|
The
LifeWave Energy Patch
For More Info about Our Exciting LifeWave
Patches - Please Click Here!!
LIFEWAVE patch references:
Adey WR. Frequency and power windowing in tissue interactions
with weak electromagnetic fields. Proc IEEE 1980;68 (1):119-125.
Adey WR. Tissue interactions with nonionizing electromagnetic
fields. Physiol Rev 1981; 61:435-514.
Adey WR. Physiological signaling across cell membranes and cooperative
influences of extremely low frequency electromagnetic fields.
In: Biological Coherence and Response to External Stimuli, H.
Frohlich, ed., Heidelberg, Springer-Verlag, pgs 148-170, 1988.
Adey WR. Whispering Between Cells: Electromagnetic fields and
regulatory mechanism in tissue. Frontier Perspectives 1993a;3(2):21-25.
Adey WR. Electromagnetics in biology and medicine. In Modern Radio
Science, (ed. H. Matsumoto). Oxford, England: Oxford University
Press, pgs 277-245, 1993b.
Adey WR, Bawin FM., Lawrence AF. Effects of weak, amplitude-modulated
fields on calcium efflux from awake cat cerebral cortex. Bioelectromagnetics
1982;3:295-308.
Astumian RD, Chock PB, Tsong TY, et al. Effects of oscillations
and energy-driven fluctuations on the dynamic of enzyme catalysis
and free-energy transduction. Phys Review 1989;39(12):6416-6435.
Astumian RD, Robertson B. Nonlinear Effect of an Oscillating Electric
Field on Membrane Proteins. J Chem Phys 1989;91: 4891-4901.
Baule GM, McFee R. Detection of the Magnetic Field of the Heart.
Am Heart J 1963;66, 95-96.
Beal J. Biosystem Liquid Crystals: Several hypotheses relating
to interacting mechanisms which may explain biosystem and human
hypersensitivities to electric and magnetic fields. 1996a. Website:http://www.cyberspaceorbit.com/BIOSYSTEMLIQUIDCRYSTALS
by JamesBeal.htm.
Beal JB. Biosystems liquid crystals & potential effects of
natural & artificial electromagnetic fields (EMFs) 1996b.
Website: http://frontpage.simnet.is/vgv/jim1.htm
Berne RM et al. Physiology 3rd edition. St. Louis, Mo: Mosby -Yearbook,
Inc., 1993.
Benveniste J. Transfer of biological activity by electromagnetic
fields. Frontier Perspectives 1993;3(2):13-15.
Brugemann H. Bioresonance and Multiresonance Therapy (BRT). Brussels,
Belgium: Haug International, 1993.
Cacciatore L, Cerio R, Ciarimboli M, et al. The therapeutic effect
of L-carnitine in patients with exercise-induced stable angina:
a controlled study. Drugs Exp Clin Res 1991;17:225-235.
Capra F. The Hidden Connections. London, England: Flamingo, 2002.
Carr JJ. Practical Antenna Handbook 4th edition. New York, NY:
McGraw Hill, 2001.
Catterall WA. Excitation-contraction coupling in vertebrate skeletal
muscle: a tale of two calcium channels. Cell 1991;64:871-874.
Cohen D. Magnetoencephalography: detection of the brain's electrical
activity with a superconducting magnetometer Science 1972;175:
664-666.
Collings PJ. Liquid Crystals, Nature's Delicate Phase of Matter.
Princeton, New Jersey: Princeton University Press, 1990.
Dallos P. Neurobiology of cochlear inner and outer hair cells:
intracellular recordings. Hear Res 1986;22:185-198.
Davey CL, Kell DB. The dielectric properties of cells and tissues:
What can they tell us about the mechanisms of field/cell interactions?
In: O'Connor ME, Bentall RHC, Monahan JC, eds. Emerging Electromagnetic
Medicine. New York, NY:Springer-Verlag, 1990:19-43.
Derényi I, Astumian RD. Spontaneous Onset of Coherence
and Energy Storage by Membrane Transporters in an RLC Electric
Circuit. Phys Rev Lett 1998;80:4602-4605.
Fabiato A. Simulated calcium current can both cause calcium loading
in and trigger calcium release from the sarcoplasmic reticulum
of a skinned canine cardiac Purkinje cell. J Gen Physiol 85:291-320,
1985.
Garnett M. First Pulse: A Personal Journey in Cancer Research.
New York, NY: First Pulse Projects, 1998.
Garnett M. The Inductive Phase State of Gene Polymer Pulsation,
Compensates for the Absence of Time, Energy, and Distance Parameters
of the Genetic Code. See at: http://www.electrogenetics.net/electrogenetics.html,
2002.
Grattarola M, Massobrio G. Bioelectronic Handbook: MOSFETs, Biosensors,
and Neurons. New York, NY: McGraw Hill, 1998.
