Purpose: Psychiatric nurses lack experience caring for patients with acute physical illnesses. Notably, they are expected to have experienced burnout when they were taking care of mentally ill patients infected with COVID-19. This study aimed to determine the impact of infection control knowledge, emergency nursing competency, and infection prevention environment on burnout. Methods: This survey was conducted on 127 psychiatric nurses from February to March 2023 using a structured self-report questionnaire. The collected data were analyzed through multiple regression analysis using the SPSS 28.0 program. Results: The subject's burnout score was 2.83 out of 5, infection control knowledge was 0.69 out of 1, emergency nursing competency was 2.80 out of 4, and infection prevention environment was 3.83 out of 5. Regression analysis showed infection control knowledge (β=-.17, p=.048) and nurses’ self-perceived efficacy in responding to an emergency (β=.26, p=.002) were factors affecting burnout, and the explanatory power for burnout was 9% (F=7.22, p<.001). Conclusion Based on these results, we believe that infection control is needed. In addition, rather than simply providing education to increase nurses' emergency nursing competence, educational measures are needed to increase nurses' sense of efficacy in responding to emergencies.

Background: The coronavirus disease-2019 (COVID-19) pandemic has led to restrictions on daily living including social distancing. These restrictions had an impact on the individual's healthy lifestyle and health status. We investigated the associated factors with changes of metabolic abnormalities among general population in COVID-19. Methods: The participants were 43,639 people who received health check-ups twice in 2019 and 2021 during COVID-19 pandemic, at 16 health promotion centers. Metabolic abnormalities were identified according to the third report of the cholesterol education program criteria. Multiple logistic regression analysis was performed to confirm the factors related to changes of metabolic abnormalities during COVID-19. Results: Metabolic syndrome and metabolic abnormalities increased overall during the COVID-19 pandemic. This increase was mostly appeared in males. The occurrence of metabolic syndrome during COVID-19 was associated with 50s and older age (odds ratio [OR], 1.130; 95% confidence interval [CI], 1.019-1.254), attempt to quit smoking (OR, 1.467; 95% CI, 1.171-1.839), start smoking (OR, 1.251; 95% CI, 1.110-1.412), decrease in aerobic exercise (OR, 1.328; 95% CI, 1.162-1.517), and increase in strength exercise (OR, 0.704; 95% CI, 0.592-0.838). Conclusions The metabolic syndrome is closely related to smoking experience and lack of exercise during COVID-19.

A standardized protocol for the isolation of cell-free DNA (cfDNA) from cerebrospinal fluid (CSF) is lacking. Therefore, we established a cfDNA isolation protocol optimized for clinical CSF specimens, integrating acceptable modifications and using artificial CSF generated from remnant CSF spiked with reference cell-free tumor DNA (ctDNA). We compared the isolation yields of in vitro diagnostic (IVD)-certified column-based (CB) and magnetic beadbased (MB) isolation. Furthermore, we modified both methods, including pre- and postelution steps. To confirm ctDNA integrity and quantify the variant allele frequency after isolation, we performed droplet digital PCR (ddPCR) targeting IDH1 R132C in the reference ctDNA. MB isolation had a higher yield than CB isolation (P < 0.0001), and post-isolation vacuum increased the final concentration in both methods, with little effect on cfDNA integrity. Our study provides a protocol to maximize CSF-ctDNA concentrations in IVD testing and future studies.

OBJECTIVE: To investigate the effects of different pilot-drilling methods on the biomechanical stability of self-tapping mini-implant systems at the time of placement in and removal from artificial bone blocks. METHODS: Two types of artificial bone blocks (2-mm and 4-mm, 102-pounds per cubic foot [102-PCF] polyurethane foam layered over 100-mm, 40-PCF polyurethane foam) were custom-fabricated. Eight mini-implants were placed using the conventional motor-driven pilot-drilling method and another 8 mini-implants were placed using a novel manual pilot-drilling method (using a manual drill) within each of the 2-mm and 4-mm layered blocks. The maximum torque values at insertion and removal of the mini-implants were measured, and the total energy was calculated. The data were statistically analyzed using linear regression analysis. RESULTS: The maximum insertion torque was similar regardless of block thickness or pilot-drilling method. Regardless of the pilot-drilling method, the maximum removal torque for the 4-mm block was statistically higher than that for the 2-mm block. For a given block, the total energy at both insertion and removal of the mini-implant for the manual pilot-drilling method were statistically higher than those for the motor-driven pilot-drilling method. Further, the total energies at removal for the 2-mm block was higher than that for the 4-mm block, but the energies at insertion were not influenced by the type of bone blocks. CONCLUSIONS: During the insertion and removal of mini-implants in artificial bone blocks, the effect of the manual pilot-drilling method on energy usage was similar to that of the conventional, motor-driven pilot-drilling method.
Foot ; Linear Models ; Polyurethanes ; Torque

