Gold has always been at the center of luxury and a rich lifestyle. From accessories to food, humans are obsessed with coating everything they own with gold.
Gold is usually extracted from gold mines before it is processed as luxury products. However, do you know our own body contains gold too?
Although iron is the most abundant metal in our body, traces of gold can be found in the human body in several different places.
Studies have confirmed the presence of gold in human blood. This discovery, while not entirely new, has shed light on the potential implications of this precious metal in our bodies and its effects on human health.
Scientists at the Institute of Hematological Innovations, say that there have always been trace amounts of gold in the human body, but the recent study has provided a more comprehensive understanding of its presence in blood specifically.
The study, published in the Journal of Precious Metals in Medicine, analyzed blood samples from over 5,000 participants across diverse demographics. Results showed that on average, human blood contains approximately 0.2 milligrams of gold per liter, though this amount can vary based on factors such as diet, environment, and genetic predisposition.
While iron remains the most abundant metal in our blood, responsible for oxygen transportation, the presence of gold has intrigued scientists for its potential biological roles.
Scientists say that gold, being an excellent conductor of electricity, may play a subtle yet crucial role in transmitting electrical signals throughout our body.
This finding aligns with previous research from the University of Zurich, which suggested that gold nanoparticles could enhance electrical signaling between nerve cells.
Researchers work on gold nanoparticles in neural networks provides a fascinating context for this new discovery in blood. It opens up new avenues for understanding how trace amounts of gold might influence our nervous system.
According to the National Library of Medicine, while gold is not considered an essential nutrient, its presence in the human body, including blood, suggests it may have subtle physiological roles that we’re only beginning to understand.
Interestingly, the study also found correlations between blood gold levels and joint health. Participants with slightly higher levels of gold in their blood reported fewer incidents of joint pain and inflammation. This finding supports earlier research on gold-based treatments for rheumatoid arthritis, a practice known as chrysotherapy.
While these results are promising, researchers warn that it’s crucial to note that more gold doesn’t necessarily mean better health. Like many elements in our body, it’s about balance.
Indeed, the study also highlighted potential risks associated with excessive gold in the bloodstream. Participants with significantly higher levels of gold showed symptoms of toxicity, including kidney and liver problems. The discovery has sparked interest in medical schools across the globe.
At Johns Hopkins School of Medicine, a new research initiative is underway to explore the potential diagnostic value of blood gold levels. Scientists are also investigating whether blood gold levels could serve as a biomarker for certain conditions, particularly those related to joint health and neurological function.
While the presence of gold in blood is now confirmed, it’s essential to understand it in the context of overall blood composition.
Human blood is a complex mixture containing: Red blood cells which carry oxygen throughout the body, white blood cells are part of the immune system, platelets which are essential for blood clotting and plasma, the liquid component of blood, containing water, proteins, and various minerals.