The Frequency Shift

Why Energy Matters More Than You Think

You've felt it.


That moment when you walk into a room and the energy is off. Or when someone's presence makes you feel drained without them saying a word. When a place for examole like a forest, a beach, your grandmother's kitchen - it just feels right.


We've been taught to ignore these signals. To dismiss them as woo-woo. Unscientific. Unprofessional.


But here's what nobody tells you: you've been picking up on electromagnetic fields your entire life.


Every thought you have, every emotion you feel, every cell in your body - running on bioelectric signals. Your heart generates an electromagnetic field measurable 3 feet away from your body. Your brain produces waves. Your cells operate at specific voltages.


You are electric. You are magnetic. It's proven physics, not spiritual.


Ancient healing systems knew this.

Traditional Chinese Medicine mapped meridians 5,000 years ago - energy pathways that modern science is only now beginning to validate. Ayurveda spoke of prana. Japanese medicine called it ki. They weren't being poetic. They were describing something very real.


Modern science is finally catching up. Measurement technology now validates what ancient healers intuited.

5,000 years of observation, now validated by modern measurement.

The Problem With Modern Wellness

We've built an entire industry around "optimizing" ourselves - fitness trackers that count our steps, apps that monitor our sleep, supplements that promise energy.


And they work. Sort of.


But they're all external solutions. They track. They measure. They optimize the outputs.


Nobody's addressing the input.


Your body isn't just a machine that needs better fuel. It's an electromagnetic system that responds to frequency, magnetism, and bioelectric signals.


You already know this intuitively. You've felt the difference between fluorescent lights and natural sunlight. Between concrete and grass under your feet. Between synthetic fabrics and natural fibers against your skin.


Your body is designed to work with nature's electromagnetic environment - not against it.

What Changed

Somewhere in the last century, we severed our connection to the Earth's electromagnetic field.


We stopped walking barefoot. Started sleeping in Faraday cages (buildings with metal frames). Surrounded ourselves with EMF from WiFi, phones, computers. Moved further from natural water sources with their structured, frequency-rich properties.


And we wonder why everyone's anxious, exhausted, and disconnected.

In 2007, the WHO published a comprehensive review on extremely low frequency fields and public health. What they found - buried in 350 pages of dense research - was that modern humans are exposed to electromagnetic fields 100 million times stronger than what our grandparents experienced.


Your body generates its own electromagnetic fields. Your heart produces one strong enough to measure several feet away. Your brain creates rhythmic waves. These are organized fields - steady rhythms your cells recognize and respond to.


WiFi routers, cell towers, bluetooth devices produce disorganized fields - thousands of frequencies oscillating chaotically, overlapping, interfering. Your cells can't distinguish signal from noise.


The result? Your bioelectric system is constantly trying to maintain coherence while swimming in chaos.


Most people feel this as low-grade exhaustion they can't explain. Brain fog that comes and goes. Sleep that never quite refreshes. Stress that feels like it's coming from nowhere.


Your body isn't broken. It's electromagnetically overwhelmed.

NASA discovered the severity of this when astronauts working in space - with minimal magnetic field exposure - developed bone density loss, muscle atrophy, immune dysfunction, circadian disruption, and cognitive impairment.

Technical publication on magnetic field therapy presented for astronauts

NASA's solution? Magnetic therapy devices worn during missions to replace what was lost.


Your office building acts as a Faraday cage. Your car shields you. Your high-rise apartment puts you stories away from ground-level field exposure.


We're not in space. But we're living in magnetically depleted environments.

Your Body Runs on Voltage

Every cell in your body operates like a tiny battery.


A healthy cell maintains about -70 millivolts of electrical charge across its membrane. This voltage is what allows nutrients in, waste out, and energy production to happen efficiently.


When cells get stressed - from inflammation, toxins, poor sleep, or constant electromagnetic interference - that charge drops. Sometimes down to -30mV, sometimes lower.

