enjoyed expanded access to learning resources and participating in interactive remote sessions. Students expressed anxiety about the pandemic and uncertainty regarding medical education, but transparent communication from clerkship directors helped assuage these concerns. Conclusions Student participation in direct patient care is fundamental to medical school core clerkships and was negatively impacted by the COVID-19 pandemic. Strategic incorporation of select remote learning components into clinical clerkships may permit a favorable student experience even when opportunities for on-site participation are limited.
Background Acute loss of smell and taste are well‐recognized symptoms of coronavirus disease 2019 (COVID‐19), yet the correlation between self‐reported and psychophysical olfactory function remains unclear. Understanding the reliability of self‐reported smell loss in ambulatory cases can assess the utility of this screening measure. Methods A prospective, longitudinal study evaluating patient‐reported and measured olfactory function using the validated 12‐item Brief Smell Identification Test (BSIT) was conducted on adult outpatients with COVID‐19. Patient‐reported olfaction scores using a visual analog scale (VAS) were obtained at baseline, time of COVID‐19 testing, and time of BSIT completion. Linear associations between VAS and BSIT were evaluated using Spearman's correlation coefficient and the sensitivity, specificity, and accuracy of VAS scores were calculated. Logistic regression identified characteristics associated with accurate assessment of olfactory function. Results A total of 81 polymerase chain reaction (PCR)‐confirmed COVID‐19 positive subjects, of whom 54 self‐reported smell loss, were prospectively recruited ≤5 days from diagnosis date between May 8, 2020, and July 8, 2020. Self‐reported smell loss had good discriminative ability in identifying abnormal BSIT (area under receiver operating curve [AUC] 0.82, 95% confidence interval [CI], 0.71 to 0.92). A VAS <5 demonstrated sensitivity of 0.62 and specificity of 0.94 for predicting hyposmia (BSIT ≤8) with accuracy of 82.7%, whereas a VAS <9 had highest sensitivity at 0.86. Moderate bivariate linear associations were found between VAS and BSIT scores (rs = 0.59, p < 0.001). Conclusion Self‐reported olfactory loss associated with COVID‐19 has a strong ability to predict abnormal olfactory function though the 2 measures are moderately correlated. Subjective olfactory assessment is useful in screening olfactory dysfunction at early disease time points when psychophysical testing cannot be conducted.
Inhibition of Escherichia coli CTP Synthetase by NADH and Other Nicotinamides and Their Mutual Interactions with CTP and GTP
CTP synthetases catalyze the last step of pyrimidine biosynthesis and provide the sole de novo source of cytosine-containing nucleotides. As a central regulatory hub, they are regulated by ribonucleotide and enzyme concentration through ATP and UTP substrate availability, CTP product inhibition, GTP allosteric modification, and quaternary structural changes including the formation of CTPinhibited linear polymers (filaments). Here, we demonstrate that nicotinamide redox cofactors are moderate inhibitors of Escherichia coli CTP synthetase (EcCTPS). NADH and NADPH are the most potent, and the primary inhibitory determinant is the reduced nicotinamide ring. Although nicotinamide inhibition is noncompetitive with substrates, it apparently enhances CTP product feedback inhibition and GTP allosteric regulation. Further, CTP and GTP also enhance each other’s effects, consistent with the idea that NADH, CTP, and GTP interact with a common intermediate enzyme state. A filamentblocking mutation that reduces CTP inhibitory effects also reduced inhibition by GTP but not NADH. Protein-concentration effects on GTP inhibition suggest that, like CTP, GTP preferentially binds to the filament. All three compounds display nearly linear dose-dependent inhibition, indicating a complex pattern of cooperative interactions between binding sites. The apparent synergy between inhibitors, in consideration with physiological nucleotide concentrations, points to metabolically relevant inhibition by nicotinamides, and implicates cellular redox state as a regulator of pyrimidine biosynthesis.
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