A new computational model coupling gastric fluid flow, acid transport, and pathogen kinetics finds that reduced motility allows nearly 50% pathogen survival at 6 minutes versus under 30% in healthy cases, showing motility dominates gastric sterilization.
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Kriging and Gaussian mixture modeling applied to HST data yield 1-pc resolution dust extinction maps in the SMC and LMC, showing log-normal column density distributions and systematic differences from FIR-derived dust masses.
Simulations in a human stomach model quantify how reduced peristaltic amplitudes affect protein hydrolysis rates, emptying rates, and mixing induced by antral waves.
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Flow-Mediated Regulation of Pathogen Survival in the Human Stomach
A new computational model coupling gastric fluid flow, acid transport, and pathogen kinetics finds that reduced motility allows nearly 50% pathogen survival at 6 minutes versus under 30% in healthy cases, showing motility dominates gastric sterilization.
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Scylla VI: Parsec-Scale Dust Extinction Maps in the SMC and LMC
Kriging and Gaussian mixture modeling applied to HST data yield 1-pc resolution dust extinction maps in the SMC and LMC, showing log-normal column density distributions and systematic differences from FIR-derived dust masses.
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Effect of Antral Motility on Food Hydrolysis and Gastric Emptying from the Stomach: Insights from Computational Models
Simulations in a human stomach model quantify how reduced peristaltic amplitudes affect protein hydrolysis rates, emptying rates, and mixing induced by antral waves.