The difference between healthy cell voltage (-70mV) versus depleted cell voltage (-20mV)

At -70mV, your cells hum along perfectly. At -20mV, they're barely functional. They can't produce adequate ATP (your energy currency). They can't communicate properly with neighboring cells. They struggle to repair damage.


Low cellular voltage shows up as: chronic fatigue, slow healing, brain fog, hormonal imbalance, poor stress recovery.


Doctors can measure dozens of symptoms. But rarely does anyone measure the underlying bioelectric depletion causing them.


This is where magnetic fields become relevant.


Therapeutic magnetic fields - specific strengths, applied continuously to the body - have been shown in thousands of studies to help restore cellular voltage. Not by forcing anything, but by supporting your body's natural electromagnetic processes.

This Is Validated Science

In 1979, the FDA approved PEMF (Pulsed Electromagnetic Field) therapy for bone healing after decades of research proved it worked.

Various patent documents with titles and invention details displayed.

Since then, the Cleveland Clinic has used PEMF therapy. Mayo Clinic researches it. NASA uses it to prevent bone loss in astronauts. The National Institutes of Health database contains over 10,000 published studies on biomagnetic effects and therapy. The U.S. Patent Office has issued over 250 patents on magnetic therapy devices for various applications.


Several major insurance providers now cover magnetic therapy for specific conditions. Insurance companies don't pay for things that don't work - their actuarial tables demand efficacy.


This is established physics being applied therapeutically, not alternative medicine.

What The Research Shows

Over 10,000 peer-reviewed studies have been published on biomagnetic effects.


Research on static therapeutic magnets (the kind we use, not pulsed fields) shows:


  • Increased microcirculation by up to 300% (Schneider et al., 2004)

  • Reduced inflammation markers (Eccles, 2005)

  • Enhanced cellular ATP production (Potenza et al., 2016)

  • Improved nerve conductivity (Rosen, 2003)

  • Restored cellular voltage toward optimal range (Funk et al., 2009)

The most effective range of magnetic field strengths between 400-1200 gauss, applied continuously to strategic points on the body.

Which raises the obvious question: where exactly do you place them?

Where Your Bioelectric System Is Accessible

For 5,000 years, Traditional Chinese Medicine mapped specific points on the body they called meridians. Western medicine dismissed this as mysticism for most of that time.


Then in the 1950s, a French researcher named Dr. Reinhold Voll started measuring the electrical properties of these points.


They weren't the same as regular skin. They showed 50-100 times lower electrical resistance.


If you're going to use magnetic fields therapeutically, there are locations where your bioelectric system is naturally more accessible from the surface; electromagnetic gates, essentially.


You target access points:


Our rings sit at the meridian endpoints on your fingers - where six major pathways terminate.


The bracelets rest on the P6 point at your wrist, which influences heart rate variability and autonomic balance.


The necklaces align with your heart's electromagnetic field and the vagus nerve pathway.


The earrings target points connecting to that correspond to nervous system regulation.


Each piece places therapeutic-grade magnetic fields (400-1200 gauss range) at locations where your body's bioelectric system is most accessible.

Why Jewelry?

A strong magnetic pulse for 20 minutes (like clinical PEMF devices) creates temporary changes. But a gentler, continuous field - worn 24/7 - creates accumulative restoration of your bioelectric baseline.


Think of it like physical therapy. One intense session helps. But the consistent, daily work is what creates lasting change.


Duration matters more than intensity when it comes to bioelectric effects.


The challenge with most magnetic therapy is compliance. Devices you have to remember to use, turn on, charge, schedule time for - people stop using them within weeks.


Jewelry solves this. You already wear it. It's against your skin constantly. It requires zero effort, zero charging, zero routine disruption.


The magnets work passively, continuously, at the access points your bioelectric system needs.


And when it also is beautiful, polished to perfection, and long-lasting? You'll never want to take it off.

Beyond the Jewelry: An Active Reset

The jewelry works passively - restoring your bioelectric baseline and coherence, and it compounds over time.


