Discussion on Teslawave Technology

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 Plast Surg (Oakv). 2017 Feb;25(1):21-26. doi: 10.1177/2292550317693813. Epub 2017 Mar 21.

 Affiliations 

 PMID: 29026808 PMCID: PMC5626185 DOI: 10.1177/2292550317693813

Chronic wounds are painful and debilitating to patients, pose a clinical challenge to physicians, and impose financial burden on the health-care system. New treatment options are therefore highly sought after. Ultrasound debridement is a promising technology that functions to disperse bacterial biofilms and stimulate wound healing. In this review, we focus on low-frequency ultrasound (20-60 kHz) and summarize the findings of 25 recent studies examining ultrasound efficacy. Ultrasound debridement appears to be most effective when used 3 times a week and has the potential to decrease exudate and slough, decrease patient pain, disperse biofilms, and increase healing in wounds of various etiology. Although current studies are generally of smaller size, the results are promising and we recommend the testing of low-frequency ultrasound therapy in clinical practice on a larger scale.

Keywords: bacterial biofilm; chronic wound; debridement; low-frequency ultrasound.

PubMed Disclaimer

Declaration of Conflicting Interests: The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Scientists have developed a new way to kill cancer cells using vibrating molecules nicknamed “molecular jackhammers.” These tiny compounds, made from aminocyanine dyes, are activated by near-infrared (NIR) light. Once hit with light, they vibrate so rapidly that they physically break apart cancer cell membranes without using toxic chemicals.

A study from Rice University and Texas A&M showed these molecules can destroy up to 99 percent of melanoma cells in lab tests. The technology could lead to safer, more targeted cancer treatments that leave healthy cells untouched.

Why Molecular Jackhammers Matter:

Light-Driven Action. When exposed to NIR light, the molecules vibrate at nearly 40 trillion times per second, tearing apart cancer cells by force.

Targeted Effects. The molecules attach mostly to cancer cells, minimizing harm to healthy tissue and avoiding immune system detection.

No Drug Resistance. Unlike chemotherapy, which cancer cells can resist over time, this physical method is much harder to fight against.

Real Results. In mouse trials, 50 percent of treated animals were completely tumor-free after therapy.

What the research found:
1. “Molecular jackhammers”:
Scientists from Rice University, Texas A&M, and University of Texas used aminocyanine dye molecules, which attach themselves to cancer cell membranes. Exposed to near-infrared light, these molecules vibrate so intensely that they rupture the cancer cell membranes.

2. High lab effectiveness:
In test-tube experiments with human melanoma cells, they destroyed about 99% of the cancer cells.

3. Early animal trials:
In mouse models, 50% of the treated mice became tumor-free after treatment.

More reading:
https://www.euronews.com/health/2024/01/08/scientists-destroy-99-of-cancer-cells-in-lab-using-new-technique-with-vibrating-molecules

https://www.earth.com/news/light-activated-molecules-kill-cancer-cells-with-precision 

“Molecular Jackhammers: Beating Cancer with Vibration at the Nanoscale”

Imagine vibrating molecules so hard—and so fast—that they literally blast cancer cells apart. That’s exactly what scientists from Rice University, Texas A&M, and MD Anderson Cancer Center achieved using aminocyanine-based “molecular jackhammers.”

Here’s how it works:
• These synthetic dye molecules selectively stick to cancer cell membranes.
• When activated by near-infrared light, they vibrate in perfect sync—forming molecular-scale “jackhammer” action.
• This vibration tears open the cancer cell’s membrane, destroying 99% of melanoma cells in lab tests.
• Even in mice with melanoma tumors, half were completely cured.

This method is not only mechanically powerful, but also hard for cancer to resist—because it doesn’t rely on chemical pathways that the cell can adapt to or block.

