Symptoms of Detoxification (The Herxheimer Reaction)


Glutathione is the most powerful detoxification agent produced within the human body. When we supplement with glutathione, we can increase the capacity of our body to eliminate toxins, and this can also influence our body to detoxify itself rapidly.

Rapid detoxification can result in some discomfort, which is experienced through a wide range of bodily reactions. This experience of reactions is collectively known as the Herxheimer Reaction (sometimes called a Herx Reaction, or simply Herx). The reaction is typically short lived, from a few days to at most a few weeks. This reaction includes any circumstance where the volume of toxic material exceeds the capacity of the body to eliminate it.

The primary channel of elimination within our bodies is the lymph system, which connects to every cell, working around to clock to dispose of toxins, waste, dangerous bacteria, viruses, or other microorganisms. It’s components include a vast network of vessels, nodes, and organs that circulate lymphatic fluid. This fluid (often referred to as just “lymph”), has a lot in common with blood. But unlike blood, there is no heart to pump and move the lymph. Instead, the body pressurizes the lymph vessels and pumps the fluid through the movement of muscles and joints.

The lymph system is often referred to as the garbage collector of the human body. When garbage fails to be collected or disposed of properly in society, it creates havoc and interrupts the normal flow of life. The same is true for the body. When our bodies cannot eliminate waste fast enough, the lymph system can get backed up, clogging the vessels and disrupting vital bodily functions. This is what generates the Herxheimer Reaction, and it can be experienced through a broad range of symptoms.

If anyone should experience the symptoms of a Herxheimer reaction, please don’t be alarmed. These reactions are signs that the body is hard at work cleansing itself. Some of the uncomfortable symptoms one may experience are outlined below, but they vary from person to person.

  • Headaches
  • Joint Stiffness
  • Muscle Pain
  • Cramps
  • Fatigue
  • Insomnia
  • Hyperactivity
  • Anxiety
  • Irritability
  • Fever
  • Chills or Hot Flashes
  • Bad Breath
  • Excess Bowel Movements
  • Diarrhea
  • Constipation
  • Rashes
  • Acne
  • Abnormal Heart Rate
  • Change in Blood Pressure
  • Hyperventilation
  • Swollen Glands
  • Flu-like Symptoms

The backup of lymph forces the body to take alternative, less ideal actions to remedy the excess waste. This can be helped greatly by taking proactive measures to improve the flow of lymph and reduce the severity of the reaction.

First, if the lymphatic system is overloaded, one can always reduce the amount of Nano Glutathione you are taking. This will give the body a chance to catch up. When the symptoms subside, it is possible to experiment with increasing the dosage.

Second, the lymphatic system relies upon fluidity to move. The liquid for this fluidity is pulled from the water that we drink and the food that we eat, so it is essential to drink lots of water and eat as much as possible in the way of fresh fruits and vegetables.

Third, the lymphatic system relies upon the motion and activity of the body to circulate and eliminate the waste. Exercise will force the lymph to move, and even moderate movement will help. The ideal exercise to move the lymph is a rebounder, which is similar to a trampoline. This up and down motion opens and closes the lymph nodes, and forces the fluid to move through the vessels. That may not be an option for everybody, so simply walking, running, bike-riding, swimming, or any other form of exercise will help the body out. If none of these options are available, then a massage can also be of great benefit. The majority of the lymphatic vessels are close to the surface of the skin, and the fluid can be moved through manual manipulation. This can even be done to oneself if it is not possible to procure a massage.

Fourth, rest is required. The body is working hard to detoxify itself, and this consumes a lot of energy. Paying close attention to the signals the body sends when it needs to rest is essential, along with trying to avoid stress, and performing any available relaxation techniques.

Herxheimer Reactions are typically short-lived. They can last for up to a few weeks, but they are most often resolved within the span of a few days. If you have any serious concerns about any specific reaction you may have after starting to take this product or any other product, you should consult your primary care physician. The information provided is for educational purposes and not intended to be or replace medical advice from your licensed healthcare professional.

What is Oxidative Stress and What Can You Do to Prevent It?


Growing up, we are taught about the crucial role oxygen plays on earth. The most important thing we learn is that we cannot breathe without it. Oxygen is life, essentially. A bit later on we also learn that it is important for many processes such as burning and growth.

But did you know that the same life-sustaining oxygen also is the fundamental cause of aging? Oxygen causes oxidation when it combines with certain other elements. This same process can be seen outside the body when steel (iron) rusts or a banana turns brown after being unwrapped and exposed to the air.