Background: Liberation and extubation are important for patients supported by mechanical ventilation. Extubation success is related to the duration of an intensive care unit (ICU) stay and mortality rate. High-flow nasal cannula (HFNC) oxygen therapy has physiological and clinical benefits in respiratory care. The present study compared clinical outcomes associated with HFNC and conventional oxygen therapy (COT) among patients at high risk for reintubation. Methods: A single-center randomized clinical trial was conducted between March 2018 and June 2019. Sixty adults admitted to the ICU and who were at high-risk of reintubation and met the inclusion criteria were enrolled in this study. “High risk” for reintubation was defined as having at least one of the following risk factors: age > 65 years, Acute Physiology and Chronic Health Evaluation II score > 12 points on extubation day, obesity, poor expectoration, airway patency problems, difficult or prolonged weaning, and more than one comorbidity. The primary outcome of interest was reintubation within 72 hours. Secondary outcomes included duration of ICU and hospital stay, mortality rate, and time to reintubation. Results: Of 60 patients, 31 received HFNC and 29 received COT (mean age, 78 ± 7.8 vs. 76 ± 6.5 years, respectively). Reintubation rate within 72 hours did not differ between the groups (3 patients [9.7%] vs. 1 patient [3.4%], respectively). Reintubation time was shorter among patients who received COT than among patients who received HFNC (0.5 hour vs. 25 hours), but this difference was not statistically significant. Duration of ICU did not differ between the groups (14.7 ± 9.6 days vs. 13.8 ± 15.7 days, for HFNC and COT, respectively). Conclusion Among patients at high risk for reintubation, compared with COT, HFNC did not reduce the risk of reintubation within 72 hours.

BACKGROUND: Papillary thyroid carcinoma (PTC) of the thyroid is the most common endocrine malignancy. High prevalence of an activating point mutation of BRAF gene, BRAFV600E, has been reported in PTC. We assessed the efficiency of peptide nucleic acid clamp real-time polymerase chain reaction (PNAcqPCR) for the detection of BRAFV600E mutation in PTC in comparison with direct sequencing (DS). METHODS: A total of 265 thyroid lesions including 200 PTCs, 5 follicular carcinomas, 60 benign lesions and 10 normal thyroid tissues were tested for BRAFV600E mutation by PNAcqPCR and DS. RESULTS: The sensitivity and accuracy of the PNAcqPCR method were both higher than those of DS for the detection of the BRAFV600E mutation. In clinical samples, 89% of PTCs harbored the BRAFV600E mutation, whereas 5 follicular carcinomas, 50 benign lesions and 10 normal thyroid tissues lacked the mutation. The mutation was associated with aggressive clinical behaviors as extrathyroid invasion (p=0.015), lymph node metastasis (p=0.002) and multiple tumor numbers (p=0.016) with statistical significance. CONCLUSIONS: The PNAcqPCR method is efficiently applicable for the detection of the BRAFV600E mutation in PTCs in a clinical setting.
Carcinoma ; Factor IX ; Lymph Nodes ; Neoplasm Metastasis ; Peptide Nucleic Acids ; Point Mutation ; Prevalence ; Real-Time Polymerase Chain Reaction ; Thyroid Gland ; Thyroid Neoplasms

Agaricus bisporus is a popular edible mushroom that is cultivated worldwide. Due to its secondary homothallic nature, cultivated A. bisporus strains have low genetic diversity, and breeding novel strains is challenging. The aim of this study was to investigate the genetic diversity and population structure of globally collected A. bisporus strains using simple sequence repeat (SSR) markers. Agaricus bisporus strains were divided based on genetic distance-based groups and model-based subpopulations. The major allele frequency (MAF), number of genotypes (NG), number of alleles (NA), observed heterozygosity (HO), expected heterozygosity (HE), and polymorphic information content (PIC) were calculated, and genetic distance, population structure, genetic differentiation, and Hardy–Weinberg equilibrium (HWE) were assessed. Strains were divided into two groups by distance-based analysis and into three subpopulations by model-based analysis. Strains in subpopulations POP A and POP B were included in Group I, and strains in subpopulation POP C were included in Group II. Genetic differentiation between strains was 99%. Marker AB-gSSR-1057 in Group II and subpopulation POP C was confirmed to be in HWE. These results will enhance A. bisporus breeding programs and support the protection of genetic resources.

Agaricus bisporus is a popular edible mushroom that is cultivated worldwide. Due to its secondary homothallic nature, cultivated A. bisporus strains have low genetic diversity, and breeding novel strains is challenging. The aim of this study was to investigate the genetic diversity and population structure of globally collected A. bisporus strains using simple sequence repeat (SSR) markers. Agaricus bisporus strains were divided based on genetic distance-based groups and model-based subpopulations. The major allele frequency (MAF), number of genotypes (NG), number of alleles (NA), observed heterozygosity (HO), expected heterozygosity (HE), and polymorphic information content (PIC) were calculated, and genetic distance, population structure, genetic differentiation, and Hardy–Weinberg equilibrium (HWE) were assessed. Strains were divided into two groups by distance-based analysis and into three subpopulations by model-based analysis. Strains in subpopulations POP A and POP B were included in Group I, and strains in subpopulation POP C were included in Group II. Genetic differentiation between strains was 99%. Marker AB-gSSR-1057 in Group II and subpopulation POP C was confirmed to be in HWE. These results will enhance A. bisporus breeding programs and support the protection of genetic resources.