Gilman AG. G protein transducers of receptor-generated signals.
Annu Rev Biochem 1987;56:615-49.
Hallworth R, Evans BN, Dallos P. The location and mechanism of
electromotility in guinea pig outer hair cells. J Neurophysiol
1993;70:549-558.
Heinonen OJ. Carnitine and physical exercise. Sports Med 1996;22:109-132.
Heynick LN. Critique of the Literature on Bioeffects of Radiofrequency
Radiation: A Comprehensive Review pertinent to Air Force Operations.
Final Report USAFSAM-TR-87-3 (June 1987).
Ho MW. The Rainbow and the Worm: The Physics of Organisms, 2nd
edition. River Edge, NJ: World Scientific, 1998.
Holley MC, Ashmore JF. Spectrin, actin and the structure of the
cortical lattice in mammalian cochlear outer hair cells. J Cell
Sci 1990;96:283-291.
Holtzclaw HF Jr., Robinson WR, Odom JD. General Chemistry 9th
edition. Lexington, MA: D.C. Heath and Company, 1991.
Hoppel C. The role of carnitine in normal and altered fatty acid
metabolism. Am J Kidney Dis 2003 Apr;41(4 Suppl 4):S4-12.
Jackson JD (1975): Classical Electrodynamics, 2nd edition. New
York, NY: John Wiley, 1975.
Jespersen N. Chemistry. Hauppauge, NY: Barron's Educational Services,
Inc., 1997.
Jones ER, Childers RL. Contemporary College Physics. Reading,
MA: Addison-Wesley Publishing Company, 1990.
Malmivuo J, Plonsey R. Bioelectromagnetism- Principles and Applications
of Bioelectric and Biomagnetic Fields. New York, NY: Oxford University
Press, 1995.
Mehrvar M, Bis C, Scharer JM et al. Fiber-Optic Biosensors - Trends
and Advances. Analytical Sciences 2000 July;16:677-692.
Nelson DL, Cox MM. Lehninger Principles of Biochemistry 3rd edition.
New York, NY: Worth Publishers, 2000.
Neupert W, Brunner M. The protein import motor of mitochondria.
Nat Rev Mol Cell Biol 2002 Aug; 3(8): 555-65.
Nicholls JG, Martin AR, Wallace BG, Fuchs PA. From Neuron to Brain,
4th edition. Sunderland, MA: Sinauer Associates, 2001.
Oschman JL. Energy Medicine: The Scientific Basis. Edinburgh,
England: Churchill Livingstone, 2000.
Pauling L. General Chemistry. New York, NY: Dover Publications,
Inc., 1988.
Rayment I, Rypniewski WR, Schmidt-Base K, et al. Three-dimensional
structure of myosin subfragment-1: a molecular motor. Science
1993 Jul 2; 261(5117): 50-8.
Rottier R. The application of Superconductors in Medicine. 2000
September 20. See at: http://staff.ee.sun.ac.za/wjperold/Research/Superconductivity/Team/Rottier/art/biomag_apps.pdf.
Russell IJ, Cody AR, Richardson GP. The response of inner and
outer hair cells in the basal turn of the guinea pig cochlea and
in the mouse cochlea grown in vitro. Hear Res 1986;22:199-216.
Santos-Sacchi J, Dilger JP. Whole cell currents and mechanical
responses of isolated outer hair cells. Hear Res 1988;35:143-150.
Spriet LL. Regulation of skeletal muscle fat oxidation during
exercise in humans. Med Sci Sports Exerc 2002;34(9):1477-1484.
Spudich JA. How molecular motors work. Nature 1994 Dec 8; 372(6506):
515-8.
Stipanuk MH. Biochemical and Physiological Aspects of Human Nutrition.
Philadelphia, PN: W.B. Saunders Company, 2000.
Van Valkenburgh, Nooger and Neville, Inc. Basic Electricity: Revised
Edition, Complete Course. Indianapolis, IN: Prompt Publications,
1992.
Weaver JC, Vaughan TE, Astumian RD. Biological sensing of small
field differences by magnetically sensitive chemical reactions.
Nature 2000;405:707-709.
Wuddel I, Apell HJ. Electrogenicity of the sodium transport pathway
in the Na,K-ATPase probed by charge-pulse experiments. Biophys
J 1995;69: 909-921.
Xie TD, Chen Y, Marszalek P, Tsong TY. Fluctuation-driven directional
flow in biochemical cycle: further study of electric activation
of Na, K pumps. Biophys J 1997;72:2496-2502.
For
More Info about Our Exciting LifeWave
Patches - Please Click Here!!
Lifewave
Lifewave
Patches
Lifewave Patch
Energy Patch
Lifewave Energy Patch
Life Wave
Home
Germany
|