Within the body, oxidation is known as oxidative stress and it can also lead to adverse health conditions including cancer1, dementia2, heart failure3 and chronic fatigue syndrome4 among others.

How can such an essential and beneficial substance case all this? The answer is in a scientific term known as Oxidative Stress.

Oxidative stress is the result of certain oxygen byproducts gone rogue. You see, oxygen is used in the body for various processes including metabolism and energy synthesis.

In any chemical process, there have to be byproducts. In addition to releasing mostly harmless byproducts, these oxygen-fueled reactions also release ‘incomplete’ atoms and molecules called free radicals. I say incomplete because they have an unpaired electron.

Hence, they are actively seeking for that electron to complete them. This makes them highly reactive and unstable. They are essentially looking for anything they can react with so as to gain the extra electron and achieve stability.

How Free Radicals Affect the Body and the Body’s Response 

In their quest for stability, free radicals may react with parts of body cells including cell membranes, DNA and proteins. This reaction is known as oxidation. It is the same reaction that causes an exposed apple to turn brown or a piece of metal to rust.

By ‘stealing’ an electron from a cell, a free radical causes damage to that cell, causing it to function defectively. If the damage is extensive, the cell dies.

Now imagine many free radicals attacking many cells in the body. They can cause a lot of havoc. But the body is not without defense. It responds by releasing antioxidants. These are compounds that reduce damage to cells by preventing the formation of free radicals or reacting with them before they can cause damage.

Antioxidants neutralize free radicals by donating one of their electrons without themselves getting unstable. Once stabilized, the free radical is no longer a danger to cells.

How Oxidative Stress Occurs

It is not always that there are enough antioxidants to combat and neutralize free radicals. If the free radicals overwhelm available antioxidants, oxidative stress follows.

This is essentially an imbalance between the number of free radicals and the body’s ability to fend them off using antioxidants. In such a case, free radicals are free to continue their rampage of body cells. As they react with cells and take electrons, they rob crucial components from them. Cell function is severely hampered or completely stopped.

Consequences of Oxidative Stress 

When the body is unable to cope with the number of free radicals, it results in health deterioration as cells lose their vitality and some die.

This can damage major organs such as the kidney, heart and lungs5. It can also affect major functions within the body including digestion and immunity6. Here are some of the possible consequences of oxidative stress.

• Kidney disease7 8.

• Auto immune diseases 9 10.

• Heart disease. This leading killer develops after arteries in the heart harden and narrow in a process called atherosclerosis. A reaction between free radicals and bad cholesterol has been linked to this process. It has been discovered that people who have low antioxidant intake tend to be at the highest risk of heart disease11.

• Joint inflammation leading to conditions such as arthritis12.

• Problems with the digestive system resulting in conditions such as inflammatory bowel disorder13 14.

• Cell damage and death in the brain causes a deterioration of brain health and function. This causes Alzheimer’s, Parkinson’s, Huntington’s disease and other forms of dementia. Oxidative stress has been suggested as one of the main contributors to brain aging15.

• Skin damage. Free radicals can also target skin cells. This compromises major skin functions including UV protection. With continued assault from these reactive molecules, the skin shows accelerated signs of aging. In fact, the Free-radical theory of aging suggests that oxidative stress is the main reason why humans grow old16.

• Apart from causing the skin to age, oxidative stress can also lead to other skin conditions including lesions, scarring and overall skin damage17.

• Cancer. For decades, cancer has stumped researchers with a cure still eluding them. In their study of how it comes about, free radicals have been singled out as major suspects17 18 19. Remember cancer is basically caused by malfunctioning cells. Also remember that free radicals damages cells, affecting how they function. You can see how the two connect.

• Lung disorders. Pollutants in the air can increase the amount of free radicals in the lungs, causing oxidative stress as antioxidants are unable to cope. This could lead to various lung diseases including asthma 20 and lung cancer21.

Symptoms of Oxidative Stress 

There are certain symptoms that signal oxidative stress. They include chronic fatigue4, muscle or joint pain22, memory loss1, unusually early signs of aging such as greyed hair and wrinkles23, decreased eye sight24 as the eye lenses are damaged and increased susceptibility to infections as your immune system is compromised.

Dealing With Oxidative Stress 

Combating oxidative stress is all about returning the balance between free radicals and antioxidants. One way to do this is to make sure the body has access to adequate antioxidants. This involves eating a proper diet with plenty of fruits and vegetables, taking supplements and sleeping well.

