How does NanoVi® work?

How does NanoVi® technology work?

The NanoVi® device augments a signal that is naturally generated by the body and is essential to cellular activity. The following 3D animation explains how NanoVi’s “bio-identical signal” assists the multi-step process of reinstalling protein functions that are essential to cellular activity.

Visualizing the difference NanoVi® makes

Cell damage is natural, and is going to occur. NanoVi® cannot prevent cell damage, but is designed to help cells after the damage has already occurred.

Here are three illustrations to explain how NanoVi® helps repair cell damage and free radicals. In each scenario, the free radicals or “bad ROS” are illustrated in red. The “good ROS” signals are illustrated in green.

In the first scenario, we see free radicals in red (the “bad ROS”) attacking a cell and causing cell damage to proteins, mitochondria, DNA, and the cell membrane. Also notice the green ROS signal, the body’s natural way of triggering repair. Once these “good” ROS emit their signal, they join the ranks of the “bad” ROS.

Click to enlarge, NanoVi, Free Radicals, ROS Signal, Protein Damage, Mitochondrial Damage, DNA Damage, Cell Membrane Damage, ROS, Oxygen, Cell Energy (ATP), Cell Energy, ATP, GlucoseClick to enlarge

Here we show a great deal of free radical damage and assume little or no protection from supplementary antioxidants. This illustration shows no outside support for the body to recover from free radical damage.

In the second scenario, we show a better-looking, or healthier cell. Here we assume the person is taking some preventive measures, primarily by supplementing with antioxidants in foods. Still the “good ROS” signal for repair remains the same.

Click to enlarge, NanoVi, Free Radicals, ROS Signal, Protein Damage, Mitochondrial Damage, DNA Damage, Cell Membrane Damage, ROS, Oxygen, Cell Energy (ATP), Cell Energy, ATP, GlucoseClick to enlarge

In the third scenario, we show the best-looking cell. This body is benefiting from antioxidants and, by adding the NanoVi™ signal, is augmenting the body’s natural ability to repair cell damage and free radicals.

Click to enlarge, NanoVi, Free Radicals, ROS Signal, Protein Damage, Mitochondrial Damage, DNA Damage, Cell Membrane Damage, ROS, Oxygen, Cell Energy (ATP), Cell Energy, ATP, Glucose, Bio-identical signalClick to enlarge

NanoVi® devices help you counteract the effects of bad reactive oxygen species by improving the good effects. We have a library of documentation proving the efficacy of the NanoVi® approach. Visit the library now >>

Watch a general explanation of how the NanoVi® device augments the repair of oxidative stress damage in the video below:

How does NanoVi® make a signal that is bio-identical to what our bodies make?

The simple answer is that we create a specific electromagnetic wave that has precisely the same wavelength as the ‘good’ (excited) ROS produces in our cells. We were not the ones to figure out how important this wavelength is in initiating cellular repair. That work was done by cell biologists, specifically scientists studying REDOX signaling.

Our innovation is to generate the precise and measurable signal inside the NanoVi® device, without producing any ROS. The signal is transferred to humidity (absorbed) and the effect is delivered to you across humidified air. Avoiding the production of any kind of reactive oxygen species is a key aspect of NanoVi® technology. University research verified that NanoVi® technology produces precisely the correct signal.

How does NanoVi® compare to oxygen and antioxidant therapies?

NanoVi® is doing something different, and complementary, to these therapies. A comparison of these traditional products to our NanoVi® device is available here.

Knowing how NanoVi works is helpful but the fact that NanoVi does work is key. Learn why personal users and athletes value it and discover how it fits into professional settings.

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It is a fascinating time for this field of research [protein and redox signaling therapies] since it contributes to new therapies which will lead into a new therapeutic era…Eng3, as I understand it, is developing such novel human therapies.

G.N. Waite, Ph.D., Associate Professor of Cellular and integrative Physiology, Indiana University School of Medicine – Terre Haute

In biology, a specific near-infrared wavelength is emitted by a known ROS (Reactive oxygen Species) and is known to trigger oxidative response. With the “NanoVi” approach the same energy is directly emitted and is several orders of magnitude higher than indirect, catalyst-based approaches.