Disclaimer: It is important to speak with a healthcare provider before considering any type of treatment.
Medical devices that use electromagnetic fields have a wide range of potential benefits for patients. Here are some potential benefits of medical devices using electromagnetic fields:
- Pain relief: Electromagnetic fields can be used to relieve pain and reduce inflammation in the body, which can be helpful for patients with chronic pain or acute injuries.
- Faster healing: Electromagnetic fields can help to stimulate cellular growth and repair, which can accelerate the healing process.
- Improved bone health: Electromagnetic fields can stimulate bone growth and improve bone density, which can be beneficial for patients with osteoporosis or other bone disorders.
- Enhanced nerve function: Electromagnetic fields can help to stimulate nerve function and promote overall nerve health, which can be helpful for patients with nerve-related conditions.
- Reduced muscle spasms: Electromagnetic fields can help to reduce muscle spasms and improve overall muscle function, which can be helpful for patients with muscle-related conditions such as spasms or cramps.
- Improved circulation: Electromagnetic fields can help to improve circulation and promote overall cardiovascular health.
- Reduced anxiety and depression: Electromagnetic fields can help to stimulate the production of neurotransmitters in the brain, which can help to reduce anxiety and depression.
- Non-invasive treatment: Electromagnetic field therapy is non-invasive, which means that it does not require surgery or other invasive procedures.
- Fewer side effects: Electromagnetic field therapy is generally well-tolerated by patients and has fewer side effects than many other forms of medical treatment.
It’s important to note that the use of electromagnetic fields in medical devices is still a relatively new area of research, and more studies are needed to fully understand its potential benefits and limitations. As with any medical treatment, it’s important to consult a licensed healthcare provider before trying any new form of therapy or treatment.
How to use Physics in Healing the Body?
There are several ways in which physics can be used in the field of medicine and healing the body. For example, medical imaging techniques such as X-rays, MRI, and CT scans use principles of physics to create detailed images of the inside of the body. These images can be used by healthcare providers to diagnose and treat various medical conditions. In addition, certain types of physical therapy and rehabilitation use principles of physics to help individuals improve their strength, mobility, and overall health. For example, exercises that involve resistance or weight-bearing activities can help to improve bone density and muscle strength. Additionally, some types of frequency therapy, such as pulsed electromagnetic field therapy and ion cyclotron resonance therapy, use principles of physics to stimulate the body’s natural healing processes. Overall, physics plays an important role in many aspects of medicine and healing the body.
How can low Frequency medical devices be used for Health Benefits?
Frequencies, or the number of oscillations or vibrations per unit of time, can be used in various ways to promote health and well-being. Certain types of frequency therapy, such as pulsed electromagnetic field therapy and ion cyclotron resonance therapy, use electromagnetic fields to stimulate the body’s natural healing processes. These therapies work increasing blood flow, reducing inflammation, and promoting the release of natural healing chemicals in the body. In addition, certain sound frequencies, such as those used in music therapy and sound baths, are believed to have a calming effect on the mind and body, and may help to reduce stress and improve overall well-being.
Can you explain the phenomena of Ion Cyclotron Resonance (ICR)?
Ion cyclotron resonance is a phenomenon that occurs when charged particles, such as ions, move in a circular motion under the influence of a magnetic field. When the frequency of the magnetic field matches the natural frequency of the ions, the ions can resonate, or vibrate, at a much higher amplitude than they would otherwise. This can result in the production of electromagnetic waves which can be used for various purposes, such as radio communication and medical treatment. In medical treatment, ion cyclotron resonance is sometimes used as a complementary or alternative therapy for various health conditions.
How does Ion Cyclotron Resonance (ICR) work on a cellular level?
ICR works on the cell membrane channels called Intermediate-Conductance Calcium-Activated Potassium Channels. They are a type of protein channel that is present on the surface of many types of human cells, including immune cells, muscle cells, and nerve cells. These channels play a crucial role in regulating the flow of ions, such as calcium and potassium, into and out of cells.
