Plasma Charged Mitochondria (Album 4)

How many days and how many times a day have you listened to it?

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I just listen to it 3 times before I made my comment

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Thanks for sharing

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The bluprint of life you say ?

This audio is no longer available?

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You are the best @anon51404939

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thanks man you the best too

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Wow this audio is sublime

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Wish it was on patreon.

It is on patreon. Look up “Album 4”

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Thx !

This one is so underrated, should be listened to by everybody…

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what’s your experience with it?

Better body function on all levels.

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Makes sense since we have trillions of mitochondria… thinking about the possibility to charge them with plasma energy FOR FREE blows my mind. I’m definitely gonna start experimenting with this before my workouts

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Thanks for the reminder! I’ll try this instead of my coffee maybe

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Theres a coffee field too man !

Cup of Coffee (Caffeine)10zgv1e_gaMTE5Mjg2NzQxMi4xNjY3NzgzOTU3_ga_6LJN6D94N6*MTY3ODMwMTkzNy4yNTYuMS4xNjc4MzAxOTQyLjAuMC4w

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ChatGPT: Mitochondria are tiny structures inside our cells that are responsible for producing energy. They are like little power plants that convert the food we eat into a form of energy that our cells can use. They also have their own DNA and can carry out some of their own functions. Think of them like the batteries that power your phone - without mitochondria, our cells would not have the energy they need to function properly.

Plasma, or more specifically, plasma treatment or plasma technology, has been shown to have potential benefits for the charging of mitochondria, which are the organelles responsible for producing energy within cells.

Plasma is a partially ionized gas that contains a mixture of ions, electrons, and neutral particles. Plasma treatment involves exposing cells or tissues to plasma in order to induce various biological effects, including the stimulation of cellular metabolism.

Studies have shown that plasma treatment can increase the activity of mitochondrial enzymes involved in energy production, as well as increase the number and size of mitochondria within cells. This suggests that plasma treatment can enhance mitochondrial function and potentially improve cellular energy production.

Additionally, plasma treatment has been shown to have potential benefits for promoting the regeneration and repair of damaged tissues, including nerve and bone tissue. This may be due in part to its effects on mitochondrial function, as healthy mitochondria are necessary for cellular repair and regeneration.

Overall, while the mechanisms underlying the effects of plasma treatment on mitochondrial function are not fully understood, there is growing evidence to suggest that this technology may have potential therapeutic applications for a range of conditions related to mitochondrial dysfunction and impaired cellular metabolism.

Here are some additional details about plasma treatment and its potential effects on mitochondria:

  1. Mitochondrial biogenesis: Plasma treatment has been shown to increase the number and size of mitochondria within cells, a process known as mitochondrial biogenesis. This effect has been observed in a variety of cell types, including muscle cells, nerve cells, and skin cells.
  2. Increased ATP production: ATP is the primary source of energy for cells, and mitochondria are responsible for producing most of the ATP within cells. Plasma treatment has been shown to increase ATP production in a variety of cell types, suggesting that it can enhance cellular energy metabolism.
  3. Enhanced antioxidant capacity: Mitochondrial dysfunction can lead to increased oxidative stress within cells, which can cause cellular damage and contribute to a variety of diseases. Plasma treatment has been shown to increase the expression of antioxidant enzymes within cells, potentially reducing oxidative stress and protecting against cellular damage.
  4. Promotion of tissue repair and regeneration: Plasma treatment has been shown to have potential benefits for promoting tissue repair and regeneration, including in the context of wound healing and nerve regeneration. This may be due in part to its effects on mitochondrial function, as healthy mitochondria are necessary for cellular repair and regeneration.
  5. Anti-inflammatory effects: Mitochondrial dysfunction can contribute to chronic inflammation, which is associated with a variety of diseases. Plasma treatment has been shown to have anti-inflammatory effects in a variety of contexts, potentially through its effects on mitochondrial function.
  6. Mitochondrial respiration: Plasma treatment has been shown to enhance mitochondrial respiration, which is the process by which cells produce ATP through the breakdown of glucose and other fuels. Specifically, plasma treatment has been shown to increase the activity of the electron transport chain, which is responsible for generating the electrochemical gradient that drives ATP synthesis.
  7. Improved metabolic function: Plasma treatment has been shown to improve metabolic function in a variety of contexts, including in cells derived from patients with metabolic disorders. This may be due in part to its effects on mitochondrial function, as healthy mitochondria are necessary for proper metabolic function.
  8. Protection against mitochondrial damage: Plasma treatment has been shown to protect against mitochondrial damage induced by various stressors, including oxidative stress and inflammation. This may be due in part to its effects on antioxidant enzymes and other protective factors within cells.
  9. Effects on mitochondrial signaling: Plasma treatment has been shown to activate various signaling pathways within cells that are involved in regulating mitochondrial function, including the AMPK pathway and the PGC-1α pathway. These pathways play important roles in regulating mitochondrial biogenesis, respiration, and other aspects of mitochondrial function.
  10. Potential therapeutic applications: The potential benefits of plasma treatment on mitochondrial function have led to the development of various plasma-based therapies for a range of conditions, including wound healing, chronic pain, and even cancer. While many of these therapies are still in the early stages of development, there is growing interest in the potential therapeutic applications of plasma treatment for a range of diseases and conditions.

It’s worth noting that while there is growing evidence to suggest that plasma treatment can have beneficial effects on mitochondrial function, much of the research in this area is still in the early stages, and more studies are needed to fully understand the mechanisms underlying these effects and their potential therapeutic applications.

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I’ve been chasing down alternative theories on Alzheimer’s since the amyloid hypothesis blew up last year… One path is mitochondria. What boosts mitochondria seems to help with cognition. Various frequencies used in photobiomodulation that help stimulate mitochondria also help the brain. 40 hz, which made a lot of wave in Alzheimer’s research, also helps mitochondria

This is a brain field.

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