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Human organism adaptation strategies to geomagnetic storms
S. l. Zaguskin1, A.K. Krylov2, Y.V. Gurov1, S.S. Zaguskina1
1 Southern Federal University, Institute of physics, Rostov-on-Don, Russia,[email protected], +79185144967
2 The establishment of the Russian Academy of Sciences, Institute of psychology of RAS, Moscow, Russia, [email protected]
Galactic radiation Solar activity Moon
Magnetosphere, ozonosfera, atmosphere, hydrosphere, lithosphere
PHYSICO-CHEMICAL EFFECTS ON THE BIOSPHERE
Sol-gel transitions
ManBody tissue Cell
Society
Biological connection, memory, traces processes
Biorhythms: genetically anchored, homeostatic, exogenous
RHYTHMS OF SOLL-GEL TRANSITIONS IN A CELL AS ACCEPTORS AND RECEPTORS OF OUTSIDE IMPACTS
Gel
SolСаi
Primary/initialacceptors
Receptors of cell membrane CN
Н2О
1О2
Pm МP
Са depot
Function
Biosynthesis
Blood flow
t°C, рН, Роsм
Physical impacts
Chemicalimpacts
Energyexchange of a
cell
Direct functional links,
Feed back links, Energetic links
?
Interferometry of Stellar cluster «Snowflake» and differential interferometry of living neuron. Registration of rhythms sol-gel structures
?
Isolated neuron temporary connection output after increasing its energy metabolism
• 1- Neuron's activity during the action of laser exposure (dashed mark) and mechanical stimuli (solid mark)
• 2- combined impact• 3- responses on the
electric irritation and trace oscillations after elimination of the mechanical effects
• 4-neuron activation responses under electrical impact
1
2
3
4
Circahoral (20 min-2h)
5-min
1 - min
30 sec.1-5s. (pulse, breath )7-13 Hz tremor,α-rhythm of brain100 Hz-10kHz
Biological rhythms Cosmic and geophysical rhythms B.M. Vladimirsky, 1980
It is likely that many of our problems .. are caused by contradiction between our internal time and the and the magnitude of external time in the world around us. I. Prigogine 1984
Evolutionary integration levels of biosystems
Main levels:Biosphere, Biocenoses,
Organisms, Cells, BSRC-biosynthetical self
reduplicating cycles of sol-gel structures
Biosphere
Physical-Space Level (above Biosphere)
Biocenoses
Organisms
Cells
BSRC
genes, viruses
Physical-Chemical Level (pre-biological)
CCH
CCD
Families,flock
FSDO
Ansambles
FSO
FSHB
FSDB
HMC
DMC
ТISSUES
ORGANS
Populations
Consortii
BIOMES
ZONES
m1
l1k1
w1
v1 u1y1
z1
x2
x1
u0 v0 w0
p1
r0
s0
r0
r1
s1
p2 r2
r3
r4
s4
s2
s3
z2
z3
z4
x3
x4
x5
y4
y3
y2
p5?
p4
p3
u3
u4
u2
u5
k2
k3
k4
k5?
l2
l3
l4
m2
m3
m4
v4
v3
v2
w2
w3
w4
z0
Intermediate Functional Levels: FSDB-functional systems of different types of biocenoses,FSHB-functional systems of
homogenous types of biocenoses, FSO – functional systems of
organism, CCD – cell compart-ments of different types, CCH -
homogenous cell compartments .
Intermediate Structural Levels: DMC-cell microstructures of
different types, HМC –homogenous cell
microstructures.
Energy flows upon: x,y,z-functional & p,r,s-structural changes,u,v.w – parametrical regulation of function,k,l,m – parametrical regulation of structure.
Universal energy criterion of biological processes direction
adaptation status disadaptation status
1 adaptation strategy ( ΔUN+1<0) : Energy costs for external functional XN+1
and structural PN+1 processes are reduced less compared to internal regulatory ZN+SN processes. 2 adaptation strategy (ΔUN+1 >0): Energy costs for external functional XN+1
and structural PN+1 processes is increasing more than on internal regulatory ZN+SN processes.
Energetic dependence of neuron irritability, and plastic fixation of its adaptation
А Neuron activity pulse frequency records at irritation with the period of 5 minutes.Process of quick decrease of irritability since the beginning of irritation, and quick trigger recovery of irritability after 90 minutes is clearly seen.
B Living ultraviolet cyto-spectre-photometry of neuron. Absorption oscillations with wave length equal to 265 nm at different points of neuron’s body.Primary increase of absorption (increase of РНПconcentration) at points above nucleus as well as step-by-step phase synchronization of absorption oscillations at other parts of a cell following towards neuraxon are clearly seen.
А
B
2 hour a maximum during ischemia
a maximum during ischemia
1 hour a maximum during ischemia
Increased periods and amplitude of rhythms of R-R intervals redundancy ( R=1−Eexp/Emax) per 1, 2 hour and a maximum during ischemia
pulse
breathing
Analysis of ECG R-R records with symbolic dynamic approach. Groups of people: young healthy (Y, black dots), eldery healthy (E gray dots),
long-term atrial fibrillation (L, blue dots) and congestive heart failure (C red dots)
с –scope of 44 patients with congestive heart
failure,l –is the area of 84 patients with atrial
fibrillation,y – scope of 10 young
healthy people,e – area of 54 older
healthy people.k1 – a patient number 1,k2 – a patient number 2.
