Ultrasound Scans for the Treatment of COVID-19: MIT Research Reveals Potential to Damage Virus Shells and Spikes

Studies suggest that ultrasound scans, the devices used to monitor fetal growth inside a mother, can destroy coronavirus cells by causing the surface of the virus to separate and implode .

Mail Online reports that researchers at the Massachusetts Institute of Technology performed a mathematical assessment based on the physical characteristics of the genital coronavirus cells. Related information can be seen on the MIT YouTube video below.

As a result, the evaluation showed that medical ultrasound could adversely affect the shell and spikes of the virus, and as a result it collapsed and collapsed.

Ultrasound is already used for the treatment of kidney stones but the research team wants further investigation into the potential for COVID-19 treatment.

Develop model computer simulations of universal coronavirus, the family includes COVID-19, HIV and influenza.

Out of these simulations, the study’s researchers found that between 26 and 100 MHz, the coronavirus separates from each other and fails in less than one thousand miles.

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The fall of the virus

As indicated in the study, at 100MHz, the computer model showed that the virus collapsed because it corresponds to the natural vibration frequency of the organs.

This is a phenomenon that occurs when the frequency of a particular wave aligns with the inherent properties of a material, constantly amplifying the vibration.

A common understanding of physics is similar to the way opera singers allow wine glasses to be damaged and is also a problem, for the construction of bridges. If the frequency of the wind or the footpaths coincides with the natural features of the bridge, experts said, it will spiral out of control.

This is exactly what happened in 2000 with the opening of the Millennium Bridge in London and great progress.

It happened at two MHz, although for COVID-19, the 100MHz waves were detected causing a reset. Within a matter of seconds, the surface of the model virus was inverted and malformed. At 25 and 50MHz, the same process was accelerated even further.

Able to treat COVID-19

According to MIT’s executive mechanics professor Tomasz Wierzbicki, who is also the lead author of the study, these frequencies, as well as their intensity, are “within the range of safely used for medical imaging.”

The authors of the study said, the results are based on variable data of the physical properties of the virus and need to be carefully interpreted.

Nevertheless, it opens up the possibility that coronavirus infections, which include COVID-19, could be treated with ultrasound one day.

Issues related to the feasibility of such a therapeutic approach

There are a number of issues with the viability of such an approach. One of these problems is this type of procedure, which is usually applied to a specific area of ​​the body to perform a scan. It would target a person’s body as it can spread to a large number of tissues, including the nose, brain and lungs.

However, MIT engineers say their study is always a pioneer in finding an innovative research path and more studies are needed to determine its long-term viability as a treatment.

Wierzbicki explained, they have shown, under ultrasound excitation, that the coronavirus shell and spike activate, and at the magnitude of the vibration significantly, generating rays that can break down certain parts of the virus, causing visible damage to the outer shell, and possibly, the unprecedented damage to the inner RNA.

It is hoped that the paper will spark discussion across a range of topics. The full findings of the study are published in the Journal of the Mechanics and Physics of Solids (Effect of receptors on the Coronavirus harmonic resonant and transient vibrations).

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