Low Frequency Ultrasound

The Next Medical Revolution

Introduction

The breakthrough of Artificial Intelligence. A new era of space exploration. Gene-editing tools like CRISPR. Recent scientific breakthroughs have made the once unthinkable become reality.

This website introduces the marvels of sound wave technology (using low frequency ultrasound). This technology can treat and heal various disease states, not to be confused with diagnostic ultrasounds, which produce pictures of the inside of the body. Advances in this technology have created a seismic shift in medicine.. The ability to destroy life-threatening organisms, promote cell growth, and accelerate healing and pain relief.

Diseases are running rampant in our world, taking millions of lives and causing trillions of dollars in economic loss. The United Nations just sounded the alarm about drug-resistant superbugs, which could lead to ten million deaths per year by 2050 and a decline of at least $3.4 trillion in gross domestic product (GDP) each year by 2030. Click here to learn more.

Did you know that researchers at the Mayo Clinic destroyed four different superbugs by destroying their shells with sound waves? Imagine the value proposition once this technology is fully commercialized. This is evidence-based, peer-reviewed science. It's not an exaggeration to say we are on the verge of the next medical revolution.

Overview

How to Use This Site

This site provides the following:

A description of what low-frequency ultrasound is and how it works.
A general overview of the scientific literature surrounding low-frequency ultrasound, describing what is now possible in medicine
An introduction to the principal scientists who have developed a proprietary technology platform utilizing low-frequency ultrasound.
An overview of 10 different markets that can be targeted rapidly
A list of our patents, FDA-approved device, and examples of some working prototypes
A summary of the technology and its scope

You can also access specific areas by clicking the links below:

What is Low Frequency Ultrasound and How is it Different

Diagnostic Technology Versus Therapeutic Technology

Most people are familiar with ultrasounds, which health care providers use to produce pictures of the inside of the body. A typical example is a sonogram, which is used to evaluate a baby's growth and development before it is born. This diagnostic technology, which uses high-frequency sound waves, is well known and has been around for many years.

Low-frequency ultrasound is different. Rather than using sound waves to take pictures and help diagnose conditions, low-frequency ultrasound waves can be used to treat and heal medical conditions.

Recent breakthroughs in this technology have made a wide range of procedures more possible. In fact, this technology can now be integrated into various medical devices. Virtually any body part can be safely treated with these sound waves. When delivered properly, these waves can produce several effects. A few examples:

Destroy Dangerous Organisms (drug-resistant bacteria, viruses, and fungi)
Accelerate Healing
Promote Cell Growth
Provide Pain Relief
Impact Blood Circulation (reduce and slow down bleeding)
Enhance and Energize Pharmaceutical Drug Delivery

How do you safely create, contain, and release this powerful energy? The key differentiator is the delivery system.

How Does it Work - Create, Contain and Deliver Energy

Microbubbles

A device creates, contains, and delivers ultrasound energy through tiny bubbles and acoustic streaming. Once the bubbles hit the desired area and collapse, they release tiny, powerful energy bolts.

This technology has been held back by the inability to stabilize the energy. For example, if a bubble collapses too early, you cannot deliver sufficient amounts of ultrasound energy. Our scientists have developed a way to stabilize this powerful energy. This is called stable cavitation.

Because of these advances, this technology now has many fields of application, including surgeries, transdermal drug transport, gene delivery, wound therapy, bacterial and virus destruction, and more. Learn More. To learn more about stable cavitation, click here and here.

Antimicrobial Resistance is a Top Threat

Superbug Destruction With Sound Waves

According to a major U.N. report published on February 7, 2023, superbugs are now a leading global health risk. Climate change, pollution, and biodiversity loss are helping create pathogens that can evade our medications. Click here and here to learn more.

Antimicrobials, including antibiotics, antivirals, antifungals, and antiparasitics, are commonly used to prevent and treat infections in humans, animals, and crops. However, their overuse and misuse have led to the development of antimicrobial resistance (AMR) worldwide, where microorganisms become resistant to once effective treatments.

