1,094 research outputs found
Economical And Systematical Evaluation On Rainfall Harvesting System (Case Study : Rainfall Harvesting System Designed In Taebaek City, Republic Of Korea)
Recently, climate change has caused drought to become more frequent and is becoming one of the serious natural disasters, resulting damages in infrastructure facilities, economy and private property losses etc. Taebaek city of Gangwon-do lies in the northeast Korean Peninsula along the steep mountain slopes, all the way to the sea. Thu, this city exhibit the Marine Climatic Characteristics. During the past 10 years, the average rainfall of Taebaek city is 849.9mm/year, which is less than the average rainfall for the whole country (1,274mm/year). This research is still ongoing. The next assessment will be on the construction cost of rainfall harvesting system (through school types) and the LCC (Life Cycle Cost) of Maintenance Administration. After which, discussion for the impacts Rainfall Harvesting System on the water supply self-sufficiency of Taeback city will be made. Lastly, conclusion on the future economic benefit for Taeback city will be given. ACKNOWLEDGEMENT This research was supported by a grant(12-TI-C01) from Advanced Water Management Research Program funded by Ministry of Land, Infrastructure and Transport of Korean governmen
BRCA Gene Mutations in dbSNP: A Visual Exploration of Genetic Variants
BRCA genes, comprising BRCA1 and BRCA2 play indispensable roles in preserving
genomic stability and facilitating DNA repair mechanisms. The presence of
germline mutations in these genes has been associated with increased
susceptibility to various cancers, notably breast and ovarian cancers. Recent
advancements in cost-effective sequencing technologies have revolutionized the
landscape of cancer genomics, leading to a notable rise in the number of
sequenced cancer patient genomes, enabling large-scale computational studies.
In this study, we delve into the BRCA mutations in the dbSNP, housing an
extensive repository of 41,177 and 44,205 genetic mutations for BRCA1 and
BRCA2, respectively. Employing meticulous computational analysis from an
umbrella perspective, our research unveils intriguing findings pertaining to a
number of critical aspects. Namely, we discover that the majority of BRCA
mutations in dbSNP have unknown clinical significance. We find that, although
exon 11 for both genes contains the majority of the mutations and may seem as
if it is a mutation hot spot, upon analyzing mutations per base pair, we find
that all exons exhibit similar levels of mutations. Investigating mutations
within introns, while we observe that the recorded mutations are generally
uniformly distributed, almost all of the pathogenic mutations in introns are
located close to splicing regions (at the beginning or the end). In addition to
the findings mentioned earlier, we have also made other discoveries concerning
mutation types and the level of confidence in observations within the dbSNP
database
Suggestion of new possibilities in approaching individual variability in appetite through constitutional typology: a pilot study
BACKGROUND: Appetite is intricately connected to eating behaviors and shows a high individual variability. In an attempt to approach the problem of gut hormone profiles, appetite, and eating behaviors at the individual level, we have adopted a constitutional typing system widely used in traditional East-Asian medicine, the Sasang constitutional typology, in order to determine the individual variations in appetite, eating behavior, and weight change. METHODS: This pilot study was designed to investigate the variability of appetite among individuals by tracking the gut hormone patterns across different constitutional types. Pre- and post-prandial concentrations of anorectic (peptide YY (PYY), glucagon-like peptide 1 (GLP-1)) and orexigenic (active ghrelin) gut hormones were measured in healthy, normal-weight (18.5โkg/m(2) โคBMI <23โkg/m(2)) male subjects aged 20โ35 (Soyang (SY) (nโ=โ9), Taeeum (TE) (nโ=โ9), and Soeum (SE) (nโ=โ10) constitutional types). RESULTS: Significant differences were found only in the PYY concentrations across the three groups (pโ=โ0.031). The PYY concentration peaked at 30-min post-prandial in the SE group and was significantly higher compared to the other two groups (pโ=โ0.004). The GLP-1 concentration peaked at 15-min post-prandial in the SE group (not significant). The ghrelin levels at 30-min pre-prandial were relatively lower in the TE group compared to the other groups (not significant). CONCLUSIONS: In conclusion, although with weak statistical power, meaningful gut hormone patterns specific to each constitutional type were discovered in this pilot study, which could offer a new method of approaching the problem of appetite and eating behavior from the angle of individual variability in appetite
A Wideband Doherty Combiner with Phase Variation Compensation Using LTCC Applicable for High Power Transmission