⸻

Credits: Rice University, Texas A&M, and UT-MD Anderson Cancer Center | Published in Nature Chemistry

The future of cancer treatment might just be vibrating its way forward. Keep exploring with @entangletechh 

Mini Review

Fluid Mechanics: Open Access

Volume 10:05, 2023

*Address for Correspondence: Broant Pula, Department of Physics and Astronomy, University of 

Bonn, 53127 Bonn, Germany; E-mail: broantpula@gmail.com

Copyright: © 2023 Pula B. This is an open-access article distributed under the terms of the 

Creative Commons Attribution License, which permits unrestricted use, distribution, and 

reproduction in any medium, provided the original author and source are credited.

Received: 02 October, 2023, Manuscript No. fmoa-23-119459; Editor Assigned: 04 October, 2023, PreQC 

No. 119459; Reviewed: 16 October, 2023, QC No. Q-119459; Revised: 21 October, 2023, Manuscript No. 

R-119459; Published: 28 October, 2023, DOI: 10.37421/2476-2296.2023.10.307

Exploring the Potential of Scalar Waves in Medicine and Healing

Broant Pula*

Department of Physics and Astronomy, University of Bonn, 53127 Bonn, Germany

Abstract

Scalar waves, a relatively obscure and enigmatic field of electromagnetic phenomena, have gained 

attention in recent years for their potential applications in medicine and healing. These waves, 

often called "Tesla waves" or "longitudinal waves," are distinct from traditional electromagnetic 

waves like radio waves or microwaves. Scalar waves are characterized by their non-Hertzian nature, 

meaning they do not oscillate in the conventional sinusoidal pattern. Instead, they possess a 

unique quality that enables them to interact with biological systems in ways that hold promise for 

therapeutic applications. This article delves into the science behind scalar waves, their history 

and the evolving landscape of research and practical applications in medicine and healing.

Keywords: Scalar waves • Tesla waves • Longitudinal waves • Electromagnetic phenomena

Introduction

The field of medicine has seen remarkable advancements over the years, from surgical procedures to 

pharmaceutical breakthroughs. Yet, there are still areas in the realm of healing and healthcare 

where mystery and potential await discovery. Scalar waves, a fascinating and relatively obscure 

branch of electromagnetic phenomena, have garnered increasing attention for their potential in the 

field of medicine and healing. These waves, often referred to as "Tesla waves" or "longitudinal 

waves," differ significantly from traditional electromagnetic waves and offer unique possibilities 

for therapeutic applications. This article explores the world of scalar waves, examining their 

properties, historical context and the evolving landscape of research and practical applications in 

medicine and healing. Scalar waves are electromagnetic waves with unique characteristics that set 

them apart from conventional electromagnetic waves [1].

Literature Review

Scalar waves are said to possess two components: the longitudinal Electric field (E-field) and the 

longitudinal magnetic field (B-field). These fields do not oscillate in phase with each other, as 

is the case with traditional electromagnetic waves. Instead, they are thought to exist in a state 

of superposition, where the electric and magnetic fields coexist and interact differently than 

standard transverse electromagnetic waves. The history of scalar waves can be traced back to the 

work of renowned inventor and scientist Nikola Tesla in the late 19th and early 20th centuries. 

Tesla is credited with introducing the concept of scalar waves and conducting pioneering 

experiments in this field. He believed that scalar waves could have profound effects on various 

aspects of life, including energy transmission, communication and healing.

Tesla's experiments with scalar waves often involved high-frequency and high-voltage electrical 

apparatus. One of his notable inventions, the

Tesla coil, played a crucial role in generating scalar waves. While some of his ideas and 

experiments were considered radical in his time, they have since resurfaced and piqued the interest 

of scientists and researchers exploring alternative approaches to medicine and healing. The unique 

properties of scalar waves have led to speculation about their potential applications in the realm 

of medicine and healing. While the field is still in its infancy, several areas of interest have 

emerged. One of the primary areas of focus in scalar wave research is their potential to interact 

with biological systems at the cellular level. Proponents of scalar wave therapy suggest that these 

waves can influence cellular resonance, promoting healing and overall wellness. It is believed that 

scalar waves may help balance the body's energy, reduce inflammation and enhance cellular 

communication, which can lead to improved health and a faster recovery from various ailments [2].