When ICR channels are activated, they allow potassium ions to flow out of cells, which can have a number of effects on cell function. For example, in immune cells, the activation of ICR channels can lead to the release of chemical signals that help to recruit other immune cells to sites of infection or inflammation. In muscle cells, the activation of ICR channels can lead to relaxation of the muscles.
Additionally, research has suggested that the activation of ICR channels may have potential therapeutic benefits in a number of different health conditions, such as inflammatory issues, oncology support and cardiovascular disease. There is ongoing research within the field of ICR and PEMF to fully understand the role of ICR channels in human cells and how they can be targeted for therapeutic purposes and the variety applications of this therapy for health. The specific effects of ICR activation on human cells can vary depending on the type of cell, the context in which the activation occurs, and other factors.
Can you explain the Phase Angle of cells?
The phase angle of cells is a measure of the health and integrity of cells in the body. It is typically determined using bioelectrical impedance analysis (BIA), a method that measures the resistance and reactance of cells membrane and extracellular fluids to an electrical current. The phase angle is calculated using the ratio of reactance to resistance, and it is a reliable indicator of cell health and function. A high phase angle is generally considered to be a good sign, as it indicates that the cells are healthy and functioning properly. A low phase angle, on the other hand, may indicate that the cells are damaged or not functioning properly. The phase angle can be used to assess the overall health of an individual, and it may also be used to monitor the effectiveness of certain treatments, such as nutrition, exercise and integrative therapies.
What is the proper voltage of cells to be healthy?
The proper voltage of cells is not well-defined, as it can vary depending on various factors, such as the type of cell, its location in the body, and its specific function. In general, healthy cells have a resting membrane potential, which is the electrical potential across the cell membrane, of around -70 millivolts (mV). This resting potential is maintained by the balance of ions (charged particles) inside and outside of the cell, and it is important for the proper function of the cell. However, the resting membrane potential can change in response to various stimuli, such as hormones and neurotransmitters, and it is not always an accurate indicator of cell health.
What is the “rouleaux effect”?
The rouleaux effect occurs when red blood cells stack together in a cylindrical shape (like a coin stack), rather than spreading out in a single layer as they normally do. This can make the blood appear thicker and more viscous, affect the cell membrane function including oxygen metabolism, ion exchange, waste product elimination and nutrient uptake and it can impair the flow of blood through the vessels. The rouleaux effect is often associated with medical conditions, such as dehydration, chronic inflammation, and some blood disorders. Exposure to extremely high Radiofrequency (RF) and microwave (MW) radiation fields can also cause the rouleaux effect to appear in the blood.
How does radio frequency and microwave radiation cause the rouleaux effect?
Radiofrequency (RF) and microwave (MW) radiation are electromagnetic radiation in the frequency range ranges 3 kilohertz (kHz) – 300 Megahertz (MHz), and 300 MHz – 300 gigahertz (GHz), respectively. Our 4G telecom system (4G towers and home routers) generally runs off a 2.4GHz and 5GHz frequency, the newer 5G millimeter wave telecom (installed now in many high density population areas) can be implemented in low-band, mid-band or high-band millimeter-wave in the range of 24 GHz up to 54 GHz. RF and MW radiation is used for a variety of purposes, such as cooking food, transmitting information, telecommunication and medical treatment.
RF and MW radiation can affect the heart (rapid or irregular heart rate) and the blood (rouleaux formation blood cell stick together like a stack of coins) depending upon exposure level and duration. It is suspected that impaired permeability and destabilization of the membrane are the reasons behind rouleaux formation.
The link below to the website of Dr Magda Havas provides an abundance of information about the effects of GHz frequencies on our cells.
How do low frequencies help with the rouleaux affect?
Frequency therapy, such as pulsed electromagnetic field therapy and ion cyclotron resonance therapy may be used as a complementary or alternative treatment for the rouleaux effect. These therapies work by increasing blood flow, reducing inflammation, and promoting the release of natural healing chemicals in the body. ICR in particular can cause motility of cells, helping them to separate once again. This can help to improve the flow of blood, which improves overall oxygenation of hemoglobin and thus reduces the rouleaux effect.
Please see some research on this topic below
Can PEMF improve Mobility in Seniors?