Dieting and supplements are especially important as they directly increase the number of antioxidants in the body. Some of the best foods include tomatoes, spinach, walnuts, onions and avocados. These foods supply important antioxidants such as glutathione and vitamin C.

As you add more antioxidants, you also need to take action to prevent excessive formation of free radicals. Avoid junk such as fried food and sugary drinks as they increase oxidation. Avoid spending too much time in polluted areas to protect your lungs from free radicals. Also check the sprays and chemicals you use at home. They could be adding free radicals to your body.

Don’t ignore the importance of a good night’s rest. Poor rest causes an uptick in oxidation, meaning more free radicals are produced to cause even more damage.

Additionally, many health professionals recommend optimizing glutathione levels many individuals have found significant personal benefit in doing so. In order to assist your body in maintaining optimal glutathione levels, consider supplementing with Nano Gluathione. Click the link below to receive up to 40% on your first purchase.

The Link Between Oxidative Stress and Heart Disease


Most serious human diseases and perhaps even the process of aging can be credited to oxidative stress1 which research has found to play a definite role in the development of such problems as heart disease and conditions relating to blood pressure2. The oxidative stress occurs largely in mitochondria from free radicals (reactive oxygen and reactive nitrogen species). Oxidative stress manifests through lipid metabolism, apoptosis, and formation of atherosclerosis, thrombosis, plaque rupture, fibrosis, myocardial injury, and failure. Recent and continuing research has generated a keen interest of both scientists and the general public in oxidative stress. This has encouraged the use of antioxidants to prevent development of oxidative stress and thus reduce the risk of heart disease which researchers believe to show much promise3.

Introduction to Oxidative Stress

Oxidative stress is better understood as the imbalance between the production of free radicals and antioxidant defenses. Oxidative stress, therefore, means the reduced ability of the body to eliminate toxins presented by free radicals (reactive oxygen species) and a leading to an inability to repair the damage caused by these free radicals. Long-term oxidative stress culminates in an enhanced formation of free radicals and peroxides. This, in turn, diminishes the effectiveness of the body’s natural antioxidant mechanism which is responsible for protecting the body against these free radicals.

The situation described is that in which the amount of glutathione in the body is diminished such that an imbalance begins to exist between the formation of free radicals and the production of antioxidant defenses. As the body’s ability to clear the toxins presented by free radicals is diminished it progressively becomes unable to repair the damage caused by these free radicals. Free radicals may damage and alter some macromolecules in cells, such as Deoxyribonucleic Acid, Ribonucleic Acid, proteins, and lipids. These alterations may develop even stronger reactive species. The effect of oxidation of DNA could be harmful as it may alter transcription and replication of many pervasive serious illnesses that are to blame for a great degree of human suffering.

As the period which the body experiences oxidative stress continues, the accumulation of these free radicals increases. In the long run, the level of free radicals in the body becomes abnormal hence degrading the self-repair system of antioxidant defense. This imbalance creates an upheaval of the normal conditions within the cells of the body.

What is Glutathione?

Glutathione is widely described as the master antioxidant of the human body. This antioxidant is naturally produced in the whole body and is found within all the cells even though its concentration in various parts of the body may differ. The antioxidant is most present in the liver but is in all other organs of the body such as the heart. It is referred to as the master antioxidant as it plays a major part the body’s defense against toxins. These are the toxins which are presented in the body by reactive oxygen species, otherwise known as free radicals.

Glutathione is the body’s natural way of preventing imbalances in the redox state in the body and is therefore tasked with the responsibility of repairing the damage caused by oxidative stress. Furthermore, glutathione attempts to decrease oxidized forms of other antioxidants like alpha-tocopherol and ascorbate in the cells of the body. Consequently, glutathione serves to reduce oxidative stress4 which according to available research plays a big role in the development of heart disease and complications relating to blood pressure5.

Oxidative Stress and Heart Disease

Free radicals, produced by the process of oxidation, are very unstable and extremely reactive. They are therefore highly toxic for tissues such as the heart. Studies performed on isolated perfused hearts have shown that even short-term attacks by oxygen radicals may cause a decline in high-energy phosphates, diminish contractile function and distort the normal structure. Free radicals may also react with unsaturated lipids and set off the process of peroxidation of lipids in the membranes.

Free radicals may also oxidize sulfhydryl groups in proteins and may also facilitate strand scission in nucleic acids. According to initial vivo studies, heart disease and complications relating to blood pressure are, to a large extent, encouraged by the formation of free radicals stimulated by auto-oxidation of catecholamine. These vivo studies have also documented the part played by free radicals in ischemia. It is these vivo studies that created a foundation for numerous further studies relating to the significance of free radicals and hence oxidative stress in the development of cardiomyopathies and heart disease.