Discussion

Scalar waves are closely linked to the concept of energy medicine and vibrational healing. This 

approach posits that the human body is more than just its physical components; it is also composed 

of energy fields and vibrations. Scalar waves, with their unique electromagnetic properties, may be 

able to interact with these energy fields, thereby promoting harmony and balance within the body. 

Advocates of energy medicine argue that scalar waves could be harnessed to address conditions and 

diseases related to energy imbalances. The potential impact of scalar waves on mental health and 

stress reduction is another intriguing aspect of their applications in medicine and healing [3].

Stress is a widespread concern in modern society and its adverse effects on health are 

well-documented. Scalar wave therapies are thought to have a calming and soothing effect on the 

mind, possibly reducing stress and anxiety. While more research is needed to confirm these claims, 

the exploration of scalar waves as a complementary approach to mental health and well-being is 

ongoing. Chronic pain is a significant challenge for many individuals and current treatment options 

are often limited. Scalar wave therapies may offer an alternative or complementary approach to pain 

management. Some proponents suggest that scalar waves can stimulate the body's natural pain- relief 

mechanisms and reduce discomfort. However, like other potential applications, further research and 

clinical trials are needed to substantiate these claims [4].

Scalar waves may have the potential to balance the body's bioenergetic fields. In this context, the 

term "bioenergetics" refers to the study of the flow and transformation of energy within living 

organisms. Proponents of scalar wave therapies argue that by influencing these bioenergetic fields, 

it

Pula B.

Fluid Mech Open Acc, Volume 10:05, 2023

 Page 2 of 2 

How to cite this article: Pula, Broant. “Exploring the Potential of Scalar Waves

 in Medicine and Healing.” Fluid Mech Open Acc 10 (2023): 307.      

is possible to address various health issues and support the body's innate healing mechanisms. The 

study of scalar waves in medicine and healing is still relatively young and scientific 

understanding is evolving. However, there are ongoing efforts to explore their potential and 

practical applications. Several

Researchers and institutions are conducting experimental studies to investigate

The effects of scalar wave therapy on various health-related outcomes. These studies often involve 

the use of specialized equipment designed to generate and transmit scalar waves. While the results 

of these experiments are preliminary, they offer insights into the potential of scalar waves in 

different therapeutic contexts [5,6].

Conclusion

The exploration of scalar waves in medicine and healing represents an intriguing avenue of research 

and development. While these waves have a rich historical connection to the work of Nikola Tesla, 

their true potential in healthcare remains a subject of ongoing investigation and debate. Scalar 

waves, with their non-Hertzian nature and unique electromagnetic properties, have inspired a range 

of therapies and devices designed to harness their alleged healing power. However, the field is not 

without its challenges, including the need for scientific validation, ethical considerations and 

regulatory oversight. the mysterious world of scalar waves may hold the key to transformative 

advances in medicine and healing. By embracing a holistic and evidence-based approach, we can 

better understand and harness the potential of these enigmatic electromagnetic waves to improve the 

quality of healthcare and life itself.

As researchers continue to delve into the mysteries of scalar waves, it is essential to approach 

this field with a discerning and evidence-based perspective. The potential for breakthroughs in 

medicine and healing is undeniable, but realizing this potential requires rigorous scientific 

inquiry, ethical practice and responsible use of scalar wave technologies. As we journey further 

into the 21st century, the true promise of scalar waves in healthcare may become clearer, offering 

new possibilities for improving human well-being and healing. The path forward involves rigorous 

scientific research, interdisciplinary collaboration, ethical guidelines and awareness among both 

healthcare professionals and the general public. With these measures in place, we can navigate the 

complexities of scalar waves, potentially unlocking their healing potential for the betterment of 

human health and well-being.

Acknowledgement

None.

Conflict of Interest

There are no conflicts of interest by author.

References

1. Simon, R., E. C. G. Sudarshan and N. Mukunda. "Cross polarization in laser beams." Appl Opt 26 

(1987): 1589-1593.

