[A study of the blood magnetization dynamics]. / Issledovanie dinamiki omagnichivaniia krovi.

The impact made by the time of preliminary blood magnetization on the increase of partial oxygen pressure was investigated in blood oxygenation. It was concluded that the effect exerted by the magnetic field on blood enhances the sensitivity of hemoglobin to oxygen; it occurs at changing induction intervals and the life span of allotropic forms of hemes, which are appearing in such processes, is around 10 minutes.

[Impact of Brownian motion and magnetic fields of erythrocytes on spin echo signal of blood protons]. / Vliianie brounovskogo dvizheniia i magnitnykh polei éritrotsitov na signal spinovogo ékha protonov krovi.

A reduction in blood So2 and ESR is shown to lead to the decay of a spin echo signal. This effect is explained by the impact of red blood cell magnetic field fluctuations caused by the Brownian motion. The authors propose to use the effect to monitor red blood cell agglutination.

[Investigation of allotropic transition of hemoglobin to the magnetic field]. / Issledovanie allotropicheskogo perekhoda gemoglobina v magnitnom pole.

Human blood magnetization in oxygenation in the constant magnetic field (CMF) caused oxygen tension to decrease. In case of oxygenation after stopping the influence of CMF, oxygen tension increased. The findings can be explained by the CMF transition of hemes to the allotropic form that is capable of binding 2 oxygen molecules after stopping CMF and has 2-minute lifetime.