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Methylene blue, a chemical compound called methylthionium chloride, has gained attention in recent years due to its fascinating effects on human health. Although in the past it was mainly used in medicine and research, today it is coming to the fore due to its potential benefits for the brain, memory and energy levels in the body. In this article, we will explore what methylene blue is, its history, what it is used for and its health benefits for humans. In addition, we will present the opinions of experts who have confirmed its positive effect.
Methylene blue, chemically known as methylthionium chloride, is a compound that was first synthesized in 1876. This substance is considered an organic chemical with a wide range of uses, both in medicine and in scientific research. It is characterized by its dark blue color and is water-soluble, which allows for easy application in various forms.
MB is one of the first synthetic drugs approved for the treatment of diseases, including malaria and some bacterial infections. Methylene blue works at the cellular level, where it interferes with energy production processes, making it useful for a variety of medical applications, particularly in neurology and the treatment of oxidative stress. (1,2)
Methylene blue was first synthesized in 1876 by German chemist Heinrich Caro. It was originally developed as a dye for the textile industry, but soon after it began to be studied for its medicinal properties. One of MB's first medical discoveries was its ability to treat malaria, making it one of the first synthetic drugs used to treat the disease.
In the 20th century, MB was used primarily as an antiseptic and to treat methemoglobinemia, a condition in which the blood pigment hemoglobin loses its ability to transport oxygen. MB has also proven effective in medical research, where it has been used to stain samples and examine tissue.
In recent decades, there has been renewed interest in MB due to its effects on mitochondria, the cellular structures responsible for energy production in the body. Research has shown that MB can increase energy production in cells and counteract oxidative stress, making it interesting for modern medicine and neuroscience. (3)
Methylene blue has a wide range of uses, from traditional medical applications to neurological research and biohacking. Below are the main areas in which it is used:
MB is most commonly used to treat methemoglobinemia, a condition in which the hemoglobin in the blood loses its ability to transport oxygen effectively. MB acts as an antidote that can restore the normal function of hemoglobin, thus ensuring proper oxygenation of the organism.
Methylene blue acts as a powerful antioxidant, meaning it neutralizes free radicals that damage cells and cause oxidative stress. This mechanism helps protect the body from premature aging and inflammatory processes that contribute to the development of chronic diseases.
MB is being studied for its potential neuroprotective effects. It improves energy production in the mitochondria, which can lead to increased mental acuity, improved memory, and improved concentration. People who use MB often report increased ability to concentrate and cognitive performance.
Methylene blue increases the production of neurotransmitters such as dopamine and serotonin, which are key substances for regulating mood and feelings of happiness. This effect can help relieve anxiety and depression.
Due to its ability to support mitochondrial function, MB has become a popular tool in biohacking. People who want to increase their physical and mental performance use it to generate sustained energy without major fluctuations. (4,5,6)
One of the experts who has studied the effect of methylene blue on human health is Dr. Francisco Gonzalez-Lima, a professor at the University of Texas at Austin. Dr. Gonzalez-Lima is a renowned neuroscientist who has researched the effects of MB on cognitive function and neuroprotection. In one of his studies, he found that MB can improve memory and protect the brain from damage caused by oxidative stress. His research suggests that MB has significant potential as a therapeutic agent in the treatment of neurodegenerative diseases such as Alzheimer's disease.
According to his conclusions, MB can act as "molecular oxygen" for mitochondria, which improves metabolism and promotes cellular health. Dr. Gonzalez-Lima also emphasizes that MB has great potential for improving memory function and protecting the brain from neurotoxicity. (7)
Methylene blue is a fascinating substance with many potential benefits for human health. From improving memory and concentration to protecting cells from oxidative stress and improving mood, MB offers a variety of benefits that can help people of all ages.
You can buy USP grade methylene blue made in Germany from us.
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Resources:
1/ Methylene Blue. (2024, October 23). PubChem. https://pubchem.ncbi.nlm.nih.gov/compound/Methylene-Blue (1)
2/ Contributors to Wikimedia projects. (2024, October 22). Methylene blue - Wikipedia. Wikipedia, the free encyclopedia. https://en.wikipedia.org/wiki/Methylene_blue (2)
3/ Ti4(embonate)6 cage ligand strategy for constructing metal-organic frameworks with high stability and gas sorption properties - PubMed. (2024, October 20). PubMed. https://pubmed.ncbi.nlm.nih.gov/31916750/ (3)
4/ Temporal feature extraction and cluster analysis of electromyographic linear envelopes in gait studies – PubMed. (2024, October 23). PubMed. https://pubmed.ncbi.nlm.nih.gov/2184121/ (4)
5/ Activation of resident glial cells in response to perispinal inflammation leads to acute changes in nociceptive sensitivity: implications for the genesis of neuropathic pain – PubMed. (2024, October 23). PubMed. https://pubmed.ncbi.nlm.nih.gov/23103436/ (5)
6/ Profile of Francisco Gonzalez-Lima at UT Austin. (2024, October 22). College of Liberal Arts | The University of Texas at Austin. https://liberalarts.utexas.edu/psychology/faculty/fg (6)