AMR has been identified as a top 10 threat to global health. It is estimated that drug-resistant superbugs could lead to ten million deaths per year and a decline of at least $100 trillion in gross domestic product (GDP) by 2050.

The solution to this deadly threat may be hidden in plain view. In 2007, researchers at the Mayo Clinic were studying a new medical device, trying to understand how it was effective at healing chronic wounds. They were startled when they discovered that the sound waves emitted from the device could destroy four antibiotic-resistant bacteria (superbugs). Click here and here to learn more. Researchers at MIT's Department of Mechanical Engineering have done similar research. Learn more here and here.

THE EVIDENCE - DESTRUCTION OF FOUR SUPERBUGS

MRSA

Scanning and transmission electron micrographs of methicillin-resistant Staphylococcus aureus during the control and experimental periods (× 40,000). Journal of the American Podiatric Medical Association • Vol 97 • No 2 • March/April 2007

VRE

Scanning and transmission electron micrographs of vancomycin-resistant enterococci during the control and experimental periods (× 40,000). Journal of the American Podiatric Medical Association • Vol 97 • No 2 • March/April 2007

P. aeruginosa

Scanning and transmission electron micrographs of Pseudomonas aeruginosa during the control and experimental periods (× 40,000). Journal of the American Podiatric Medical Association • Vol 97 • No 2 • March/April 2007

S. aureus

Scanning electron micrographs of Staphylococcus aureus during the control and experimental periods (× 40,000). Journal of the American Podiatric Medical Association • Vol 97 • No 2 • March/April 2007

The Qoustic Wound Therapy System

Medical device directs focused ultrasound energy to wounds and creates stable cavitation. Designed to treat chronic wounds and has been used safely on patients for many years. Destroys four superbugs in test at Mayo Clinic.

New Procedures

The Qoustic Wound Therapy System

Recent breakthroughs have made a wide range of procedures more possible that were unthinkable before.

What is Now Possible - Review of the Scientific Literature

New Treatments for Cancer

Ultrasound selectively damages cancer cells when tuned to correct frequencies. Learn More. “If you can hit cancer cells with the right frequency, inducing harmonic resonance, you can selectively damage those cells.” The principle behind harmonic resonance is not unlike the opera singer who can break a glass with her voice. Learn More

Low-frequency ultrasound combined with microbubbles is a promising method for tumor therapy. Learn More

Tumors partially destroyed with sound don't come back. Microbubbles within the targeted tissues rapidly expand and collapse. These violent but extremely localized mechanical stresses kill cancer cells and break up the tumor’s structure. Learn More

Enhances T cell recruitment - Local administration of a plasmid and microbubbles, coupled with image-guided low-intensity ultrasound, provides a safe and effective method to create a T cell-inflamed tumor. This technology was used to produce an anticancer cytokine and consequently recruit efficacious immune cells at both the local and distant tumor sites. Learn More

Combination therapy with low-frequency ultrasound irradiation and radiofrequency ablation as a synergistic treatment for pancreatic cancer. Learn more

Controlling Blood Flow

New Treatments for Cancer

Low frequency ultrasound (LFU) can speed up, slow down, and temporarily stop blood flow. LFU has a stimulatory effect on microcirculation, mainly due to improved oxygenation. Learn More. Increased skin blood flow during low intensity vibration in human participants Learn More

Promoting Cell Growth

Drug and Gene Delivery System

Promoting Cell Growth

Low-frequency ultrasound can influence proliferation and differentiation of odontoblast-like cells. Learn More

Ultrasound induces cellular responses that may be beneficial to wound healing. Learn More

Pain Management

Drug and Gene Delivery System

Promoting Cell Growth

Focused ultrasound technology is opening new scenarios in the field of pain management, including noninvasively predicting the outcome of ablative procedures and obtaining acute pain relief through reversible conduction blocks. Learn More

Drug and Gene Delivery System

Low-frequency ultrasound is typically used in transdermal drug transport and gene delivery. Learn more here, here, and here.