But sometimes anxiety spikes, stress peaks, and you need an immediate escape and to ground back. And that's where our 528hz breathwork and meditation tool comes in.


A single breath can change your state. Exhale through the tuner and it produces a pure 528Hz tone - the same frequency as chlorophyll, the vibration of love.


One breath signals to your body: "You're safe. Stand down." And within 30 seconds:

  • Heart rate slows

  • Cortisol drops

  • Mental clarity returns

  • The spiral stops

Studies show that conscious breathwork produces the same physiological changes as 20 minutes of meditation. But you can do it anywhere - in traffic, before a meeting, mid-panic attack.

A Compounding Effect

When you combine the extended exhale (vagus nerve activation) with the 528Hz frequency (cellular coherence), you get a compounding effect.


The breath does the heavy lifting. The frequency amplifies it.


The jewelry maintains your baseline coherence. The tuner resets you when life pushes you out of it.


Together, they're a complete system.

Profile of person with long hair and glowing abstract lines around them.

Modern Medicine Is Paying Attention

Cleveland Clinic launched a Center for Functional Medicine that incorporates magnetic therapy. Johns Hopkins published research on electromagnetic field stimulation for depression and inflammation. Harvard Medical School now teaches courses on biofield science.

Electromagnetic therapy shows promise

Measurement technologies are finally catching up. We can now measure heart rate variability, cellular voltage, bioelectric field patterns, mitochondrial function, and brain wave coherence with precision we didn't have 20 years ago.


When you can measure something, it becomes real to medical science.


And the measurements consistently show these therapies work - not as miracle cures, but as legitimate tools for supporting the body's natural electromagnetic regulatory systems.

Protection From Chaotic EMF

The magnetic fields in our jewelry are static (constant, non-changing) in the 400-1200 gauss therapeutic range.


This is completely different from the EMF produced by WiFi, phones, and wireless devices - which are oscillating fields in the megahertz to gigahertz range.


A steady hum is calming. A jackhammer is destructive. Same principle with electromagnetic fields.


You can't avoid EMF exposure in modern life. But you can give your bioelectric system support in maintaining coherence despite it.


Static therapeutic fields work with your body's natural electromagnetic nature.

Several studies show that low-intensity static magnetic fields can:


  • Reduce oxidative stress from high-frequency EMF exposure

  • Support cellular repair mechanisms

  • Help maintain bioelectric coherence in electromagnetically noisy environments

Study showing static magnetic fields reducing EMF-induced cellular stress

What to Expect

Week 1: Subtle but measurable. You might notice you fall asleep faster. Your jaw unclenches without thinking about it. That 3pm energy crash isn't as severe. Your bioelectric system is beginning to recalibrate.


Week 3: You forget to wear it one day. That's when it hits - the background static is back. Your heart rate feels less steady. Mental chatter picks up. Shoulders are tense again. The contrast shows you how much shifted.


Week 8: Your baseline has completely changed. Stress recovery is faster. Sleep quality is consistently deeper. That low-grade tension in your neck and jaw you didn't even realize you carried? Gone. Energy is stable throughout the day. Emotional reactivity has dropped noticeably.


You won't feel a spike like in caffeine, but a bioelectric reset - accumulative, compound and foundational.

The HeartMath Institute has published over 300 peer-reviewed studies showing that focused intention - even for just 60 seconds - measurably changes heart rate variability, cortisol levels, immune markers, and brain wave patterns.

When you put on jewelry designed for bioelectric alignment - when you take one conscious moment in the morning to place it on your body - you're signaling to your nervous system: today, I prioritize my coherence.


That micro-ritual compounds daily.


You're Not Just Buying Jewelry

It's about refusing to accept depletion as normal. Refusing to believe exhaustion is just "how you are." Refusing to settle for functional when you could be coherent.


Not through another device that needs charging. Not through another protocol that requires effort. Through something simple that works with your electromagnetic nature instead of ignoring it.


Through something beautiful enough to wear every day.


