George Czerlinski scite author profile

Physical laws underlying the intravascular magnetic guidance of a novel drug carrier are discussed. The drug carrier is a magnetically responsive drug-bearing microsphere measuring approximately 1 μm in diameter. The microspheres consist of an albumin matrix in which a prototype drug (adriamycin HCl) and ultrafine Fe3O4 particles are entrapped. An in vitro analog of the human circulatory system is used to test both bipolar and unipolar magnetic arrangements which can retain microspheres flowing in aqueous suspension in the area of applied magnetic field. Retention of the microspheres by the magnetic field is shown to vary with the linear velocity of the viscous suspending medium and to be dependent on the magnitude of the applied magnetic force. This system permits extracorporeal control over the distribution of intravascular soluble chemotherapeutic agents and allows their concentration at specified body sites.

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A stopped-flow investigation of calcium ion binding by ethylene glycol bis(β-aminoethyl ether)-N,N′-tetraacetic acid

Smith

Liesegang

Berger

et al. 1984

Analytical Biochemistry

119

101

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A Mixed-valence Copper Complex with Thiol Compounds

Klotz¹,

Czerlinski²,

Fiess³

1958

J. Am. Chem. Soc.

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On the Elucidation of the pH Dependence of the Oxidation-Reduction Potential of Cytochrome c at Alkaline pH

Brandt¹,

Parks²,

Czerlinski³

et al. 1966

Journal of Biological Chemistry

127

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Hemoglobin/O2Systems: Using Short-lived Intermediates for Mechanistic Discrimination

Czerlinski

Levin

Ypma

1999

Journal of Theoretical Biology

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