What part does glutathione play?

When the body system is operating normally, approximately 5% of the oxygen absorbed by the cell is taken through univalent reduction (oxidation) which results in the formation of free radicals. However, the levels of free radicals in body tissues are regulated by a mechanism of natural antioxidants and free radical destroyers that are generated endogenously throughout the human body. Such antioxidants include the enzymes superoxide dismutase, glutathione peroxidase, and catalase enzyme. Superoxide dismutase is responsible for catalyzing the dismutation of superoxide anion to hydrogen peroxide, while catalase enzyme and glutathione peroxidase act as catalysts for the reduction of hydrogen peroxide to water. Besides, glutathione peroxidase eliminates other hydroperoxides that are produced through reactions of free radicals.

These natural antioxidants of the human body have been found to adapt according to physiological and pathological conditions, such as age, hypertrophy, and exercise. In pathological or disease conditions, like diabetes, high blood pressure, and heart disease among others, the formation of free radicals can supersede the self-repairing mechanism of antioxidants resulting in a situation referred to as oxidative stress.’ Various scientific and clinical research has shown that long-term oxidative stress and diminished antioxidant effectiveness have detrimental impact on the structure and functioning of the heart. Clinical studies on patients with heart disease have also given credence to the significance of free radicals and hence oxidative stress in the development of heart disease. The benefits of antioxidant therapy, such as with glutathione may also have therapeutic Benefits.

Glutathione has been shown to provide health benefits and be supportive in relation to a large number of conditions. In order to maintain optimal glutathione levels, consider supplementing with Nano Gluathione. Click the link below to receive up to 40% on your first purchase.

Oxidative Stress and Health: Alzheimer’s Disease and Other Brain Conditions


Scientists and the general public have increasingly demonstrated a keen interest in oxidative stress in humans with reliable research linking oxidative stress to a myriad of serious health complications. Such complications are those conditions affecting the brain of which Alzheimer’s is an example. Various research reports have supported this argument with studies highlighting the fact that indeed most patients suffering from Alzheimer’s and other brain conditions are also experiencing long-term oxidative stress1.

Furthermore, molecular biology researchers have put forward that free radicals, which are the primary catalysts of oxidative stress are also involved in the development of Alzheimer’s and other brain conditions. Therefore in as much as the specific cause of Alzheimer’s is yet to be discovered, it is important to strive to reduce oxidative stress as part of treatment for Alzheimer’s and other brain conditions. This new scientific knowledge has led to the increased need for healthier consumption with scientists warning against modern processed foods.

Understanding Alzheimer’s Disease
The most widespread form of dementia, Alzheimer’s is a condition which greatly impairs memory and thinking. The disease is progressive and degrading and occurs in the brain. Dementia is considered a syndrome as it is as a result of a variety of symptoms. These typically include a deterioration of reasoning, communication, memory and judgment, and behavioral and mood changes. Alzheimer’s disease develops slowly, affecting different areas of the brain. As it progresses, different abilities become impaired. Consequently, a person’s behavior and abilities begin to change. The person begins to lose some of his/her abilities.

There exists in every organ of the human body, a natural self-repair system. Alzheimer’s disease and other brain conditions develop when this natural self-repair and self-healing system in the brain becomes overwhelmed. It is this system that is responsible for maintaining the healthy state of the nerve cells. This means that oxidative stress, which is the immediate consequence of such an imbalance, is a major causal factor of Alzheimer’s disease and other brain conditions.

While the symptoms of Alzheimer’s disease develop progressively and may go discovered for a long time, there are a number of factors that if present at the same time may suggest the presence of the disease. These symptoms include language problems, difficulty with abstract reasoning, mood and behavioral changes, diminished judgment, personality adjustments, problems accomplishing well-known tasks, lack of initiative, misplacing items, poor orientation of time or surroundings, and loss of memory resulting in difficulty to undertake daily activities. Each of these symptoms occurring individually or in part, however, does not mean the presence of Alzheimer’s disease. It is important to not assume without testing as these factors may be as a result of other brain conditions.