2. Chen, Weibin and Qiwen Zhan. "Realization of an evanescent Bessel beam via surface plasmon 

interference excited by a radially polarized beam." Opt Lett 34 (2009): 722-724.

3.  Zhan, Qiwen. "Evanescent Bessel beam generation via surface plasmon resonance excitation by a 

radially polarized beam." Opt Lett 31 (2006): 1726-1728.

4. Grosjean, T., D. Courjon and D. Van Labeke. "Bessel beams as virtual tips for near- field 

optics." J Microsc 210 (2003): 319-323.

5. Dehez, Harold, Alexandre April and Michel Piché. "Needles of longitudinally polarized light: 

Guidelines for minimum spot size and tunable axial extent." Opt Express 20 (2012): 14891-14905.

6. Włodarczyk, P., Szymon Pustelny and D. Budker. "System for control of polarization state of 

light and generation of light with continuously rotating linear polarization."

Rev Sci Instrum 90 (2019).

How to cite this article: Pula, Broant. “Exploring the Potential of Scalar Waves in Medicine and Healing.” Fluid Mech Open Acc 10 (2023): 307.

ABSTRACT Quantum medicine and regenerative medicine represent transformative frontiers in healthcare. This article explores their possible unification, by emphasizing Tesla waves (scalar waves) and 528 Hz sound frequency as potential bridges to enhance regenerative processes. By integrating quantum principles with regenerative therapies, this innovative approach has the potential to optimize cellular energy, accelerate recovery, and offer non-invasive treatment protocols. Rigorous scientific study is critical to substantiate these approaches and unlock their potential. DOI 10.14200/jrm.2025.0001 

Keywords: Quantum medicine; Regenerative medicine; Tesla waves; 528 Hz sound frequency; Scalar waves

Corresponding author: Marina Elisa Peñate, E-mail: mpenate19@gmail.com aQuantum International University for Integrative Medicine, Honolulu, HI, USA Copyright © 2025 Marina Elisa Peñate. This is an open-access article distributed under the terms of the Creative Commons Attribution NonCommercial-NoDerivatives 4.0 License. The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use,  distribution or reproduction is permitted which does not comply with these terms.

 Journal of Restorative Medicine 2025; 15: page 1

Unifying Quantum and Regenerative Medicine Through Tesla Waves and 528 Hz Sound Frequency

 INTRODUCTION

 The potential convergence of quantum medicine and regenerative medicine would mark a profound shift in modern healthcare. Quantum medicine focuses on healing through energy, vibration, and frequency, while regenerative medicine focuses on repairing, replacing, or regenerating human cells, tissues, or organs to restore normal function. Tesla waves and 528 Hz sound frequency, which are integral to quantum medicine, demonstrate potential in influencing biological systems and optimizing regenerative outcomes. A paper published in this Journal supports the idea of quantum medicine as a foundational component of restorative medicine.1 While restorative and regenerative medicine differ, they both might benefit from leveraging the principles of quantum medicine to address cellular health and systemic rejuvenation. 

TESLA WAVES: DNA REPAIR THROUGH QUANTUM MEDICINE 

Tesla waves, also known as scalar waves, are theorized as a unique form of zero-point energy capable of exceeding the speed of light. Nikola Tesla’s groundbreaking work identified these waves as a medium for energy transmission with potential for advanced medical healing applications.2 In quantum medicine, scalar waves are thought to facilitate cellular communication and energy flow by influencing vibrational frequencies. One study suggests that scalar energy can modulate biochemical communication between nerve cells by affecting neurotransmitter functions. This study showed that scalar energy activated the RAD-6 gene, resulting in increased activity of ubiquitin, a protein involved in DNA repair. This suggests that scalar energy may have a direct effect at the subcellular level, potentially contributing to regenerative processes.3 Tesla waves remain a theoretical concept within quantum physics, often viewed with skepticism by mainstream science. Critics argue that the theoretical underpinnings of scalar waves challenge established models of quantum mechanics. Nonetheless, emerging research on their application in non-mainstream medicine highlights their potential in promoting cellular energy and repair. THE 

