Midlands State University Library

Biofluid mechanics : (Record no. 154848)

MARC details
000 -LEADER
fixed length control field 09373nam a22004697a 4500
003 - CONTROL NUMBER IDENTIFIER
control field ZW-GwMSU
005 - DATE AND TIME OF LATEST TRANSACTION
control field 20200902123219.0
008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
fixed length control field 200902b ||||| |||| 00| 0 eng d
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 9780128009444
040 ## - CATALOGING SOURCE
Original cataloging agency rda
Language of cataloging English
Transcribing agency MSU
Description conventions rda
041 ## -
-- eng
050 00 - LIBRARY OF CONGRESS CALL NUMBER
Classification number QP90.5
Item number .R83 2015
060 00 - NATIONAL LIBRARY OF MEDICINE CALL NUMBER
Classification number 2016 A-151
060 10 - NATIONAL LIBRARY OF MEDICINE CALL NUMBER
Classification number QU 105
084 ## - OTHER CLASSIFICATION NUMBER
Classification number mat
Source of number z
100 1# - MAIN ENTRY--PERSONAL NAME
Personal name Rubenstein, David A.
Relator term author
245 10 - TITLE STATEMENT
Title Biofluid mechanics :
Remainder of title an introduction to fluid mechanics, macrocirculation, and microcirculation /
Statement of responsibility, etc created by David A. Rubenstein, Wei Yin, and Mary D. Frame, The Department of Biomedical Engineering, Stony Brook University, Stony Brook, NY, USA.
250 ## - EDITION STATEMENT
Edition statement Second
260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT)
Place of publication, distribution, etc Amsterdam ;
-- Boston :
Name of publisher, distributor, etc Elsevier/AP, Academic Press is an imprint of Elsevier,
Date of publication, distribution, etc 2015.
300 ## - PHYSICAL DESCRIPTION
Extent 531 pages
Other physical details illustrations
Dimensions 25 cm.
336 ## - CONTENT TYPE
Source rdacontent
content type term text
337 ## - MEDIA TYPE
source rdamedia
media type term unmediated
media type code n
338 ## - CARRIER TYPE
source rdacarrier
carrier type term volume
carrier type code nc
490 1# - SERIES STATEMENT
Series statement (Academic press series in biomedical engineering)
504 ## - BIBLIOGRAPHY, ETC. NOTE
Bibliography, etc Includes bibliographical references and index.
505 ## - FORMATTED CONTENTS NOTE
Formatted contents note Part I.Fluid mechanics basics; Chapter 1.Introduction, 1.1.Note to Students about the Textbook, 1.2.Biomedical Engineering, 3.Scope of Fluid Mechanics, 1.4.Scope of Biofluid Mechanics, 1.5.Dimensions and Units, 1.6.Salient Biofluid Mechanics ,Dimensionless Numbers, End of Chapter Summary, Reference Chapter 2 Fundamentals of fluid mechanics;2.1.Fluid Mechanics Introduction, 2.2.Fundamental Fluid Mechanics Equations, 2.3.Analysis Methods, 2.4.Fluid as a Continuum, 2.5.Elemental Stress and Pressure, 2.6.Kinematics: Velocity, Acceleration, Rotation, and Deformation, 2.7.Viscosity, 2.8.Fluid Motions, 2.9.Two-Phase Flows, 2.10.Changes in the Fundamental Relationships on the Microscale, 2.11.Fluid Structure Interaction, 2.12.Introduction to Turbulent Flows and the Relationship of Turbulence to Biological Systems, End of Chapter Summary, Homework Problems, References Chapter 3 Conservation Laws; 3.1.Fluid Statics Equations Note continued, 3.2.Buoyancy, 3.3.Conservation of Mass, 3.4.Conservation of Momentum, 3.5.Momentum Equation with Acceleration, 3.6.The First and Second Laws of Thermodynamics, 3.7.The Navier, Stokes Equations, 3.8.Bernoulli Equation, End of Chapter Summary, Homework Problems, Reference Part II.Macrocirculation; Chapter 4.The Heart, 4.1.Cardiac Physiology, 4.2.Cardiac Conduction System/Electrocardiogram, 4.3.The Cardiac Cycle, 4.4.Heart Motion, 4.5.Heart Valve Function, 4.6.Disease Conditions, 4.6.1.Coronary Artery Disease, 4.6.2.Myocardial Infarction, 4.6.3.Heart Valve Diseases, End of Chapter Summary, Homework Problems, References, 5.Blood Flow in