What is Oxidative Stress?
Oxidative stress describes a situation in which the glutathione levels in the body are reduced such that an imbalance is created between the accumulation of free radicals and the production of antioxidant defenses. Oxidative stress means that the body’s ability to eliminate toxins presented by free radicals is weakened making it incapable of repairing the damage caused by these free radicals. Research has proven that short-term oxidative stress can significantly impact aging through mitohormesis. However, prolonged oxidative stress encourages increased production of these free radicals. Eventually, the accumulated free radicals in the body become too much causing the self-repair system of antioxidant defense to degrade. This causes a distortion in the workings of the cells of the body.

Oxidative Stress and Brain Disease
There exists sufficient scientific evidence of the exposure of Alzheimer’s patients’ brains’ exposure to oxidative stress as the disease progresses. Oxidative stress is presented as a shift in the balance between the body’s antioxidant defense mechanism and the rate of accumulation of free radicals in the body organs such as the brain. These two elements are considered to impact the process of age-associated neuro-degradation majorly and are largely responsible for a decline in those functions of the brain which are related to logic.

The fact that oxidative stress is a part of Alzheimer’s disease is evidenced by high amounts of oxidized proteins, peroxided lipids, and final products of advanced glycation and presence of toxic species. The nuclear and mitochondrial DNA may also be modified. Alzheimer’s and other brain conditions relating to the decline in memory are associated to a weaker system of brain and plasma antioxidants defense.

The oxidative damage suffered by patients of Alzheimer’s disease and other brain conditions is linked to extremely high levels of Amyloid-β and the deposition of neurofibrillary tangles. Available scientific research has shown that bio metals such as zinc, iron and copper which are present in Amyloid-β play a key part in neuro degradation2.

There exists a definite correlation between accumulation of Amyloid-β and oxidative stress. According to scientific evidence, is known to stimulate an increase in the production of reactive oxygen species. Furthermore, Amyloid-β can corrupt mitochondria and this may also further enhance the production of these reactive oxygen species (free radicals). The effects of this increased production and hence abnormal accumulation of free radicals on the brain is manifested through increased lipid peroxidation. As a consequence, the levels of Glutathione and Vitamin E in the body are diminished. Note that glutathione is the body’s primary antioxidant which is produced naturally in all organs including the brain. This evidence was observed through a study of a mouse model whereby a mouse with Alzheimer’s disease was tested. The increased formation of reactive oxygen species has been found to increase dysfunction of mitochondria and this eventually leads to apoptosis3.

The brain generally has high energy output as a result of the activities involved in its functioning. This is associated with a higher production of reactive oxygen species (free radicals) which may subside the ability of the body’s antioxidant mechanism to eliminate the toxins presented by these free radicals. This enhanced accumulation of free radicals and hence oxidative stress is what impairs the cognitive functioning of the brain leading to Alzheimer’s disease and other brain conditions such as front temporal dementia, vascular dementia and dementia with Lewy bodies. In treating Alzheimer’s disease and other brain conditions, it is therefore important to alleviate oxidative stress. However, the genetic factors stimulating oxidative stress are beyond our control. We can seek to consume foods that are considered as more healthy and maintain a generally healthy lifestyle while maintaining optimal levels of glutathione by supplementing with high quality bio-available supplements. In order to maintain optimal glutathione levels, consider supplementing with Nano Gluathione. Click the link below to receive up to 40% on your first purchase.

Autoimmune Conditions: A Closer Look at the Impact of Oxidative Stress on Immunity


Recent research has provided evidence that abnormal accumulation of free radicals or low glutathione increases the risk of developing autoimmune conditions. Prolonged oxidative stress has a significant role in the pathogenesis of autoimmune conditions as it enhances inflammation thereby stimulating apoptotic cell death1 2 3. In this way, oxidative stress diminishes the immunity of the body. DNA damage section of the metabolic profile is usually analyzed to determine any problems associated with free radicals then the most appropriate foods or antioxidants are given to supplement the low glutathione levels in the body.

The American Autoimmune Related Diseases Association (AARDA) says that in America alone, an estimated 50 million people suffer from autoimmune conditions. AARDA also adds that autoimmune conditions are most prevalent in families. Women make up 75% of those affected by these conditions. It is therefore likely that estrogen predisposes some women to autoimmune conditions. However, these diseases are not limited to Americans- African Americans and Hispanics are also more likely to develop an autoimmune condition. While these conditions are largely genetic, the environment also plays a role in their development.

An autoimmune condition arises when the immune system responsible for protecting the body against disease, recognizes healthy cells of the body as alien causing it to attack these healthy cells. This means that patients with autoimmune conditions generally have strange antibodies present in their circulatory system which seek to destroy their own body tissues. Various factors may trigger the immune system to attack healthy cells. These factors are such as the presence of certain bacteria or virus, chemical irritants, drugs and environmental irritants. The types of autoimmune conditions vary and they may affect one or many various types of tissue in the body. Autoimmune conditions may also distort normal growth and functioning of organs.