Kidney Stone Destruction

Drug and Gene Delivery System

A burst of ultrasound waves can break up kidney stones in 10 minutes. Learn More

Robotics

Kidney Stone Destruction

Accelerate Healing

Low-frequency ultrasound has captured the attention of researchers in different areas, particularly robotics, in applications with remote and proximity sensors. Learn More

Accelerate Healing

Kidney Stone Destruction

Accelerate Healing

Low‑frequency ultrasound treatment promotes the repair of various injuries and may accelerate wound healing. Learn More

Ultrasound debridement stimulates wound healing. Learn More

Healing occurs at a faster rate than with standard wound care alone. Learn More

Low-frequency ultrasound improved the rate of healing in chronic wounds Learn More

Beauty and Skin Rejuvenation

Food – Safety and Quality Control

Low-intensity, low-frequency ultrasound is increasingly used for noninvasive, external body contouring as an alternative to liposuction or laser treatments. Learn More

Ultrasound skin tightening - facial and body rejuvenation Learn More.

The benefit of combined radiofrequency and ultrasound is that it enhances surgical and nonsurgical outcomes for the face and neck. Learn More

Food – Safety and Quality Control

Utilizing low or high frequencies for the ultrasonic transducer has greatly benefited analyzing, modifying, and guaranteeing food quality (safety and quality control). Learn More

Increasing Vaccine Production

Food – Safety and Quality Control

Increasing Vaccine Production

Ultrasound waves can increase cell permeability, which, in turn, can enhance nutrient/waste exchange, thus leading to enhanced vaccine production. This finding is very meaningful in either shortening vaccine production time or increasing the yield of proteins for use as vaccines. Learn More

Industrial Applications

Water Purification and Treatment

Low frequency ultrasound has many industrial and commercial applications as well because it can be used with liquids, gases, and fluids to:

Treat, sterilize, and degrade matter
Separate, segregate, and extract different matter.
Induce chemical reactions and increase the efficacy of other chemicals (like chlorine, bromine, and ozone).
Clean and deodorize

Low-frequency ultrasound can be used for water treatment. Ultrasound is an advanced oxidation technology that has demonstrated its capacity to degrade different types of organic molecules due to the generation of cavitation bubbles or cavities that promote the generation of radicals. Learn More

Mechanical biofilm disruption from ultrasound. Learn More

Reducing bacterial biofilm with ultrasound technology. Learn More

Increasing Fuel Efficiency

Water Purification and Treatment

Feasibility of low frequency ultrasound for water removal from crude oil emulsions. Ultrasound could be considered a promising technology for industrial crude oil treatment, water removal, and improved efficiency. Learn More Here, here, and here.

Our Story

Pursuing the American Dream

Two Russian scientists, unknown to one another, flee the former Soviet Union and immigrate to the United States to pursue the American Dream. Both rose to leadership in the medtech space and co-founded separate companies. In a chance encounter, they meet, and friendships quickly form. They eventually discuss starting a company together, one that revolves around a new disruptive technology, low-frequency ultrasound. Dr. Babaev tells Michael Afremov, "I have discovered a phenomenon in physics." Michael Afremov believes in him and funds two startup companies, Bacoustics and Arobella Medical.

Dr. Eliaz Babaev

Born in Azerbaijan, a region devastated by war and destruction over many generations, Dr. Eliaz Babaev earned three PhDs and taught at prestigious universities throughout the Soviet Union. He rises to leadership in a new disruptive science involving sound waves. He brings his knowledge to the New World and leaves communism behind forever. Co-founder of Celleration Inc. (former CTO and CEO). Dr. Babaev has more than 40+ years of expertise in Non-Imaging Medical Ultrasound. Learn More.

