Zobrazeno 1 - 10
of 23
pro vyhledávání: '"L. M. Sharshina"'
Publikováno v:
Bulletin of Experimental Biology and Medicine. 132:844-848
The mean magnetic moment of hem as determined in 136 blood samples from different dogs was 5.35 Bohr magneton. The individual magnetic moments varied from 4.9 to 6.7 Bohr magneton. These data are explained by the presence of hem two forms with magnet
Autor:
L. M. Sharshina, A. I. Zhernovoi
Publikováno v:
Biomedical Engineering. 34:1-4
1. The NMR signal width of blood protons is determined by symmetric broadening caused by dipoledipole interaction of blood plasma protons and asymmetric broadening caused by erythrocytes.
Autor:
L. M. Sharshina, N. A. Kulikova, V. A. Chirukhin, Z. V. Rudakova, A. I. Zhernovoi, V. I. Skorik
Publikováno v:
Bulletin of Experimental Biology and Medicine. 115:16-19
Publikováno v:
Biomedical Engineering. 35:293-295
Publikováno v:
Bulletin of Experimental Biology and Medicine. 131:121-123
The rates of oxyhemoglobin drop and CO2 release in dogs with magnetized and nonmagnetized blood were compared. Stationary magnetic field enhances blood oxygen capacity by no less than 24%. A hypothesis was proposed on formation of bioxyhemoglobin mol
Publikováno v:
Bulletin of Experimental Biology and Medicine. 125:561-563
Exposure of blood to magnetic field modifies the rate of CO2 removal. It is hypothesized that this phenomenon is due to change in pH caused by magnetic field and Bohr effect.
Autor:
A. I. Zhernovoi, L. M. Sharshina
Publikováno v:
Biomedical Engineering. 31:335-337
The paper deals with the study of a phenomenon of less time of blood proton relaxation with higher hematocrit, it shows experimental dependence of the time of relaxation of blood protons and diluent-red cell mass mixtures of on the value of hematocri
Publikováno v:
Meditsinskaia tekhnika. (1)
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 hemog
Autor:
A I, Zhernovoĭ, L M, Sharshina
Publikováno v:
Biofizika. 48(1)
It was found that the resonance frequency of NMR protons of the fluid inside erythrocytes differs from that of plasma protons. This leads to a broadening of the NMR signal from blood, which depends on the extent of oxygenation and the shape of erythr
[Impact of Brownian motion and magnetic fields of erythrocytes on spin echo signal of blood protons]
Publikováno v:
Meditsinskaia tekhnika. (6)
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