Symbolic dynamics of R-R intervals
k2k1
Nerve cell of mechanical receptor of river crab. Registration of electrical activity, oxygen consumption, mitochondria aggregation,
biosynthesis of protein and ofother structural and chemical rhythms
70 мкм Camera upon microscope desk
З- fixers
З
З
З
рО2
electrode
ganglionbody of neuron
muscles
axon
nerve
Increase of rhythms’ amplitude of sol-gel transitions under laser irradiation and stimulation
of energy potential of a cell
А-microfilm densitography method
В- mitochondria aggregations С- increase of amplitude of mitochondria aggreg.-
disaggreg.- oscillations (optical density 1-2), and sol level related to gel (liquid-faction of cytoplasm) while cell energetic has been stimulated with the help of natrium succinate (or laser)
С
А Вsond
1
2
ВA
Interferometry of living neuron with complete doubling of image. Registration of rhythms of protein content (dry weight) of non-disturbed cell and during physical
impacts
Photoelectrical method:Ф0-Ф1=А{cos2φ-Lcos2(φ-Δ/2)}+M
Photographic method:(S0-S1)/γ=lg{cos2φ/Lcos2(φ-Δ/2)}-M
Synchronous oscillations of energetic exchange and biosynthesis in a cell
About circahoral rhythms (average period is about 30 min) of
protein at different zones of a cell: Д – between dendrites & nucleus, Я –at nucleus zone,А – between nucleus and neuraxon hill for absorption at 265 nm. Tuning:Оptical density - 0,1,Time - 30 мin.
Neuraxon Neuroaxon
Nucleus
Living interferometry of the same neuron at the phase of about one hour rhythm of protein content’s decrease (left) and at the phase of its increase (right). Change of shift of light wave phase above neuron body’s nucleus is clearly seen at the level of two nucleolus, and there are no changes at the part of coming down neuraxon.
А
Я
Д
Д
Я
Criteria of optimum of laser therapy parameters
Harmonic fixed frequency of laser impact
Biorhythm of energy supply Sign of (+) reaction (--)
Parameters are optimal during biocontrol mode only.Factor analysis of Ес, Т, S, λ values is not correct because response reactions are non-additive. Bio resonance ispossible only if multifrequencybiorhythmically biosynchronization is achieved.
Does law of Bunzen-Rosko work?
Effect of laser’s impact 0,3 дж/см2 = Ес мВ/см2 х Тмин
Criteria of optimum of laser therapy parameters
0,5 х10 1х5 5х1 Transition of part of gel into solum
None + ++
СОД activity + + none Level of microcirculation none ++ + Produce of Т-lymphocytes none ++ + PF/BF normalization ++ + none Fractal standard of PF ++ + none
Dependence of +/- responding reaction upon starting state and phase of rhythm of energetics of cell, tissue,
organ, organism
YangYin
Following
Towards
Phаse of decrease of blood congestion
= destruction
Phase of increase of blood congestion
= increase of biosynthesis
Energy supply swing
Ratio оf 1-2-3 depths of amplitude modulation of physio-therapy impact changes depending upon mode of pathology (hypoxia, arterial or venous hyperemia) and upon availability of disbalance of arterial and venous parts of capillary route
1.Тremor 7-13Hz
2. Pulse
3. Breathing
Total signal (1,2,3)of biocontrol
systole
diastole
breath in
breath out
«RIKTA-05» is the device for bio-controlled lasermagnet chronotherapy
• Chronodiagnostic and patient’s status control during chronotherapy session with bio control using pulse frequency (PF) to breathing frequency(BF) ratio.
• Normal: 3<PF/BF <5.• Modes 1-4: different ratios of
modulation depths due to pulse, breathing, tremor signals.
• Accounting for velocity of pulse wave and place of pathology, delay for pulse signal is introduced.
• During impact upon myocardium projection reverse of pulse signal’s sign is switched on.
Pulses sensor
Breath sensor
Display:PF, BF, PF/BF,Bio-timer,modes 1-4
Теrminal:8 red,1 IR laser,magnet
Summary1.Developed software and hardware-based medical diagnostic device «Kvant-bio». It contains a pulse, breathing and differential signal input block, thermometry of these sensors in the computer and display the signals on biofeedback matrix laser diodes with power via an adapter from the network. Сhronodiagnostic of human organism state and forecasting its adverse reactions to geomagnetic storms and weather anomalies by using special algorithms for symvolic dynamics of rhythms pulse, breathing and their relationships. Explores the rhythms of vegetation status, of cellular immunity, thermal gradients and thermal asymmetry. To resolve these desynchronosis and their prevention is used in the computer version of the respiratory gymnastics and biocontrol on respiration and pulse sensors with laser therapy. 2. Chronodiagnostic methods allow you to detect when a disagreement of biorhythms within the organism and with the rhythms of the external environment, the forecast adverse reaction of the organism to the geomagnetic storms and weather anomalies.
3. Biocontrolled chronophysiotherapy eliminates desynchronosis, resolves to normalize vegetative status, cell-mediated immunity, the spectrum of blood microcirculation rhythms in the pathology and prevention of adverse reactions of the human body for geomagnetic storms and weather anomalies.