Michael Afremov

During World War 2, a young woman named Bella (Rubashkin) Afremov survived the 900-day Siege of Leningrad that claimed the lives of 800,000 civilians. Years later, she and her husband brought their son Michael to the United States, where his engineering skills and sharp mind allowed him to become a leader and disruptor in his field. He would co-found AGA Medical and co-invent the Amplatz Septal Occluder Device, a groundbreaking medical device to repair heart defects. Learn More

Great Discoveries Often Go Unnoticed For Years

Penicillin was ignored for 13 years but would go on to change the course of history

In the summer of 1928, a young Scottish physician named Alexander Fleming was in such a rush to go on vacation that he accidentally left a stack of dirty petri dishes in his laboratory sink. The dishes were smeared with dangerous bacteria. When Dr. Fleming returned from his vacation, he found something astonishing. One of the petri dishes was dotted with bacteria everywhere except one spot where some mold had been growing. The area around it was clear, as if protected by an unseen barrier. Upon closer inspection, Dr. Fleming realized that the mold had secreted a liquid that killed several strands of the bacteria. This finding was ignored for 13 years, hidden in plain view. It wasn’t until 1941 that this extraordinary finding led to the creation of the world’s first antibiotic, penicillin. This discovery changed the course of history.

Fast-forward to 2007. A Russian scientist invents a device to help diabetics manage wounds, some of which are infected with dangerous bacteria. Researchers at the Mayo Clinic find something astonishing. Upon closer inspection, they realize that this device destroys various forms of antibiotic-resistant bacteria with sound waves. Like Penicillin, this finding has been ignored for years, hidden in plain view.

Summary - Changing Medicine Forever

Disruptive Technology with a Broad Range of Applications

As a review of the scientific literature demonstrates, recent breakthroughs in sonochemistry (applying sound energy) have made a wide range of procedures possible that were unthinkable before. Breakthroughs are now possible in general surgery, oncology, cardiology, orthopedics, wound care, vaccine development, anti-aging, and pain management. There are also industrial applications (fuel efficiency, water purification, and more). These advancements will revolutionize medicine as we know it. The only real question is: which company has the vision first and takes the lead?

Become a Market Leader with this Technology Platform

Disruptive Technology with a Broad Range of Applications

This technology platform is a foundation. It provides a technical architecture for creating, launching, and operating various medical devices and more. It will require investment but has enormous potential for accelerating growth, creating value, and saving lives. It will allow the right company to innovate, advance new technologies, and create new markets.

The Advisory Team

Senator Rudy Boschwitz

Rudy Boschwitz is a former United States Senator from Minnesota. He is also a former United States Ambassador to the United Nations Commission on Human Rights. He was President George H.W. Bush's emissary to Ethiopia in 1991. His mission resulted in Operation Solomon, the rescue of the small Black Jewish community of Ethiopia and their dramatic airlift to Israel. The negotiations also helped cause a simultaneous end to the decades-long civil war in Ethiopia. In a Rose Garden ceremony in June 1991, President Bush awarded Senator Boschwitz the Citizen's Medal for his achievements in the Horn of Africa. Boschwitz attended Johns Hopkins University and New York University, where he received his law degree. He has served on the boards of many organizations, including the Chicago Mercantile Exchange, the American Cancer Society, Twin City Federal Financial Corporation, the American-Israeli Public Affairs Committee, IDT Corporation, and the Friends of the World Food Program. He also served on the Board of Directors of the Jewish Institute for National Security Affairs; has been an AIPAC Board Member; and is a member of the Council on Foreign Relations. Learn More.

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Blake Vanderhyde, Esq

Senator Rudy Boschwitz

Blake Vanderhyde, Esq., is the President of Vanderhyde Consulting, Inc. He focuses on advancing technologies, creating new markets, and disrupting existing ones. His expertise centers around strategic thinking, accelerating growth, and developing actionable plans for success in a rapidly changing world. He is also the Founder of Vanderhyde Law. He has been recognized in Minnesota Law and Politics and SuperLawyers. Blake graduated Summa Cum Laude from Saint Cloud State University in Minnesota, and the William Mitchell College of Law, where he was a member of the Law Review. He is admitted to state and federal court and has been recognized by various organizations, including Super Lawyers and Minnesota Law and Politics Who’s Who. Past and/or current memberships include: American Association for Justice, Minnesota Association for Justice, Minnesota State Bar Association, Hennepin County Bar Association, Delta Theta Phi Law Fraternity International, and the American Inns of Court, Minnesota – Douglas K. Amdahl Inn. Learn More.

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