PEMF therapy, or pulsed electromagnetic field therapy, is a type of treatment that uses electromagnetic fields to improve blood flow, reduce inflammation, and promote healing in the body. It is often used to help improve mobility and relieve pain in seniors and other individuals who have chronic health conditions. PEMF therapy can be administered through the use of special devices that deliver electromagnetic pulses to the affected area, and it is typically performed by a healthcare provider in a clinical setting but also is used in homes throughout the world. Seqex device’s chief medical advisor in Italy Dr Alessandro Greco is a primary care physician in long term care centres and has conducted research with Seqex and seniors for decades.
How can you use frequencies to improve mental health?
There are several ways in which frequencies can be used to improve mental health. Pulsed electromagnetic field therapy and ion cyclotron resonance therapy, work on the level on the cellular membrane and its activities. This can help with intercellular communication, a key part of hormone and neurotransmitter regulation. Seqex also decrease inflammation (including that of the brain and nervous system) and induces a muscle relaxant effect, both important for lowering stress and anxiety, thus improving mood. In addition, certain frequencies (just like those used in music therapy and sound baths) are believed to have a calming effect on the mind and body, and may help to reduce stress and improve overall well-being. The frequencies of Seqex are between 1Hz-100Hz and are therefore just below the range of sound, but can work in similar ways. There are 5 brainwave programs with Seqex devices: Delta, Theta, Alpha, Beta and Gamma. These programs can be used to help shift the brain into whichever dominant brainwave state one desires.
See below a link to the most recent research about Seqex and depression
How can PEMF therapy help with depression, anxiety and PTSD?
Research on the use of PEMF therapy for mental health conditions such as depression, anxiety, and PTSD, has suggested that it may have a positive effect on these conditions. It can help shift the brain into specific desired brainwave states and increase endorphin production. PEMF therapy may help to improve mood, sleep quality, reduce anxiety and stress, and improve overall mental well-being.
How can PEMF therapy help athletes?
In athletes, PEMF therapy may be used to help improve performance and speed up recovery from injuries. PEMF therapy can increase blood flow to the muscles, which can help to improve muscle strength and endurance. It may also help to reduce muscle soreness and fatigue, allowing athletes to recover more quickly from their workouts. Seqex PEMF/ICR devices have programs specifically designed aid in muscle tissue recovery and healing of bone acute and chronic muscle and tendon tissue.
How can you use light to heal the body?
Light therapy is a type of treatment that uses specific wavelengths of light to stimulate the body’s natural healing processes. It is often used to treat a variety of medical conditions, including skin disorders, seasonal affective disorder (SAD), and certain types of pain. There are several different types of light therapy, including red and near-infrared (NIR) light therapy, blue light therapy, and photodynamic therapy. These treatments work by increasing blood flow, reducing inflammation, and promoting the release of natural healing chemicals in the body.
How does Near Infrared Light Therapy work?
Near infrared (NIR) light therapy is a type of light therapy that uses a certain segment of the spectrum of light to promote healing and relieve pain. The spectrum of light between 600 – 1200 nanometers can penetrate deeper than the skin and stimulate the cells and tissues underneath, acting mostly on the mitochondria. By increasing mitochondrial activity it can promote the production of collagen and elastin in the skin itself and will also increase tissue regeneration in soft tissue below improving wound healing. NIR Light therapy also induces the production of nitric oxide in the blood which help improve blood flow through vasodialation, reduces inflammation, and relieves pain.
How does photo bio modulation NIR light work on health and beauty?
Photobiomodulation, also known as near-infrared (NIR) light therapy, is often used to improve skin health and appearance, by increasing blood flow to the treated area and reducing inflammation. Nitric oxide production in the blood is stimulated which is a natural vasodilator. This can help to improve the overall tone and texture of the skin, and may also help to reduce the appearance of wrinkles and fine lines. The photons delivered by Plasma NIR lights act directly on the mitochondria of cells, which for the skin cells mean increased collagen and elastin production. Lymphatic drainage, reduced inflammation, enhanced cell proliferation and ATP production are a few of the benefits of this complimentary therapy via the mechanism of mitochondrial activation. This enhanced production of collagen, fibrin and elastin offers a non-invasive, skin rejuvenation therapy which has been demonstrated to:
- Reduce fine lines, age spots and diminish freckles.
