Transdermal Glutathione
What is Glutathione?
Glutathione (GSH) is a naturally occurring tri-peptide amino acid that is produced in every cell of our body. Often referred to as the “Master Antioxidant,” GSH recycles all other antioxidants to provide maximum detoxification of, and protection from, free-radical damage.
Glutathione is produced by the liver. It has the job of ridding the body of toxins – making it vitally important to the immune system’s proper functioning and building and repairing tissues.
Glutathione is produced naturally in your body and is involved in just about every function in the body. It repairs and protects the body by boosting existing antioxidants and limiting oxidative stress. It is part of immune system function , tissue building and repair, increases energy, reduces inflammation, and improves brain health.
The Benefits of Glutathione:
Glutathione delivers a multitude of noticeable health benefits by detoxifying free radicals from the body and defending against future oxidative stress:
- Supporting liver health and detoxification.
- Improving athletic performance and speeding up recovery.
- Boosting immune function.
- Increasing energy.
- Improving sleep.
- Reducing toxins.
Our Body's Management of Stress
Our bodies encounter innumerable sources of stress on a daily basis – environmental aggressors like pollution and UV rays, chemicals in food, household and personal care products, physical and emotional challenges, etc. Glutathione is the body’s first line of defense against these stressors, helping to strengthen our ability to ward off the free radical attacks and oxidative damage they cause. Its potent antioxidant power not only helps prevent this damage but also aids in detoxifying the body of existing free radicals, thus improving one’s health in both the short term and the long term.
The Glutathione is inadequate as we age
Unfortunately, by as early as the age of twelve, we stop producing enough Glutathione to sustain adequate levels. Although Glutathione is needed supplementation has in the past been very limited because Glutathione is highly reactive to oxidation, making it difficult to stabilize. The Glutathione tri peptide protein is broken down during delivery, thus greatly reducing potency.
Supplementation by oral products even liposomal provides very limited increases in the body's glutathione levels. Even IV Glutathione has a very short half-life and it breaks down within 1-2 hours.
The Glutaryl Transdermal Glutathione Solution
Before now, it has not been possible to deliver such high doses of Glutathione in a way that was absorbable for maximum benefits. Our Glutaryl antioxidant spray utilizes a transdermal (through the skin) system discovered and developed by pharmacist and Auro founder Dr. Nayan Patel. Powered by sub-nano technology, it delivers Glutathione in a more potent way than ever before.
The Glutaryl spray is unique and superior
Superior to other Glutathione delivery methods in two main ways:
ONE
The innovative and patented design of this technology protects Glutathione from oxidation, maintaining its integrity during delivery to provide maximum potency. Glutathione is typically highly reactive to oxidation, making it difficult to stabilize, but Auro’s Glutaryl technology uniquely solves this challenge with a breakthrough preservation method so that its fullest effects can be achieved.
TWO
The sub-nano format of the system allows for transdermal delivery which means better absorption and efficacy. This method is superior to other ways of obtaining Glutathione (like via ingestible products) because it circumvents the potential for the protein to be broken down during delivery, thus reducing potency.
Antioxidants Journal Article
Glutathione delivers a multitude of noticeable health benefits by detoxifying free radicals from the body and defending against future oxidative stress:
Our Body's Glutathione Challenge
Frequently Asked Questions
What is your return policy?
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What is your Glutaryl?
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What is your Glutathione?
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What is Oxidative Stress?
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What are the ingredients in the products? How are they sourced? What is the quality?
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How do I use Glutaryl and Glutaryl+?
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What is the difference between Glutaryl and Glutaryl+?
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How do I learn more about Glutathione?
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What are the specific benefits of Glutathione?
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If my body produces Glutathione naturally, why do I need Glutaryl?
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Why is Glutaryl better than other Glutathione products?
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Are there any contraindications?
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Should I buy Glutaryl or Glutaryl+?
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The Role of Sleep in Glutathione Production
- Glutathione enzyme activity follows a circadian rhythm. The activities of glutathione peroxidase and glutathione reductase increase during nighttime hours, aligning with melatonin’s natural rise and supporting cellular antioxidant defense during rest.1
- Melatonin promotes glutathione production. Melatonin has been shown to stimulate gamma-glutamylcysteine synthetase, the rate-limiting enzyme in glutathione synthesis, leading to significantly increased glutathione levels in human endothelial cells.2
- Sleep deprivation decreases glutathione levels. Animal studies show that chronic sleep loss results in a significant drop in tissue glutathione levels and related antioxidant enzyme activity. These levels rebound after recovery sleep. 3
- Deep sleep supports detoxification in the brain. During non-REM sleep, the glymphatic system becomes highly active, clearing metabolic waste and reactive oxygen species from the brain, a process in which glutathione plays a crucial role. 4
- Improving sleep may help restore glutathione balance. Strategies such as optimizing circadian rhythm through sleep hygiene and stress reduction may support natural glutathione production and recycling. 1,2
References:
1. Hardeland R, Coto-Montes A, Poeggeler B. Circadian rhythms, oxidative stress, and antioxidative defense mechanisms. Chronobiol Int. 2003;20(6):921-962.
Available at: https://pubmed.ncbi.nlm.nih.gov/14680136/
2. Iwanaga M, Miyazaki S, Taniguchi H, et al. Mechanism of melatonin-induced glutathione synthesis in endothelial cells. Free Radic Biol Med. 1998;24(4):537–543. Available at: https://pubmed.ncbi.nlm.nih.gov/10515588/
3. Everson CA, Laatsch CD, Hogg N. Antioxidant defense responses to sleep loss and sleep recovery. Am J Physiol Regul Integr Comp Physiol. 2005;288(2):R374–R383. Available at: https://pubmed.ncbi.nlm.nih.gov/15472007/
4. Xie L, Kang H, Xu Q, et al. Sleep drives metabolite clearance from the adult brain. Science. 2013;342(6156):373–377. Available at: https://pubmed.ncbi.nlm.nih.gov/24136970/
These statements have not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure or prevent any disease. Information provided by this website, email or this company is not a substitute for individual medical advice.