In this paper, we propose a small-sized Doherty combiner with phase variation compensation using low temperature co-fired ceramic (LTCC) substrate. The proposed design theory for the Doherty combiner is derived using the phase calculation of the S-parameter based on the relation between the input and output ports. The proposed circuit is designed after determining the band edge frequency and the targeted degree of the phase balance. The proposed circuit is verified using the microstrip line and the LTCC substrate. The implemented structure, using LTCC as the substrate, is operated under a high-power test of continuous wave 50 W, the results of which also show that the amplitude and phase balance have variations within 0.2 dB and ยฑ1ยฐ, respectively. The high-power test shows that the implemented structure is applicable for high power Doherty amplifiers or combiners
Optical transitions of a single nodal ring in SrAs: radially and axially resolved characterization
We perform polarized optical reflection measurements on a single nodal-ring
semimetal . For the radial and axial directions of the ring, the
optical conductivity exhibits a flat absorption
over a certain frequency range. In addition, a
prominent optical peak appears at 2 = 30 meV. For
comparison, we theoretically calculate using an effective
model Hamiltonian and first-principles calculations, which successfully
reproduces the data for both directions. The
establishes that the universal power-law of optical conductivity holds robustly
in the nodal ring. Furthermore, key quantities of the nodal ring such as the
band overlap energy, average ring radius, ring ellipticity, and the SOC-gap are
determined from this comparative study. As temperature increases,
shows a substantial change, suggesting that a -driven
evolution occurs in the nodal ring.Comment: 6 pages, 4 figures + supplemental material (18 pages, 7 figures
Perceived marginalization and mental health of young adults with migration backgrounds in South Korea: exploring moderating and mediating mechanisms
This study explored the mediating effect of career maturity moderated by intimacy with parents and immigration backgrounds (native- or foreign-born young adults) on the relationship between perceived marginalization and the mental health of young adults with migration backgrounds (having mixed parentage of one Korean and one non-Korean immigrant parent) in South Korea. We collected data from 300 adults aged 25โ34 with migration backgrounds (204 born in Korea and 96 born abroad) through the Gallup Research Institute of Korea and conducted a moderated-moderated mediation analysis using Model 21 of PROCESS Macro in SPSS. The analysis showed that career maturity moderated by intimacy with parents and migration backgrounds mediated the relationship between perceived marginalization and mental health. However, the results were only significant for participants who were born abroad and immigrated to Korea, and not for those who were born in Korea. These findings suggest that while greater perceived marginalization leads to lower career maturity and negatively impacts the mental health of foreign-born young adults, higher levels of intimacy with parents can buffer these negative effects
Neural correlates of tactile hardness intensity perception during active grasping
While tactile sensation plays an essential role in interactions with the surroundings, relatively little is known about the neural processes involved in the perception of tactile information. In particular, it remains unclear how different intensities of tactile hardness are represented in the human brain during object manipulation. This study aims to investigate neural responses to various levels of tactile hardness using functional magnetic resonance imaging while people grasp objects to perceive hardness intensity. We used four items with different hardness levels but otherwise identical in shape and texture. A total of Twenty-five healthy volunteers participated in this study. Before scanning, participants performed a behavioral task in which they received a pair of stimuli and they were to report the perceived difference of hardness between them. During scanning, without any visual information, they were randomly given one of the four objects and asked to grasp it. We found significant blood oxygen-level-dependent (BOLD) responses in the posterior insula in the right hemisphere (rpIns) and the right posterior lobe of the cerebellum (rpCerebellum), which parametrically tracked hardness intensity. These responses were supported by BOLD signal changes in the rpCerebellum and rpIns correlating with tactile hardness intensity. Multidimensional scaling analysis showed similar representations of hardness intensity among physical, perceptual, and neural information. Our findings demonstrate the engagement of the rpCerebellum and rpIns in perceiving tactile hardness intensity during active object manipulation
Neural Activity Patterns in the Human Brain Reflect Tactile Stickiness Perception