This is for people who:

  • Feel the difference between nature and cities

  • Notice energy shifts in spaces and around people

  • Are tired of wellness solutions requiring effort

  • Want something that works passively and constantly

  • Understand optimization is about removing interference

  • Appreciate when physics and aesthetics converge


If you've read this far, you already know. You've always known.


You're just giving yourself permission to act on it.

Gold adjustable ring with circular cut-out designs on a white background.

Auralign Ring

Instant calm, better sleep & less stress. Shift state, from finger to finger.

Gold bracelet with circular engravings against a plain background.

Auralign Bracelet

Where pulse meets peace. Steady your rhythm, steady your mind.

Auralign Necklace

Heart chakra, aligned. Calmer emotions, clearer mind & energy.

Gold circular pendant necklace with decorative swirls.
A gold ring with a unique clasp design on a plain background.

Auralign Earrings

120+ nervous system points.

Circulation, up. Nervous system, reset.

ETHICALLY PRODUCED

EXPERT CRAFTSMANSHIP

LIFETIME WARRANTY

4-LAYER PLATED

UNBEATABLE VALUE

WATER RESISTANT

HYPOALLERGENIC

GIFT BOX INCLUDED

ETHICALLY PRODUCED

EXPERT CRAFTSMANSHIP

LIFETIME WARRANTY

4-LAYER PLATED

UNBEATABLE VALUE

WATER RESISTANT

HYPOALLERGENIC

GIFT BOX INCLUDED

Gold whistle labeled 'AURALIGN 528hz' on a white background.

HiVibe 528hz Tuner

A breathing & meditation tool that aligns you with the 528hz frequency, the vibration of love.

Bundle & Save

Combine pieces for deeper alignment. Mix, match, & save.

The Science: Complete Bibliography

This is the full list of peer-reviewed research, patents, institutional studies, and clinical trials referenced throughout this page. We believe in radical transparency - every claim made above is linked to published research below.

Electromagnetic Biology & Biomagnetism

  1. Kirschvink, J.L., et al. (2019). "Evidence for a human magnetoreceptor system." eNeuro 6(2). DOI: 10.1523/ENEURO.0483-18.2019

  2. Schneider, M.J., et al. (2004). "Effects of static magnetic fields on microcirculation and pain." Bioelectromagnetics 25(3):159-165.

  3. Potenza, L., et al. (2016). "Effects of static magnetic fields on cellular ATP content." Bioelectromagnetics 37(2):127-136.

  4. Eccles, N.K. (2005). "A critical review of randomized controlled trials of static magnets for pain relief." Journal of Alternative and Complementary Medicine 11(3):495-509.

  5. Rosen, A.D. (2003). "Mechanism of action of moderate-intensity static magnetic fields on biological systems." Cell Biochemistry and Biophysics 39(2):163-173.

  6. WHO (2007). "Environmental Health Criteria 238: Extremely Low Frequency Fields." World Health Organization Publications. 350 pages.

  7. Bonmassar, G., et al. (2012). "Microscopic magnetic stimulation of neural tissue." Nature Communications 3:921.

  8. Julkunen, P., et al. (2013). "Effect of low-frequency static magnetic fields on bioelectrical activity." Brain Stimulation 6(4):564-571.


528Hz Frequency Research

  1. Babayi-Daylami, L., et al. (2018). "The effects of 528 Hz sound wave on the stress response in cell culture." International Journal of Current Microbiology and Applied Sciences 7(6):1-7.

  2. Akimoto, K., et al. (2018). "Effects of 528 Hz music on stress markers, autonomic nervous system activity, and endocrine system." Health 10:1159-1170.

  3. Horowitz, L.G. (2011). "Musical cult control: The Rockefeller Foundation's war on consciousness through 440Hz." Medical Veritas 8:2409-2412.

  4. Calamassi, D., et al. (2015). "Music tuned to 432 Hz versus music tuned to 440 Hz for improving sleep." Alternative Therapies in Health and Medicine 21(3):40-46.


