5 / 15
Page 21
J u l y 2 3 - 2 4 , 2 0 1 8 | R o m e , I t a l y
allied
academies
Joint Event on
Cardiology Congress 2018 & Microbe Infection 2018
Biomedical Research
|
ISSN: 0976-1683
|
Volume 29
2
nd
World Congress on
CARDIOLOGY
MICROBIOLOGY AND MICROBIAL INFECTION
&
39
th
Annual Congress on
Merab Beraia et al., Biomed Res 2018, Volume 29 | DOI: 10.4066/biomedicalresearch-C1-002
ELECTROMAGNETIC PROPERTIES OF THE
ARTERIAL BLOOD FLOW
Merab Beraia
1
and
Beraia G
2
1
Institute of Clinical Medicine, Georgia
2
Tbilisi State Medical University, Georgia
Introduction:
Blood flow acceleration increases from the left ventricular
outflow tract, to the sinotubular junction and the ascending aorta, while
it must be decreasing due to the flow turbulences in the Valsalva sinuses
and increased diameter of the vessel. Total energy of the pulse wave in the
arterioles is up to 7.2 times higher, than in the ascending aorta, while it must
be low due to the energy dissipation in the viscous flow, with the distance
from the heart. Work made by the left ventricle, at least 2.0-2.5 times lower
to the work needed for the blood displacement, in the systemic capillaries.
Purpose:
The purpose of the study is identifying the additional possible
energy source, for the arterial blood flow.
Methods & Materials:
12 healthy volunteer students (male) underwent
echocardiography, ECG gated MRI of the heart for the visualization
intracavitary flow in the ventricles, MR angiography of the aorta. Blood flow
velocities and acceleration were studied in the different sites of the heart and
the aorta.
Results:
With the DU in the left ventricular outflow tract blood acceleration is
1430±120 cm/sec
2
, in the sinotubular junction and ascending aorta 2395±195
cm/sec
2
, at the aortic arch 1390±225 cm/sec
2
, isthmus of aorta 2180±135
cm/sec
2
, middle thoracic aorta 1260±140m/sec
2
. With the MRI (TrueFisp.
mean curve), blood acceleration from the left ventricular outflow tract to
the sinotubular junction is 3.5±0.3 times higher and to the ascending aorta
2.5±0.2 times higher. Systolic blood pressure from the ascending aorta to the
femoral and saphenous elastic arteries enhancing 1.3±0.1 times, increasing
energy transmitted to the blood. Direction of the electric charge in the heart’s
ventricles from the circulating erythrocytes and in the fibres of the Purkinje
(ECG), mathematically are coincident.
Conclusion:
Availability of the heart, as the possible single tool for the blood
flow, looks imperfect. Electric oscillate field from the heart dipoles can be
impact to the blood charged particles. Erythrocyte forms the modulated
naturally ultrasound vibration and associated with it colloid vibration current
propagating distally to the all cell membranes. Blood motion in the heart
chambers and arteries has the additional basis, besides the heart contraction:
rotating blood particles in the heart chambers and in the arterial branching
sites or the high resistive areas, with the concomitant oscillating electric field
triggered from the heart, creates to the additional electromagnetic repulsing
force, providing to the flow. Modulating ac electric field, transmitting by the
oscillate blood particles, besides the flow, creates additional energy/signal
Merab Beraia has been graduated from Tbilisi State
Medical University in 1986, as a Medical Doctor, with
the specialty of Internal Medicine and took a Diploma
in Neurology from the Institute of Clinical and Exper-
imental Neurology Tblisi, Georgia. Later he obtained
his post-graduation diploma in Radiology from Univer-
sity of Graz, Austria and then started working at The
Institute of Clinical Medicine Tbilisi, Georgia, where he
has continued his research. Presently he is working at
the Tbilisi.
mberaia@hotmail.comBIOGRAPHY
source, enabling the spontaneous chemical
reactions proceed across the cell membranes.
Electromagnetism can be affect gas exchange
in the systemic and pulmonary capillaries due
to the different affinity of the oxygen and carbon
dioxide in the diamagnetic/paramagnetic
haemoglobin.