There exist almost 80 different kinds of autoimmune conditions, most of which present themselves almost similarly posing a great challenge in their diagnosis. Also, a person may suffer from two or more autoimmune conditions at a go. This is because the presence of one autoimmune condition furthers the risk for developing another one at the same time. Generally, people suffering from these conditions experience mild symptoms at some times and serious symptoms at other times. There is no cure for autoimmune conditions, therefore, treatment is mostly focused on alleviating the symptoms. sadly, the condition may finally lead to the death of the victim.

List of Common Autoimmune Conditions

Rheumatoid arthritis- The immune system generates antibodies that attach to the linings of joints. The cells of the immune system then attack the joints. This leads to inflammation, pain, and swelling. The joints may be damaged permanently if rheumatoid arthritis is not treated

Systemic lupus erythematosus (lupus)- People with lupus develop autoimmune antibodies which are able attach to tissues in the entire body. Lupus commonly affects the joints, lungs, blood cells, nerves, and kidneys. Treatment of lupus is administered by reducing immune system function through a daily oral dose of prednisone.

Inflammatory bowel disease – This develops when the immune system attacks the lining of the intestines. It is characterized by bouts of diarrhea, bleeding in the rectum, abdominal pain, sudden bowel movements, and fever.

Celiac sprue disease – The lining of the small intestine is corroded due to a reaction to gluten.

Pernicious anemia – The body becomes unable to absorb vitamin B-12 leading to a decrease in the concentration of red blood cells.

Vitiligo – This is characterized by loss of color pigment leading to white patches on the skin.

Scleroderma – Presents itself through changes in blood vessels, skin, muscles, and internal organs.

Psoriasis – Characterized by redness, and irritation of the skin.

Hashimoto disease – The thyroid gland becomes inflamed causing a reduction in thyroid production

Addison’s disease- insufficient adrenal hormone

Grave’s disease- overactive thyroid gland

Reactive arthritis- inflamed joints, urethra, and eyes and sores on the skin and mucus membranes

Sjogren’s syndrome – the eyes and mouth become dry. It may affect kidneys and lungs. This is due to the destruction of tear and salivary glands.

How are autoimmune conditions diagnosed?

There are various tests that may be carried out on a patient to diagnose the specific autoimmune condition they have developed. Among them are the following:

Autoantibody tests: these tests look for antibodies that the body has created against its own tissues.

Complete blood count: this test determines the quantity of white and red blood cells. The quantity of white and red blood cells is expected to deviate from the norm when the immune system is actively attacking something.

Antinuclear antibody tests: this test looks for the antibodies that attack the nuclei of body cells.

C-reactive protein (CRP): elevated CRP demonstrates inflammation in the entire body.

Erythrocyte sedimentation rate: this test determines the amount of inflammation present in the body.

Oxidative Stress and Autoimmune Conditions

Oxidative stress is known to be a condition in which there is an imbalance between the accumulation of free radicals and antioxidant defenses which suggest low glutathione. Oxidative stress reduces the ability of the body to clear toxins. Excessive oxidative stress results in the continued formation of free radicals and peroxides. These lead to low glutathione levels in the body making the body‚ immunity to weaken. This means that glutathione in the body is low such that the balance between the accumulation of toxins and the ability of the body to fight these toxins is lost. Eventually, the body becomes unable to defend itself against foreign micro-organisms.

Some macromolecules in cells may become damaged such as Deoxyribonucleic Acid, Ribonucleic Acid, proteins, and lipids. As the body continues to experience oxidative stress, the accumulation of these free radicals increases and the level of glutathione reduces. In the long term, the number of free radicals in the body becomes abnormally high hence degrading the self-repair system of the body‚ immune system. This distortion in the normal balance creates a confusion within the cellular structures of the body.

Low glutathione and general antioxidant activity along with oxidative stress are thought to contribute to inflammation, causing apoptotic cell death, and breaking down the immunological tolerance which in turn seems to be a major factor in causing autoimmune conditions4.

In order to reduce oxidative stress, you may find it beneficial to optimize glutathione levels by minimizing free radical production with healthy diet and lifestyle while supplementing with high quality bioavailable supplements. We hope you will consider supplementing with Nano Glutathione. Click the link below to receive up to 40% on your first purchase.