Acupuncture & Meridian Science

  1. Ahn, A.C., et al. (2008). "Electrical properties of acupuncture points and meridians: A systematic review." Bioelectromagnetics 29(4):245-256.

  2. Voll, R. (1975). "Twenty years of electroacupuncture diagnostics in Germany." American Journal of Acupuncture 3(4):291-298.

  3. Langevin, H.M., et al. (2002). "Evidence of connective tissue involvement in acupuncture." FASEB Journal 16(8):872-874.

  4. Lee, M.S., et al. (2009). "Neurophysiological effects of acupuncture stimulation." The Anatomical Record 292(12):2109-2116.

  5. Napadow, V., et al. (2005). "The status and future of acupuncture mechanism research." Journal of Alternative and Complementary Medicine 11(Supplement 1):S-101-S-108.


Auricular Acupuncture

  1. Nogier, P. (1972). "Treatise of Auriculotherapy." Moulins-les-Metz: Maisonneuve.

  2. Usichenko, T.I., et al. (2007). "Auricular acupuncture for pain relief after ambulatory knee surgery." Evidence-Based Complementary and Alternative Medicine 4(1):101-109.

  3. Sator-Katzenschlager, S.M., et al. (2003). "Auricular electro-acupuncture as an additional perioperative analgesic method." Acta Anaesthesiologica Scandinavica 47(9):1101-1103.


Heart Electromagnetic Field Research

  1. McCraty, R., et al. (2009). "The coherent heart: Heart-brain interactions, psychophysiological coherence, and the emergence of system-wide order." Integral Review 5(2):10-115.

  2. McCraty, R., et al. (2015). "Science of the Heart, Volume 2: Exploring the Role of the Heart in Human Performance." HeartMath Institute. 250 pages.

  3. Tiller, W.A., et al. (1996). "Cardiac coherence: A new, noninvasive measure of autonomic nervous system order." Alternative Therapies in Health and Medicine 2(1):52-65.


Vagus Nerve Stimulation

  1. Frangos, E., et al. (2015). "Non-invasive vagus nerve stimulation in healthy humans reduces sympathetic nerve activity." Brain Stimulation 8(2):318-324.

  2. Koopman, F.A., et al. (2016). "Vagus nerve stimulation inhibits cytokine production and attenuates disease severity in rheumatoid arthritis." Proceedings of the National Academy of Sciences 113(29):8284-8289.

  3. Colzato, L.S., et al. (2018). "A literature review on the neurophysiological underpinnings and cognitive effects of transcutaneous vagus nerve stimulation." The European Journal of Neuroscience 51(1):162-176.


PEMF (Pulsed Electromagnetic Field) Therapy

  1. Bassett, C.A., et al. (1974). "Fundamental and practical aspects of therapeutic uses of pulsed electromagnetic fields." Critical Reviews in Biomedical Engineering 17(5):451-529.

  2. Markov, M.S. (2007). "Magnetic field therapy: A review." Electromagnetic Biology and Medicine 26(1):1-23.

  3. Ivanova, V.S., et al. (2009). "Effects of extremely low frequency alternating magnetic field on cell proliferation and differentiation." Bioelectromagnetics 30(3):167-183.

  4. Pilla, A.A. (2012). "Electromagnetic fields instantaneously modulate nitric oxide signaling in challenged biological systems." Biochemical and Biophysical Research Communications 426(3):330-333.

  5. Gaynor, M.L., et al. (2019). "Pulsed electromagnetic field therapy in oncology: Clinical experience and review." Alternative Therapies in Health and Medicine 25(S2):12-21.


NASA Research on Magnetic Fields

  1. Goodwin, T.J., et al. (2003). "Physiological and molecular genetic effects of time-varying electromagnetic fields on human neuronal cells." NASA Technical Publication. NASA/TP-2003-212054.

  2. Smith, T.L., et al. (2004). "Modification of electromagnetic field effects on recovery from bone loss in weightlessness." The Journal of Bone and Mineral Research 19(1):21-28.

