Selected Papers on Membrane Biophysics:

Mikulecky, D.C. and Tobias, J.M.: Phospholipid-Cholesterol Membrane Model:

J. Cell. Comp.Physiology 64: 161-164,1964.

Mikulecky, D.C.: Sodium-Potassium Ion Exchange Equilibria for Fragmented Human Erythrocyte Ghosts. Nature 205: 706, l965.

Caplan, S.R. and Mikulecky, D.C., "Transport Process in Membranes," In: Ion Exchange, Chap. 1, J. Marinsky, (Ed.), Marcel Dekker Publ. Co., 1967.

Mikulecky, D.C. and Caplan, S.R.: The Choice of Reference Frame in the Treatment of Membrane Transport by Non-equilibrium Thermodynamics. J. Phys. Chem. 70: 3049, l966.

Mikulecky, D.C.: On the Relative Contribution of Viscous Flow vs Diffusional (Friction) Flow to the Stationary State Flow of Water in a "Tight" Membrane. Biophys. J. 7: 527, l967.

Sha'afi, R.I., Rich, G.T., Mikulecky, D.C. and Solomon, A.K.: Determination of Urea Permeability in Red Cells by Minimum Method; a Test of the Phenomonological Equations. J. Gen. Physiol. 55: 427-450, l970.

Mikulecky, D.C.: A Continuum-Mechanical Approach to the Flow Equations for Membrane Transport. I. Water Flow, Biophys. J. 12: l642, l972.

Mikulecky, D.C.: Dilute Solution Approximation and Generalization of the Reflection Coefficient Method of Describing Volume and Solute Flows. Biophys. J. l3: 994-999, l973.

Penline, J.A., J.A. DeSimone, J.S. Rosenbaum and D.C. Mikulecky: A Non-linear Boundary Value Problem Arising from the Non-equilibrium Double Layer at an Enzymatic Surface, Math. Biosciences 37: l-l7 (l977).

Thomas, S.R. and D.C. Mikulecky: A Comparison of Transcapillary Solute Exchange: The Kedem-Katchalsky Equation Compared with the Rigorous Non-linear Equations for the Special Case, Microvascular Res. l5: 207-220 (1978).

Mikulecky, D.C.: Flow Equations for Membrane Transport from Local Equations of Motion:I - The General Case for (n-l) Non- electrolyte Solutes Plus Water, Bull. Math. Biophys. 40: 79l-805 (l978).

Mikulecky, D.C., W.A. Wiegand and J.S. Shiner: A Simple Network Thermodynamic Method for Modelling Series-Parallel Coupled Flows: I. The Linear Case. J. Theoret. Biol. 69: 47l- 5l0 (l977).

Mikulecky, D.C.: A Simple Network Thermodynamic Method for Modelling Series-Parallel Coupled Flows: II. The Non-linear Theory, with Applications to Coupled Solute and Volume Flow in a Series Membrane. J. Theoret. Biol. 69: 511-542 (l977).

Mikulecky, D.C.: A Network Thermodynamic 2-port Element for Coupled Salt and Current Flow: An Improvement on the Equivalent Circuit Approach. Biophys. J. 25: 323-340 (l979).

Mikulecky, D.C.: Global Flow Equations for Membrane Transport from Local Equations of Motion: II. The Case of a Single Non- electrolyte Solute Plus Water. Bull. Math. Biol. 41: 629-640 (1979).

Talekar, S.V., Mikulecky, D.C. and Gary-Bobo, C.M.: A New Current Expression for Selective Ion Permeation Across Membranes. J. theor. Biol. 87: 663-669 (l980).

Mikulecky, D.C. and J.J. Feher: The Relation Between Local and Global Transport Parameters in an Epithelial Membrane Having an Asymmetric Transport Mechanism. J. theor. Biol. 88: 575-588 (1981).

Thellier, M., C. Ripoll, J. C. Vincent, and D. C. Mikulecky (1993) Interpretation of the fluxes of substances exchanged by cellular systems with their external medium, in, Some physico- chemical and mathematical tools for living systems understanding, (H. Greppin, M. Bonzon, R. Degli Agosti, eds.), University of Geneva, Switzerland; Imprimerie nationale, Geneva, pp 221-277.

Thakker, K.M., J. H. Wood and D. C. Mikulecky: Dynamic Simulation of Pharmacokinetic Systems Using the Electrical Circuit Analysis Program SPICE2. Comput. Prog. Biomed 15, 61- 72 (1982).

Mikulecky, D.C., "The Biological Aspects of Transport" In: Transport Phenomena in Fluids, Chap. 12. H. Hanley (Ed.), Marcel Dekker Publ. Co., 1969.

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