ROLE OF 528 Hz IN CELLULAR REGENERATION AND PRESERVATION

 A preliminary study demonstrated that exposure to 528 Hz sound waves significantly reduced cell death in astrocyte cells subjected to ethanol-induced stress, suggesting both protective and regenerative effects.4 

REGENERATION 

An approximately 20% increase in cell viability suggests that 528 Hz not only preserves but also enhances cellular survival and self-repair, supporting healthier cell function, division, and renewal.4 

PRESERVATION 

The 528 Hz sound frequency reduces reactive oxygen species (ROS) by up to 100%, protecting cells from oxidative stress, a key contributor to DNA damage and aging.4 This helps preserve DNA integrity, supporting cellular longevity. Maintaining and or repairing DNA correlates with longevity and health and is crucial in fields like regenerative medicine. Additionally, 528 Hz may also restore order to the water molecules surrounding DNA, vital for its structural integrity.5 

QUANTUM MEDICINE AS A FOUNDATION FOR REGENERATION 

Quantum medicine emphasizes restoring health through energy-based interventions, aligning naturally with the goals of regenerative medicine. By leveraging scalar waves and sound frequencies, quantum medicine could expand the scope of 

Journal of Restorative Medicine 2025; 15: page 

Unifying Quantum and Regenerative Medicine Through Tesla Waves and 528 Hz Sound Frequency

Regenerative therapies, offering innovative solutions for conditions that resist conventional treatments. As evidence grows, these combined approaches may offer a holistic, natural, and non-invasive pathway to fostering restoration, regeneration and long-term wellness. 

CHALLENGES 

Tesla waves and 528 Hz remain a fringe concept in modern science. However, their potential implications are profound and deserve more rigorous scientific exploration. Studying these waves thoroughly, including their potential benefits and side effects, is essential to determine their true impact and ensure their safe and effective application in future technologies. Despite its promise, the advancement of quantum medicine faces significant challenges: • Limited funding: Research into energy-based therapies often lacks industry funding, as pharmaceutical solutions dominate healthcare investments. • Scientific skepticism: Tesla waves remain controversial due to their divergence from 

REFERENCES 

1. 2. 3. Gonzalez MJ, Sutherland E, Olalde J. Quantum functional energy medicine: the next frontier in restorative medicine. J Restor Med. 2019;8:1–7. Kosich M. The science behind scalar waves: a breakthrough in quantum physics. Fluid Mech Open Access. 2023;10:309. Central Intelligence Agency. Rein, G. Interactions with scalar energy—Cellular mechanisms of action (Document No. CIA-RDP96-00792R000500240008-9). conventional quantum physics. Tesla waves and sound frequencies must be substantiated through more rigorous research. • Educational gaps: Many healthcare professionals lack training in quantum principles, hindering their adoption into mainstream medical frameworks.  4. 5. Matuszczak S, Babayi T, Riazi GH. The effects of 528 Hz sound wave to reduce cell death in human astrocyte primary cell culture treated with ethanol. Addict Res Ther. 2024;13(4):1–7. Horowitz LG. Electrodynamics and 528 frequency resonance in water science helps solve the mystery in homeopathy. Homœopathic Links

CONCLUSION 

Tesla waves and the 528 Hz sound frequency, as integral components of quantum medicine, may provide a vital link to regenerative and restorative medicine in the near future. Emerging research could reinforce the idea that quantum medicine encompasses both regenerative and restorative approaches, offering innovative solutions for cellular preservation and renewal. Nikola Tesla’s discoveries, combined with the principles of sound frequencies, present a powerful synthesis of quantum, regenerative, and restorative medicine. Together, they pave the way for new realms of wellbeing that focus on optimizing cellular energy and vibrational health. This may ultimately lead to a paradigm shift where disease prevention and regeneration are enhanced through energy-based therapies.

Journal of Restorative Medicine 2025; 15: page 3