LEADER 00000cam a2200841Ia 4500 001 ocn794327677 003 OCoLC 005 20190405013554.5 006 m o d 007 cr cnu---unuuu 008 120528s2012 enk ob 001 0 eng d 019 794707324|a817920069 020 9781139379489|q(electronic book) 020 1139379488|q(electronic book) 020 9781139375191 020 1139375199 020 9781139045582|q(electronic book) 020 113904558X|q(electronic book) 020 |z9781139376624 020 |z1139376624 020 |z9780521768238|q(Cloth) 020 |z0521768233|q(Cloth) 024 8 9786613640789 035 (OCoLC)794327677|z(OCoLC)794707324|z(OCoLC)817920069 040 EBLCP|beng|epn|cEBLCP|dOCLCQ|dCDX|dN$T|dYDXCP|dE7B|dOCLCQ |dDEBSZ|dCAMBR|dOCLCQ|dD6H|dOCLCQ|dOCLCO|dOCLCA|dCOO|dBUF |dOCLCO|dUUM|dOCLCF|dOCLCO|dOCLCQ|dOCLCA 049 RIDW 050 4 QH505 072 7 SCI|x009000|2bisacsh 082 04 571.401/13|a571.40113|222 084 TEC009000|2bisacsh 090 QH505 100 1 Beard, Daniel A.,|d1971-|0https://id.loc.gov/authorities/ names/no98065538 245 10 Biosimulation :|bsimulation of living systems /|cDaniel A. Beard. 264 1 Cambridge ;|aNew York :|bCambridge University Press, |c2012. 300 1 online resource. 336 text|btxt|2rdacontent 337 computer|bc|2rdamedia 338 online resource|bcr|2rdacarrier 340 |gpolychrome|2rdacc 347 text file|2rdaft 490 1 Cambridge texts in biomedical engineering 504 Includes bibliographical references and index. 505 0 Cover; Biosimulation; Series; Title; Copyright; Contents; Preface; Extracts; 1: Introduction to simulation of biological systems; Overview; 1.1 Modeling approaches; 1.2 An introductory example: biochemistry of a home aquarium; 1.2.1 First model: a nonmechanistic analysis; 1.2.2 Nonmechanistic analysis with noise; 1.2.3 Mechanistic modeling; 1.3 Recapitulation and lessons learned; Problems; 2: Transport and reaction of solutes in biological systems; Overview; 2.1 Well-mixed systems: compartmental modeling; 2.2 Passive flow of water, solutes, and electrical current across membranes. 505 8 2.2.1 Basic equations2.2.2 Example: volume changes in isolated glomeruli; 2.3 Simulating chemical reactions; 2.3.1 Example: synthesis of ethanol from xylose; 2.4 Distributed transport modeling; 2.4.1 Flowing systems: the advection equation; 2.4.2 Reaction-diffusion systems; 2.4.3 Advection-reaction-diffusion systems; 2.5 Recapitulation and lessons learned; Problems; 3: Physiologically based pharmacokinetic modeling; Overview; 3.1 Introduction to lumped compartmental PBPK modeling; 3.1.1 Basic equations; 3.1.2 Comparison of distributed and lumped transport models. 505 8 3.1.3 Quasi-steady model reduction3.1.4 Lumped versus distributed transport modeling: a final word; 3.2 Overview of the mammalian circulatory system; 3.3 Whole-body PBPK simulation; 3.4 Example: uptake and delivery of matrine in rat; 3.4.1 A PBPK model for rat; 3.4.2 Model parameters; 3.4.3 Flow-limited transport; 3.4.4 Model validation and discrimination; 3.5 Recapitulation and lessons learned; Problems; 4: Cardiovascular systems simulation; Overview; 4.1 The Frank-Starling mechanism of heart; 4.2 An analysis of the physiological factors that control cardiac output. 505 8 4.2.1 Guyton's model of the systemic circulation4.2.2 What the model tells us about the relationship between flow and right atrial pressure; 4.2.3 How the simple Guyton model is commonly misinterpreted; 4.3 Pulsatile mechanics of the circulatory system; 4.3.1 Time-varying elastance models of the heart; 4.3.2 Simulation of the aortic pressure waveform; 4.4 Dynamic changes in blood pressures and flows; 4.4.1 Baroreceptor control of systemic pressure; 4.5 Mechanisms of hypertension; 4.6 Recapitulation and lessons learned; Problems. 505 8 5: Chemical reaction systems: thermodynamics and chemical equilibriumOverview; 5.1 Temperature, pressure, and entropy; 5.1.1 Microstates and macrostates; 5.1.2 Example: a simple two-state system; 5.1.3 Relationship between temperature and entropy; 5.1.4 Relationship between pressure and entropy; 5.2 Free energy under constant- temperature and constant-volume conditions; 5.3 Free energy under constant-temperature and constant-pressure conditions; 5.4 Thermodynamic ensembles, partition functions, and driving forces; 5.5 Chemical reactions, stoichiometry, and equilibrium constants; 5.6 Acids, bases, and buffers. 520 A hands-on guide to devising, designing and analyzing simulations of biophysical processes for applications in biological and biomedical sciences. 588 0 Print version record. 590 eBooks on EBSCOhost|bEBSCO eBook Subscription Academic Collection - North America 650 0 Biophysics|0https://id.loc.gov/authorities/subjects/ sh85014253|xComputer simulation.|0https://id.loc.gov/ authorities/subjects/sh99005300 650 0 Biophysics|0https://id.loc.gov/authorities/subjects/ sh85014253|xSimulation methods.|0https://id.loc.gov/ authorities/subjects/sh99005303 650 0 Biomedical engineering|0https://id.loc.gov/authorities/ subjects/sh85014237|xComputer simulation.|0https:// id.loc.gov/authorities/subjects/sh99005300 650 0 Medical sciences|0https://id.loc.gov/authorities/subjects/ sh85083022|vCase studies.|0https://id.loc.gov/authorities/ subjects/sh99001484 650 7 Biophysics.|2fast|0https://id.worldcat.org/fast/832656 650 7 Computer simulation.|2fast|0https://id.worldcat.org/fast/ 872518 650 7 Simulation methods.|2fast|0https://id.worldcat.org/fast/ 1119166 650 7 Biomedical engineering|xComputer simulation.|2fast|0https: //id.worldcat.org/fast/832569 650 7 Biomedical engineering.|2fast|0https://id.worldcat.org/ fast/832568 650 7 Medical sciences.|2fast|0https://id.worldcat.org/fast/ 1014601 655 2 Case Reports.|0https://id.nlm.nih.gov/mesh/D002363 655 4 Electronic books. 655 7 Case studies.|2fast|0https://id.worldcat.org/fast/1423765 655 7 Case studies.|2lcgft|0https://id.loc.gov/authorities/ genreForms/gf2017026140 776 08 |iPrint version:|aBeard, Daniel A., 1971-|tBiosimulation. |dCambridge ; New York : Cambridge University Press, 2012 |z9780521768238|w(DLC) 2011046839|w(OCoLC)761858511 830 0 Cambridge texts in biomedical engineering.|0https:// id.loc.gov/authorities/names/no2007047067 856 40 |uhttps://rider.idm.oclc.org/login?url=http:// search.ebscohost.com/login.aspx?direct=true&scope=site& db=nlebk&AN=443737|zOnline eBook via EBSCO. 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