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Article: Tinnitus: A warning sign of mitochondrial dysfunction in a world of modern technology

Tinnitus: Varovný signál poruchy mitochondriální funkce ve světě moderních technologií

Tinnitus: A warning sign of mitochondrial dysfunction in a world of modern technology

Tinnitus, often perceived as a constant ringing in the ears, is actually much more than just an annoying sound. It is a warning sign that can reveal deeper problems associated with mitochondrial dysfunction in our body, especially in light of current technological influences.
The role of mitochondria and Fus1
Mitochondria, known as the energy factories of the cell, play a key role in a number of cellular functions, including energy production. One of the proteins, Fus1, located in the mitochondrial membrane, acts as small carbon nanotubes, allowing the exchange of cell contents. This structure, when damaged, can lead to disruption of mitochondrial functions, increased production of reactive oxygen species (ROS) and subsequent hearing damage.
The influence of modern technologies
Our modern environment is saturated with blue light and electromagnetic fields (nnEMF), which can fundamentally affect the health of our mitochondria. These factors change the tension in the atmosphere, resulting in changes in the sound waves that underlie our auditory perception. Exposure to nnEMF disrupts mitochondrial function by blocking the normal conversion of light energy into vibrational energy in the mitochondria. This phenomenon prevents the mitochondria from efficiently burning fat through beta-oxidation, as the light energy is not properly converted into the vibrations needed for this process.
Impact on hearing and tinnitus
As a result of nnEMF exposure and the disruption of mitochondrial functions, the redox state of the mitochondria is shifted, causing them to be unable to burn fat properly, resulting in energy deficits in the body. This energy deficit can lead to changes in the size of the MICU 1 calcium pore in auditory neurons, which is the cause of tinnitus, current research shows.
Conclusion
Therefore, tinnitus is not just an unpleasant symptom, but a real indicator that something is wrong with the energy processes in our body. It is important to recognize this signal and understand its deeper causes, which are connected not only to our health, but also to the technologies we use every day. This insight opens the door for us to find solutions to better protect our mitochondria and overall health in an environment full of technological challenges.
 
 
Tinnitus: A signal of mitochondrial stress in our modern environment
Tinnitus, commonly perceived as a ringing or whistling in the ears, is often considered a symptom of hearing damage or other health problems. In the context of quantum biology and decentralized medicine, tinnitus can be seen as an indicator of mitochondrial stress, caused by a combination of environmental factors, including nnEMF exposure.
Mitochondrial function and tinnitus
Mitochondria are key to generating energy in cells, including hearing cells. When functioning properly, these organelles efficiently convert energy and promote cell health. However, exposure to non-ionizing electromagnetic fields (nnEMF) from modern devices such as mobile phones, headphones and other wireless technologies can disrupt mitochondrial function.
NnEMFs can interfere with normal electrical and magnetic processes in the body, leading to a weakening of mitochondrial health. Impaired mitochondrial function in auditory cells can lead to ROS accumulation, causing damage to inner ear structures and potentially triggering tinnitus symptoms.
Lighting environment and its influence
Dr. Kruse emphasizes the importance of the light environment for mitochondrial health. A lack of natural sunlight and an excess of artificial light, especially blue light from LED screens, can further contribute to mitochondrial dysfunction. This light disrupts the body's circadian rhythm and can weaken mitochondrial function, increasing the risk of tinnitus.
Recommendations for reducing the risk of tinnitus
1. Limiting nnEMF exposure: Minimizing the use of nnEMF emitting devices, especially near the head and while sleeping.
2. Increase your exposure to natural light: Spending more time outside during the day can help reset your circadian rhythm and promote mitochondrial health.
3. Use protective measures: Using nnEMF-reducing headphones or turning off wireless functions when not necessary can reduce mitochondrial stress.
Tinnitus can serve as an important signal that we need to reevaluate our daily habits and technological exposures in light of their potential impact on our health at the cellular level.

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