Our previous human fMRI study found brain activations correlated with tactile stickiness perception using the uni-variate general linear model (GLM) (Yeon et al., 2017). Here, we conducted an in-depth investigation on neural correlates of sticky sensations by employing a multivoxel pattern analysis (MVPA) on the same dataset. In particular, we statistically compared multi-variate neural activities in response to the three groups of sticky stimuli: A supra-threshold group including a set of sticky stimuli that evoked vivid sticky perception; an infra-threshold group including another set of sticky stimuli that barely evoked sticky perception; and a sham group including acrylic stimuli with no physically sticky property. Searchlight MVPAs were performed to search for local activity patterns carrying neural information of stickiness perception. Similar to the uni-variate GLM results, significant multi-variate neural activity patterns were identified in postcentral gyrus, subcortical (basal ganglia and thalamus), and insula areas (insula and adjacent areas). Moreover, MVPAs revealed that activity patterns in posterior parietal cortex discriminated the perceptual intensities of stickiness, which was not present in the uni-variate analysis. Next, we applied a principal component analysis (PCA) to the voxel response patterns within identified clusters so as to find low-dimensional neural representations of stickiness intensities. Follow-up clustering analyses clearly showed separate neural grouping configurations between the Supra-and Infra-threshold groups. Interestingly, this neural categorization was in line with the perceptual grouping pattern obtained from the psychophysical data. Our findings thus suggest that different stickiness intensities would elicit distinct neural activity patterns in the human brain and may provide a neural basis for the perception and categorization of tactile stickiness
RAST-K v2-Three-Dimensional Nodal Diffusion Code for Pressurized Water Reactor Core Analysis
The RAST-K v2, a novel nodal diffusion code, was developed at the Ulsan National Institute of Science and Technology (UNIST) for designing the cores of pressurized water reactors (PWR) and performing analyses with high accuracy and computational performance by adopting state-of-the-art calculation models and various engineering features. It is a three-dimensional multi-group nodal diffusion code developed for the steady and transient states using microscopic cross-sections generated by the STREAM code for 37 isotopes. A depletion chain containing 22 actinides and 15 fission products and burnable absorbers was solved using the Chebyshev rational approximation method. A simplified one-dimensional single-channel thermal-hydraulic calculation was performed with various values for the thermal conductivity. Advanced features such as burnup adaptation and CRUD modeling capabilities are implemented for the multi-cycle analysis of commercial reactor power plants. The performance of RAST-K v2 has been validated with the measured data of PWRs operating in Korea. Furthermore, RAST-K v2 has been coupled with a sub-channel code (CTF), fuel performance code (FRAPCON), and water chemistry code for multiphysics analyses. In this paper, the calculation models and engineering features implemented in RAST-K v2 are described, and then the application status of RAST-K v2 is presented
Institutional case volume and mortality after aortic and mitral valve replacement: a nationwide study in two Korean cohorts
Background : There are only a handful of published studies regarding the volume-outcome relationship in heart valve surgery. We evaluated the association between institutional case volume and mortality after aortic valve replacement (AVR) and mitral valve replacement (MVR).
Methods : Two separate cohorts of all adults who underwent AVR or MVR, respectively, between 2009 and 2016 were analyzed using a Korean healthcare insurance database. Hospitals performing AVRs were divided into three groups according to the average annual case volume: the low- (โ70 cases/year). Hospitals performing MVRs were also grouped as the low- (โ40 cases/year). In-hospital mortality after AVR or MVR were compared among the groups.
Results : In total, 7875 AVR and 5084 MVR cases were analyzed. In-hospital mortality after AVR was 8.3% (192/2318), 4.0% (84/2102), and 2.6% (90/3455) in the low-, medium-, and high-volume centers, respectively. The adjusted risk was higher in the low- (OR 2.31, 95% CI 1.73โ3.09) and medium-volume centers (OR 1.53, 95% CI 1.09โ2.15) compared to the high-volume centers. In-hospital mortality after MVR was 9.3% (155/1663), 6.3% (94/1501), and 2.9% (56/1920) in the low-, medium-, and high-volume centers, respectively. Compared to the high-volume centers, the medium- (OR 1.97, 95% CI 1.35โ2.88) and low-volume centers (OR 2.29, 95% CI 1.60โ3.27) showed higher adjusted risk of in-hospital mortality.
Conclusions : Lower case volume is associated with increased in-hospital mortality after AVR and MVR. The results warrant a comprehensive discussion regarding regionalization/centralization of cardiac valve replacements to optimize patient outcomes
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