Title :
Dissolution of thrombus under high gradient magnetic fields
Author :
Iwasaka, Masakazu ; Ueno, Shoogo ; Tsuda, Hiroko
Author_Institution :
Inst. of Med. Electron., Tokyo Univ., Japan
fDate :
9/1/1996 12:00:00 AM
Abstract :
This study focused on the mechanism of effects of strong magnetic fields on a process of of fibrin clots. We measured the rate of fibrinolysis using a fibrin column as a model of a thrombus, and investigated the effects of gradient magnetic fields. Fibrin clots in glass tubes were digested by plasmin under magnetic fields of up to 8 T which were produced by a horizontal type of superconducting magnet at 37°C. When a fibrin gel and a plasmin solution were exposed to magnetic fields where a product of magnetic fields and field gradients, B·dB/dz, was 370 T2/m, dissolution of fibrin was enhanced by 34 %. However, we obtained no distinct effects when B·dB/dz was less than 150 T2/m. As a mechanism, we proposed a model in which fibrin polymers in water magnetophoresically drifted in the direction of increasing magnetic fields, and digestions of fibrin polymers by plasmin were accelerated
Keywords :
biological effects of fields; biomagnetism; blood; coagulation; dissolving; gels; molecular biophysics; proteins; 37 degC; 8 T; blood coagulation; digestions; fibrin clots; fibrin column; fibrin gel; fibrin polymers; fibrinolysis rate; glass tubes; gradient magnetic fields; high gradient magnetic fields; magnetophoresical drift; plasmin; plasmin solution; strong magnetic fields; superconducting magnet horizontal type; thrombus dissolution; thrombus model; Acceleration; Biochemistry; Blood; Chemistry; Glass; Laboratories; Magnetic field measurement; Magnetic fields; Polymer gels; Superconducting magnets;
Journal_Title :
Magnetics, IEEE Transactions on