Arteries and Veins, 5.1.Arterial System Physiology, 5.2.Venous System Physiology, 5.3.Blood Cells and Plasma, 5.4.Blood Rheology, 5.5.Pressure, Flow, and Resistance: Arterial System, 5.6.Pressure, Flow, and Resistance: Venous System, 5.7.Windkessel Model for Blood Flow Note continued: 5.8.Wave Propagation in Arterial Circulation, 5.9.Flow Separation at Bifurcations and at Walls, 5.10.Flow Through Tapering and Curved Channels, 5.11.Pulsatile Flow and Turbulence, 5.12.Disease Conditions, 5.12.1.Arteriosclerosis/Stroke/High Blood Pressure, 5.12.2.Platelet Activation/Thromboembolism, 5.12.3.Aneurysm, End of Chapter Summary, Homework Problems, References Part III.Microcirculation; Chapter 6.Microvascular Beds,6.1.Microcirculation Physiology, 6.2.Endothelial Cell and Smooth Muscle Cell Physiology, 6.3.Local Control of Blood Flow, 6.4.Pressure Distribution Throughout the Microvascular Beds, 6.5.Velocity Distribution Throughout the Microvascular Beds, 6.6.Interstitial Space Pressure and Velocity, 6.7.Hematocrit/Fahraeus, Lindquist Effect/Fahraeus Effect, 6.8.Plug Flow in Capillaries, 6.9.Characteristics of Two-Phase Flow, 6.10.Interactions Between Cells and the Vessel Wall, 6.11.Disease Conditions Note continued: 6.11.1.Shock/Tissue Necrosis, 6.11.2.Edema, End of Chapter Summary, Homework Problems, References, 7.Mass Transport and Heat Transfer in the Microcirculation, 7.1.Gas Diffusion, 7.2.Glucose Transport, 7.3.Vascular Permeability, 7.4.Energy Considerations, 7.5.Transport Through Porous Media, 7.6.Microcirculatory Heat Transfer, 7.7.Cell Transfer During Inflammation/White Blood Cell Rolling and Sticking, End of Chapter Summary, Homework Problems, References, 8.The Lymphatic System, 8.1.Lymphatic Physiology, 8.2.Lymph Formation, 8.3.Flow through the Lymphatic System, 8.4.Disease Conditions, 8.4.1.Cancer Metastasis via the Lymphatic System, 8.4.2.Lymphedema,End of Chapter Summary, Homework Problems, References, Part IV.Speciality circulations and otherbiological flows; Chapter 9.Flow in the Lungs, 9.1.Lung Physiology, 9.2.Elasticity of the Lung Blood Vessels and Alveoli Note continued: 9.3.Pressure-Volume Relationship for Air Flow in the Lungs, 9.4.Ventilation Perfusion Matching, 9.5.Oxygen/Carbon Dioxide Diffusion, 9.6.Oxygen/Carbon Dioxide Transport in the Blood, 9.7.Compressible Fluid Flow, 9.8.Disease Conditions, 9.8.1.Emphysema, 9.8.2.Asthma, 9.8.3.Tuberculosis, End of Chapter Summary, Homework Problems, References, 10.Intraocular Fluid Flow, 10.1.Eye Physiology, 10.2.Eye Blood Supply, Circulation, and Drainage, 10.3.Aqueous Humor Formation, 10.4.Aquaporins, 10.5.Flow of Aqueous Humor, 10.6.Intraocular Pressure, 10.7.Disease Conditions, 10.7.1.Glaucoma, 10.7.2.Cataracts, End of Chapter Summary, Homework Problems, References, 11.Lubrication of Joints and Transport in Bone, 11.1.Skeletal Physiology, 11.2.Bone Vascular Anatomy and Fluid Phases, 11.3.Formation of Synovial Fluid, 11.4.Synovial Fluid Flow<br/>11.5.Mechanical Forces Within Joints Note continued:, 11.6.Transport of Molecules in Bone, 11.7.Disease Conditions, 11.7.1.Synovitis, 11.7.2.Bursitis/Tenosynovitis, End of Chapter Summary, Homework Problems, References, 12.Flow Through the Kidney, 12.1.Kidney Physiology, 12.2.Distribution of Blood in the Kidney, 12.3.Glomerular Filtration/Dynamics, 12.4.Tubule Reabsorption/Secretion, 12.5.Single Nephron Filtration Rate, 12.6.Peritubular Capillary Flow, 12.7.Sodium Balance and Transport of Important Molecules, 12.8.Autoregulation of Kidney Blood Flow, 12.9.Compartmental Analysis for Urine Formation, 12.10.Extracorporeal Flows: Dialysis, 12.11.Disease Conditions, 12.11.1.Renal Calculi, 12.11.2.Kidney Disease, End of Chapter Summary, Homework Problems, References, 13.Splanchnic Circulation: Liver and Spleen, 13.1.Liver and Spleen Physiology --<br/>13.2.Hepatic/Splenic Blood Flow, 13.3.Hepatic/Splenic