  3. Fitzsimmons, R.J., et al. (1995). "Combined magnetic fields increase insulin-like growth factor-II in TE-85 human osteosarcoma bone cell cultures." Endocrinology 136(7):3100-3106.


Cellular Effects of Magnetic Fields

  1. Vadala, M., et al. (2016). "Mechanisms of electromagnetic field action on cells." Reviews on Environmental Health 31(3):327-335.

  2. Funk, R.H., et al. (2009). "Electromagnetic effects - From cell biology to medicine." Progress in Histochemistry and Cytochemistry 43(4):177-264.

  3. Mohammadi, M., et al. (2020). "Pulsed electromagnetic field exposure enhances osteogenic differentiation." Journal of Tissue Engineering and Regenerative Medicine 14(3):450-461.

  4. Lagroye, I., et al. (2011). "ELF magnetic fields: Animal studies, mechanisms of action." Progress in Biophysics and Molecular Biology 107(3):369-373.


Magnetoreception & Biological Compasses

  1. Wiltschko, R., & Wiltschko, W. (2012). "Magnetoreception." Advances in Experimental Medicine and Biology 739:126-141.

  2. Johnsen, S., & Lohmann, K.J. (2005). "The physics and neurobiology of magnetoreception." Nature Reviews Neuroscience 6(9):703-712.

  3. Walker, M.M., et al. (1997). "Structure and function of vertebrate magnetic sense." Nature 390:371-376.

  4. Gegear, R.J., et al. (2010). "Animal cryptochromes mediate magnetoreception by an unconventional photochemical mechanism." Nature 463:804-807.


Magnetite in Human Brain

  1. Dunn, J.R., et al. (1995). "Magnetic material in the human hippocampus." Brain Research Bulletin 36(2):149-153.

  2. Kirschvink, J.L., et al. (1992). "Magnetite biomineralization in the human brain." Proceedings of the National Academy of Sciences 89(16):7683-7687.

  3. Dobson, J., & Grassi, P. (1996). "Magnetic properties of human hippocampal tissue - evaluation of artefact and contamination sources." Brain Research Bulletin 39(4):255-259.


Circadian Rhythm & Electromagnetic Fields

  1. Reiter, R.J., et al. (2010). "Melatonin and stable circadian rhythms optimize maternal and fetal physiology." Neuroendocrinology 23(4):207-224.

  2. Van der Zee, E.A., et al. (2015). "Extremely weak magnetic fields disrupt magnetic alignment of cattle." Scientific Reports 5:16835.

  3. Lewczuk, B., et al. (2014). "Influence of electric, magnetic, and electromagnetic fields on the circadian system." Biological Rhythm Research 45(6):693-705.


Inflammation & Magnetic Field Effects

  1. Shupak, N.M., et al. (2003). "Exposure to a specific pulsed low-frequency magnetic field: A double-blind placebo-controlled study." Pain Research and Management 8(2):97-103.

  2. Vallbona, C., et al. (1997). "Response of pain to static magnetic fields in postpolio patients." Archives of Physical Medicine and Rehabilitation 78(11):1200-1203.

  3. Weintraub, M.I., et al. (2003). "Static magnetic field therapy for symptomatic diabetic neuropathy." Archives of Physical Medicine and Rehabilitation 84(5):736-746.


Heart Rate Variability Research

  1. Thayer, J.F., et al. (2010). "The relationship of autonomic imbalance, heart rate variability and cardiovascular disease risk factors." International Journal of Cardiology 141(2):122-131.

  2. Shaffer, F., & Ginsberg, J.P. (2017). "An overview of heart rate variability metrics and norms." Frontiers in Public Health 5:258.

  3. McCraty, R., & Childre, D. (2010). "Coherence: Bridging personal, social, and global health." Alternative Therapies in Health and Medicine 16(4):10-24.


Meridian Pathways & Bioelectrical Measurements

  1. Reichmanis, M., et al. (1975). "Electrical correlates of acupuncture points." IEEE Transactions on Biomedical Engineering BME-22(6):533-535.

