Biomedical EngineeringPieter Stroeve, Rakesh K. Jain, Kenneth Himmelstein |
Contents
INTERSTITIAL DIFFUSION OF MACROMOLECULES IN NORMAL AND TUMOR CAPIL | 1 |
CONTROLLED RELEASE OF SURFACE ACTIVE DRUGS THROUGH POLYMERIC MEM | 11 |
ANALYSIS OF THE EFFECT OF THE FAHRAEUSLINDQUIST PHENOMENON UPON | 21 |
Copyright | |
10 other sections not shown
Common terms and phrases
ACTZ alveolar antibody approximately arterial assumed axial B-cells blood flow blood pouch boundary calculated capillary carbonic anhydrase compartment computed concentration constant convection core countercurrent curve cutaneous decrease deep tissue density dextran dialysate diameter diffusion coefficients dimensionless drug dynamic effects Equation equilibrium experimental data experiments flow rate flowrate fluid flux glycerol gradient HCO3 hematocrit hemoglobin hyperthermia idiotope increase initial kinetics layer leukocyte LiNO3 lung mass transfer mathematical model matrix measured micelles microemboli molecular molecules monomer mucus muscle neoplastic neoplastic tissues normal tissue obtained osmotic oxygen packet parameters partial pressure perfusate permeability Physiol plasma pore porous membranes predicted pressure profiles protein pulmonary radial radius rebreathing red blood cells reflection coefficients region release resorption shear stress shown in Figure simulated solubility solute species spermicide spheroids surface surfactant technique thermal responses thyroid tumor tion transport turbulent values valve vascular velocity viscosity volume wall xenon