Microcirculation Note continued: 13.4.Storage and Release of Blood in the Liver, 13.5.Active and Passive Components of the Splanchnic Circulation, 13.6.Innervation of the Spleen, 13.7.Disease Conditions, <br/>13.7.1.Hepatitis, 13.7.2.Alcoholic and Fatty Liver Disease, 13.7.3.Splenomegaly, End of Chapter Summary, Homework Problems, References, V.Modeling and experimental techniques, 14.In Silico Biofluid Mechanics, 14.1.Computational Fluid Dynamics, 14.2.Fluid Structure Interaction Modeling, 14.3.Buckingham Pi Theorem and Dynamic Similarity, 14.4.Current State of the Art for Biofluid Mechanics in Silico Research, 14.5.Future Directions of Biofluid Mechanics in Silico Research, End of Chapter Summary --<br/>Homework Problems, References, 15.In Vitro Biofluid Mechanics, 15.1.Particle Imaging Velocimetry, 15.2.Laser Doppler, Velocimetry, 15.3.Flow Chambers: Parallel Plate/Cone-and-Plate Viscometry Note continued: 15.4.Current State of the Art for Biofluid Mechanics in Vitro Research, 15.5.Future Directions of Biofluid Mechanics In Vitro Research, End of Chapter Summary, Homework Problems, References, 16.In Vivo Biofluid Mechanics, 16.1.Live Animal Preparations, 16.2.Doppler Ultrasound, 16.3.Phase Contrast Magnetic Resonance Imaging, 16.4.Review of Other Techniques, 16.5.Current State of the Art for Biofluid Mechanics In Vivo Research, 16.6.Future Directions of Biofluid Mechanics In Vivo Research, End of Chapter Summary, Homework Problems, References.
520 ## - SUMMARY, ETC.
Summary, etc Biofluid Mechanics: An Introduction to Fluid Mechanics, Macrocirculation, and Microcirculation shows how fluid mechanics principles can be applied not only to blood circulation, but also to air flow through the lungs, joint lubrication, intraocular fluid movement, renal transport among other specialty circulations. This new second edition increases the breadth and depth of the original by expanding chapters to cover additional biofluid mechanics principles, disease criteria, and medical management of disease, with supporting discussions of the relevance and importance of current research. Calculations related both to the disease and the material covered in the chapter are also now provided.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Body fluid flow.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Biological control systems.
650 12 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Body Fluids
General subdivision Physiology
650 22 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Biomechanical Phenomena
650 22 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Blood Circulation
General subdivision Physiology
650 22 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Hemodynamic Processes
General subdivision Physiology.
650 22 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Rheology
650 #7 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Biological control systems.
650 #7 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Body fluid flow.
700 1# - ADDED ENTRY--PERSONAL NAME
Personal name Yin, Wei
Titles and other words associated with a name (Assistant professor)
Relator term author
700 1# - ADDED ENTRY--PERSONAL NAME
Personal name Frame, Mary D.
Relator term author
942 ## - ADDED ENTRY ELEMENTS (KOHA)
Source of classification or shelving scheme Library of Congress Classification
Koha item type Book
Holdings
Withdrawn status Lost status Source of classification or shelving scheme Damaged status Not for loan Home library Current library Shelving location Date acquired Source of acquisition Full call number Barcode Date last seen Copy number Cost, replacement price Price effective from Koha item type
    Library of Congress Classification     Main Library Main Library Core Collection 31/08/2020 Book Aid International QH513 RUB BK135520 02/09/2020 150052 76.33 02/09/2020 Book