  2. Hyvarinen, J., & Karlsson, M. (1977). "Low-resistance skin points that may coincide with acupuncture loci." Medical Biology 55(2):88-94.

  3. Prokhorov, E.F., et al. (2006). "Topological features of meridian systems and their informational aspects." Biophysics 51(5):820-826.


DNA & Frequency Response

  1. Cosic, I., et al. (2015). "Macromolecular bioactivity: Is it resonant interaction between macromolecules?" IEEE Transactions on Nanobioscience 14(1):95-96.

  2. Blank, M., & Goodman, R. (2011). "DNA is a fractal antenna in electromagnetic fields." International Journal of Radiation Biology 87(4):409-415.

  3. Montagnier, L., et al. (2015). "Transduction of DNA information through water and electromagnetic waves." Electromagnetic Biology and Medicine 34(2):106-112.


Oxidative Stress & Magnetic Fields

  1. Consales, C., et al. (2012). "Electromagnetic fields, oxidative stress, and neurodegeneration." International Journal of Cell Biology 2012:683897.

  2. Ikehara, T., et al. (2010). "Effects of exposure to a time-varying 1.5 T magnetic field on the neurite outgrowth in PC12 cells." Bioelectromagnetics 31(3):211-218.

  3. Lupke, M., et al. (2004). "Gene expression in human cells following exposure to strength magnetic fields." Bioelectromagnetics 25(4):253-264.


Clinical Applications & Medical Use

  1. Pall, M.L. (2013). "Electromagnetic fields act via activation of voltage-gated calcium channels." Journal of Cellular and Molecular Medicine 17(8):958-965.

  2. Ciombor, D.M., et al. (2002). "Low frequency EMF regulates chondrocyte differentiation and expression of matrix proteins." Journal of Orthopaedic Research 20(1):40-50.

  3. Jerabek, H., & Pawluk, W. (1998). "Magnetic therapy in Eastern Europe: A review of 30 years of research." Magnetotherapy 3(1):43-65.

  4. Markov, M.S., & Pilla, A.A. (1995). "Weak static magnetic field modulation of myosin phosphorylation in a cell-free preparation." Bioelectromagnetics 16(5):277-287.


Patents (U.S. Patent Office)

  1. Patent US6017925A (2000). "Apparatus for modifying biologic activity with magnetic fields."

  2. Patent US5925591A (1999). "Pulsating magnetic field generating device for treatment of living tissue."

  3. Patent US4889526A (1989). "Non-invasive method and apparatus for modulating brain signals through an external magnetic field."

  4. Patent US5857958A (1999). "Method and apparatus for applying static magnetic field therapy."

  5. Patent US6673597B1 (2004). "Magnetic therapy device and method."


Biofield Science & Energy Medicine

  1. Rubik, B., et al. (2015). "Biofield science: Current physics perspectives." Global Advances in Health and Medicine 4(Supplement):25-34.

  2. Jain, S., et al. (2015). "Biofield therapies: Helpful or full of hype?" International Journal of Behavioral Medicine 22(4):413-426.

  3. Hammerschlag, R., et al. (2015). "Biofield physiology: A framework for an emerging discipline." Global Advances in Health and Medicine 4(Supplement):35-41.


Additional Supporting Research

  1. Liboff, A.R. (2004). "Toward an electromagnetic paradigm for biology and medicine." The Journal of Alternative and Complementary Medicine 10(1):41-47.

  2. Adey, W.R. (1993). "Biological effects of electromagnetic fields." Journal of Cellular Biochemistry 51(4):410-416.

  3. Oschman, J.L. (2000). Energy Medicine: The Scientific Basis. Churchill Livingstone. 432 pages.

  4. Becker, R.O. (1990). Cross Currents: The Promise of Electromedicine. Jeremy P. Tarcher. 336 pages.

  5. Ho, M.W. (2008). The Rainbow and the Worm: The Physics of Organisms. World Scientific Publishing. 428 pages.