- Anti-aging effects for vibrant, younger-looking skin.
- Smooth faces, hips, thighs, buttocks and upper body
- Increased metabolism intensifies lymphatic drainage, reducing fat cell size while producing collagen
- Build-up lost collagen due to aging and reduce cellulite.
- The light spectrum of NIR photobiomodulation can reach a dermal depth of up to 3 inches in soft tissue, energizing the targeted tissue and aiding in cellular recovery.
How does plasma light using NIR work for cellulite and fat cells?
The exact mechanism by which NIR light therapy may reduce cellulite and fat cells is not fully understood, but it is thought to work by increasing blood flow to the treated area, increasing nitric oxide production in the blood, engaging the lymphatic system and reducing inflammation. This can help to improve the overall tone and texture of the skin, and may also help to reduce the appearance of cellulite and fat cells.
How can you use photo bio modulation for diabetic ulcers?
Photo bio modulation, also known as near-infrared (NIR) light therapy, is sometimes used to treat diabetic ulcers, which are wounds that do not heal properly in people with diabetes. The mechanism by which NIR light therapy may help with diabetic ulcers is by increasing blood flow to the wound for healing, reducing inflammation and stimulation of mitochondrial activity in the local area of application to speed up tissue regeneration. This can help to promote healing and improve the overall appearance of the wound. People with Diabetes often have compromised microcirculation, NIR can help address this.
How can you use light to make you look younger and increase hair growth?
There are several ways in which light can be used to improve the appearance of the skin and increase hair growth. Red and near-infrared (NIR) light therapy are often used to improve skin health and appearance. These treatments work by increasing blood flow and oxygenation to the skin, reducing inflammation, and promoting the release of natural healing chemicals in the body. This can help to improve the overall tone and texture of the skin, and may also help to reduce the appearance of wrinkles and fine lines. The photons delivered by Plasma NIR lights act directly on the mitochondria of cells, which for the skin cells mean increased collagen and elastin production. Both increasing blood flow to the scalp to feed nutrients and oxygen to hair follicles and increased mitochondrial action can promote healthy hair growth.
How can Near Infrared Light work with the mitochondria of the cells?
NIR light is thought to have a positive effect on the mitochondria of cells in the body. The mitochondria are the powerhouses of cells, and they play a crucial role in generating energy for the body. Exposure to NIR light is believed to increase the production of ATP (adenosine triphosphate), the main source of energy for the body’s cells. The photons delivered by Plasma NIR lights act directly on the mitochondria of cells. This can help to improve overall energy levels and support healthy cellular function.
Can you give me an explanation about how Near Infrared light works on Melatonin production?
Near-infrared (NIR) light is a type of light that is invisible to the human eye and has a longer wavelength than visible light. It is sometimes used in light therapy to treat various medical conditions, including seasonal affective disorder (SAD) and pain. Melatonin is a hormone that is naturally produced by the body and helps to regulate sleep and wakefulness. Exposure to NIR light is believed to increase melatonin production, which can help to improve sleep quality and overall well-being.
What is the purpose of melatonin?
Melatonin is a hormone that is naturally produced by the body. It is primarily involved in regulating sleep and wakefulness, and is released by the pineal gland in the brain in response to darkness. Melatonin helps to initiate and maintain sleep, this has been its historically researched purpose as a hormone. New research has started to reveal that melatonin has other important functions in the body, such as regulating the immune system and acting as an antioxidant. Melatonin levels in the body are typically highest at night and lowest during the day, and this natural rhythm can be disrupted by factors such as artificial light, stress, and certain medications.
How does melatonin work on the mitochondria?
Some new research studies have suggested that melatonin may help to protect the mitochondria from damage and improve their overall function. The mitochondria are the powerhouses of cells, and they play a crucial role in generating energy for the body. Melatonin protects mitochondria by scavenging reactive oxygen species (ROS), inhibiting the mitochondrial permeability transition pore, and activating uncoupling proteins. Thus, melatonin maintains the optimal mitochondrial membrane potential and preserves mitochondrial functions.