Search results for "Simulation"

showing 10 items of 5095 documents

Clinical Simulation in pediatrics and neonatology using EDISON: an educational innovation project

2021

Introduction: Clinical simulation is a tool that allows creating controlled and safe spaces that mimic reality, where students can acquire skills and abilities prior to facing real situations. Methodology: This is a study with two phases. The first quasi-experimental phase where 3 questionnaires were used; two of them to assess knowledge (pretest - posttest) and the other one to assess the satisfaction of the training action. And the second phase was analytical, where the effectiveness of a training intervention in a confinement context based on the use of audiovisual materials created through EDISON was evaluated. Results: In 2019 the average satisfaction of the students was 9.22 (SD 0.72)…

medicine.medical_specialtyMedical educationCardiopulmonary resuscitationHigher educationbusiness.industrymedicine.medical_treatmentTeachingClinical simulationEducational systemsEducational innovationHigher EducationPediatricsUniversity teachingmedicineLearningNeonatologyCardiopulmonary resuscitationUniversity teachingPsychologybusinessEducational systems
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Prediction of dilutional acidosis based on the revised classical dilution concept for bicarbonate

2004

Due to the controversy surrounding the term dilutional acidosis, the classical dilution concept for bicarbonate has been rigorously revised for the prediction of pH, actual bicarbonate concentration, and base excess. In the algorithms derived for buffer solutions, blood, and whole body (1-, 2-, and 3-fluid compartment), only bicarbonate is considered. On dilution at constant Pco2, the final concentration of bicarbonate is the sum in terms of pH, due to the following processes: dilution, formation from chemical reaction with the nonbicarbonate buffers phosphate, hemoglobin, and plasma proteins, and transfer from erythrocytes and interstitial fluid to plasma. At constant Pco2, the level of c…

medicine.medical_specialtyMetabolic Clearance RatePhysiologyBicarbonateVolume replacementIndicator Dilution TechniquesModels Biologicalchemistry.chemical_compoundPhysiology (medical)Volume expansionBicarbonate buffering systemmedicineAnimalsHumansComputer SimulationTissue DistributionDiagnosis Computer-AssistedAcidosisChemistryAcute normovolemic hemodilutionMetabolic disorderHydrogen-Ion ConcentrationPrognosismedicine.diseaseSurgeryDilutionBicarbonatesModels ChemicalAnesthesiamedicine.symptomAcidosisAlgorithmsJournal of Applied Physiology
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Comprehensive pharmacokinetic model of insulin Glargine and other insulin formulations.

2005

In this paper, a comprehensive pharmacokinetic model for different insulin formulations including insulin Glargine is developed based on the model proposed by Trajanoski et al. (1993). Current models show limitations for insulin Glargine due to the appearance of an uncharacteristic peak in the concentration-time evolution of plasma insulin that does not coincide with real experimental data. This important limitation has been solved in this paper by introducing a new virtual insulin state called the bound state, in addition to the dimeric and hexameric ones. Trying to describe the retarded action of insulin Glargine, the modeling idea behind this approach is that immediately after the subcut…

medicine.medical_specialtyMetabolic Clearance Ratemedicine.medical_treatmentBiomedical EngineeringInsulin GlargineModels BiologicalInsulin Infusion SystemsPharmacokineticsInternal medicinemedicineApplied mathematicsHumansInsulinComputer SimulationSpatial diffusionMathematicsInsulin glargineInsulinDrug Therapy Computer-AssistedInsulin Long-ActingExogenous insulinEndocrinologyLiverPatient behaviorPlasma insulinmedicine.drugIEEE transactions on bio-medical engineering
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Integrals of birth and death processes

1980

medicine.medical_specialtyObstetricsApplied MathematicsModeling and SimulationEconomicsmedicineAgricultural and Biological Sciences (miscellaneous)Journal of Mathematical Biology
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A novel heuristic algorithm for the modeling and risk assessment of the COVID-19 pandemic phenomenon

2020

This article belongs to the special issue: Soft computing techniques in materials science and engineering Summarization: The modeling and risk assessment of a pandemic phenomenon such as COVID-19 is an important and complicated issue in epidemiology, and such an attempt is of great interest for public health decision-making. To this end, in the present study, based on a recent heuristic algorithm proposed by the authors, the time evolution of COVID-19 is investigated for six different countries/states, namely New York, California, USA, Iran, Sweden and UK. The number of COVID-19-related deaths is used to develop the proposed heuristic model as it is believed that the predicted number of dai…

medicine.medical_specialtyOperations researchComputer scienceHeuristic (computer science)media_common.quotation_subjectPopulationPhenomenonEpidemiologyPandemicmedicineQuality (business)educationmedia_commoneducation.field_of_studyGaussian-functionSARS-CoV-2Public healthCOVID-19Pandemic trendComputer Science ApplicationsHeuristic modelAlgorithmModeling and SimulationRisk assessmentPredictionSoftware
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On the Number of Measurements Necessary to Assess Regional Cerebral Blood Flow by Local Laser Doppler Recordings: A Simulation Study with Data from 4…

