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X-WR-CALNAME:Biomedical Mathematics Group
X-ORIGINAL-URL:https://www.ibs.re.kr/bimag
X-WR-CALDESC:Events for Biomedical Mathematics Group
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BEGIN:VTIMEZONE
TZID:Asia/Seoul
BEGIN:STANDARD
TZOFFSETFROM:+0900
TZOFFSETTO:+0900
TZNAME:KST
DTSTART:20220101T000000
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BEGIN:VEVENT
DTSTART;TZID=Asia/Seoul:20231020T110000
DTEND;TZID=Asia/Seoul:20231020T120000
DTSTAMP:20260426T081902
CREATED:20230831T143835Z
LAST-MODIFIED:20231124T001740Z
UID:8411-1697799600-1697803200@www.ibs.re.kr
SUMMARY:Tetsuya J. Kobayashi\, Optimality of Biological Information Processing
DESCRIPTION:Abstract: \nAlmost all biological systems possess the ability to gather environmental information and modulate their behaviors to adaptively respond to changing environments. While animals excel at sensing odors\, even simple bacteria can detect faint chemicals using stochastic receptors. They then navigate towards or away from the chemical source by processing this sensed information through intracellular reaction systems. \nIn the first half of our talk\, we demonstrate that the E. coli chemotactic system is optimally structured for sensing noisy signals and controlling taxis. We utilize filtering theory and optimal control theory to theoretically derive this optimal structure and compare it to the quantitatively verified biochemical model of chemotaxis. \nIn the latter half\, we discuss the limitations of traditional information theory\, filtering theory\, and optimal control theory in analyzing biological systems. Notably\, all biological systems\, especially simpler ones\, have constrained computational resources like memory size and energy\, which influence optimal behaviors. Conventional theories don’t directly address these resource constraints\, likely because they emerged during a period when computational resources were continually expanding. To address this gap\, we introduce the “memory-limited partially observable optimal control\,” a new theoretical framework developed by our group\, and explore its relevance to biological problems.
URL:https://www.ibs.re.kr/bimag/event/tetsuya-j-kobayashi-optimality-of-biological-information-processing/
LOCATION:ZOOM ID: 997 8258 4700 (Biomedical Mathematics Online Colloquium)\, (pw: 1234)
CATEGORIES:Biomedical Mathematics Online Colloquium
ATTACH;FMTTYPE=image/jpeg:https://www.ibs.re.kr/bimag/cms/wp-content/uploads/2023/08/Tetsuya-Kobayashi-1.jpeg
ORGANIZER;CN="Jae Kyoung Kim":MAILTO:jaekkim@kaist.ac.kr
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Seoul:20231020T140000
DTEND;TZID=Asia/Seoul:20231020T160000
DTSTAMP:20260426T081902
CREATED:20230929T231212Z
LAST-MODIFIED:20231018T020716Z
UID:8568-1697810400-1697817600@www.ibs.re.kr
SUMMARY:Hyeontae Jo\, AutoScore:A Machine Learning–Based Automatic Clinical Score Generator and Its Application to Mortality Prediction Using Electronic Health Records
DESCRIPTION:We will discuss about “AutoScore:A Machine Learning–Based Automatic Clinical Score Generator and Its Application to Mortality Prediction Using Electronic Health Records”\, Xie\, Feng\, et al.\, JMIR medical informatics 8.10 (2020): e21798. \nAbstract\nBackground: Risk scores can be useful in clinical risk stratification and accurate allocations of medical resources\, helping health providers improve patient care. Point-based scores are more understandable and explainable than other complex models and are now widely used in clinical decision making. However\, the development of the risk scoring model is nontrivial and has not yet been systematically presented\, with few studies investigating methods of clinical score generation using electronic health records. \nObjective: This study aims to propose AutoScore\, a machine learning-based automatic clinical score generator consisting of 6 modules for developing interpretable point-based scores. Future users can employ the AutoScore framework to create clinical scores effortlessly in various clinical applications. \nMethods: We proposed the AutoScore framework comprising 6 modules that included variable ranking\, variable transformation\, score derivation\, model selection\, score fine-tuning\, and model evaluation. To demonstrate the performance of AutoScore\, we used data from the Beth Israel Deaconess Medical Center to build a scoring model for mortality prediction and then compared the data with other baseline models using the receiver operating characteristic analysis. A software package in R 3.5.3 (R Foundation) was also developed to demonstrate the implementation of AutoScore. \nResults: Implemented on the data set with 44\,918 individual admission episodes of intensive care\, the AutoScore-created scoring models performed comparably well as other standard methods (ie\, logistic regression\, stepwise regression\, least absolute shrinkage and selection operator\, and random forest) in terms of predictive accuracy and model calibration but required fewer predictors and presented high interpretability and accessibility. The nine-variable\, AutoScore-created\, point-based scoring model achieved an area under the curve (AUC) of 0.780 (95% CI 0.764-0.798)\, whereas the model of logistic regression with 24 variables had an AUC of 0.778 (95% CI 0.760-0.795). Moreover\, the AutoScore framework also drives the clinical research continuum and automation with its integration of all necessary modules. \nConclusions: We developed an easy-to-use\, machine learning-based automatic clinical score generator\, AutoScore; systematically presented its structure; and demonstrated its superiority (predictive performance and interpretability) over other conventional methods using a benchmark database. AutoScore will emerge as a potential scoring tool in various medical applications.
URL:https://www.ibs.re.kr/bimag/event/2023-10-20-jc/
LOCATION:B378 Seminar room\, IBS\, 55 Expo-ro Yuseong-gu\, Daejeon\, 34126\, Korea\, Republic of
CATEGORIES:Journal Club
ORGANIZER;CN="Jae Kyoung Kim":MAILTO:jaekkim@kaist.ac.kr
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