1995

Laser Doppler fluxmetry may improve the monitoring of cortical blood flow in neurosurgical patients. So far, however, the variability of laser Doppler readings found in the cerebral cortex has prevented a consequent usage of the technique in clinical practice. The current report analyzes the regional variability of laser Doppler readings from experimental animals. Typical frequency histograms of observed flow values display non-Gaussian distributions. A simulation technique is used to assess the number of measuring sites required for valid estimates of regional cortical flow. From a total of 990 local flow measurements from 45 rabbits random samples of sizes between 5 and 100 were repeatedl…

medicine.medical_specialtyPercentilePhysiologyReproducibility of ResultsBlood flowLaser Doppler velocimetryMicrocirculationSurgeryRandom AllocationCerebral blood flowFlow (mathematics)Evaluation Studies as TopicSample size determinationCerebrovascular CirculationLaser doppler fluxmetryLaser-Doppler FlowmetrymedicineAnimalsEnvironmental scienceComputer SimulationFemaleRabbitsCardiology and Cardiovascular MedicineBiomedical engineeringInternational Journal of Microcirculation
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Impact of Aortic Stenosis on Myofiber Stress: Translational Application of Left Ventricle-Aortic Coupling Simulation

2020

The severity of aortic stenosis (AS) has traditionally been graded by measuring hemodynamic parameters of transvalvular pressure gradient, ejection jet velocity, or estimating valve orifice area. Recent research has highlighted limitations of these criteria at effectively grading AS in presence of left ventricle (LV) dysfunction. We hypothesized that simulations coupling the aorta and LV could provide meaningful insight into myocardial biomechanical derangements that accompany AS. A realistic finite element model of the human heart with a coupled lumped-parameter circulatory system was used to simulate AS. Finite element analysis was performed with Abaqus FEA. An anisotropic hyperelastic mo…

medicine.medical_specialtyPhysiology0206 medical engineeringfinite element methodHemodynamics02 engineering and technology030204 cardiovascular system & hematologylcsh:PhysiologyStress (mechanics)03 medical and health sciences0302 clinical medicinemedicine.arteryInternal medicinePhysiology (medical)medicinemyofiber stressMyocyteAortalcsh:QP1-981business.industryAortic stenosisBiomechanicsrealistic simulationSettore ING-IND/34 - Bioingegneria Industrialemedicine.disease020601 biomedical engineeringStenosismedicine.anatomical_structureVentricleCirculatory systemCardiologyventricular functionventricle-aortic couplingbusiness
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CAD Modeling for Evaluating LVOT Obstruction in Transcatheter Mitral Valve Replacement

2019

The current generation of transcatheter heart valves (THV), as the Edwards SAPIEN 3 Ultra (S3), is not specifically designed for mitral position implantation and has intrinsic design geometry that may make mitral implantation suboptimal. This study aimed to develop a computed-tomography (CT) based CAD workflow for the preoperative planning of transcatheter mitral valve replacement (TMVR) by evaluating the resulting obstruction in the left ventricular outflow tract (LVOT). Specifically, the computational framework to reconstruct heart anatomy and virtually deploy the THV into mitral valve annulus was developed and successively applied to the cases of two patients who experienced annuloplasty…

medicine.medical_specialtyPreoperative planningbusiness.industryHeart anatomymedicine.medical_treatmentMitral valve replacementCAD030204 cardiovascular system & hematologyVirtual simulation03 medical and health sciences0302 clinical medicineInternal medicineMedical imagingmedicineCardiologyVentricular outflow tractMitral Valve AnnulusCADcardiovascular diseases030212 general & internal medicineMedical imagingbusinessReverse engineeringTranscatheter mitral valve replacementEdwards sapien
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Effects of Textured Compression Socks on Postural Control in Physically Active Elderly Individuals

2014

The aim of this investigation was to analyze the role of textured compression socks on somatosensory function in a sample of physically active elderly individuals when performing a static balancing task. Both textured insoles and athletic tape are deemed to be beneficial for enhancing proprioception because of the capacity for exploiting availability of “sensorimotor system noise”, which enhances movement control and individuals’ joint position perception. It was hypothesized that the compression feature in knee length socks would provide greater stimulation to lower leg mechanoreceptors, and help participants achieve better balance control. Participants (N=8) performed a 30-s Romberg stati…

medicine.medical_specialtyProprioceptioncomputer.internet_protocolbalance controlRecurrence Quantification Analysis (RQA)Poison controlCompression socksGeneral Medicinecompression socksBarefootPhysical medicine and rehabilitationSOCKSMultivariate analysis of varianceRecurrence quantification analysisBalance Control.medicineMain effectta315Recurrence plotcomputerEngineering(all)SimulationMathematicsProcedia Engineering
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Simplified Electrophysiology Modeling Framework to Assess Ventricular Arrhythmia Risk in Infarcted Patients

2021

Patients that have suffered a myocardial infarction are at lifetime high risk for sudden cardiac death (SCD). Personalized 3D computational modeling and simulation can help to find non-invasively arrhythmogenic features of patients’ infarcts, and to provide additional information for stratification and planning of radiofrequency ablation (RFA). Currently, multiscale biophysical models require high computational resources and long simulations times, which make them impractical for clinical environments. In this paper, we develop a phenomenological solver based on cellular automata to simulate cardiac electrophysiology, with results comparable to those of biophysical models. The solver can ru…

medicine.medical_specialtyRadiofrequency ablationCardiac electrophysiologyComputer scienceSolvermedicine.diseaseVentricular tachycardiaCellular automatonlaw.inventionSudden cardiac deathModeling and simulationlawInternal medicinecardiovascular systemmedicineCardiologyMyocardial infarction
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