8,700 Studies Reviewed. 87.0% Found Biological Effects. The Evidence is Clear.
Shield Your Body
Brain & Nervous System

Is magnetite a universal memory molecule?

Bioeffects Seen

Authors not listed · 2014

Share:

Magnetite crystals in human brains may store memories, suggesting EMF exposure could disrupt fundamental cognitive processes.

Plain English Summary

Summary written for general audiences

Norwegian researchers propose that magnetite (iron oxide crystals) found naturally in human brains, hearts, livers and spleens may function as a universal memory storage system for all living cells. The hypothesis suggests that because magnetite concentrations are disrupted in Alzheimer's disease and iron imbalances affect memory, these magnetic crystals could be how our bodies store and retrieve information at the quantum level.

Why This Matters

This hypothesis opens a crucial window into understanding how EMF exposure might interfere with our most fundamental biological processes. If magnetite crystals in our brains truly serve as biological memory storage devices, then external magnetic fields from power lines, cell phones, and wireless devices could potentially disrupt these delicate quantum-scale information systems. The science demonstrates that magnetite responds to magnetic fields - that's basic physics. What this means for you is that the magnetic fields generated by everyday technology might be interfering with memory formation and retrieval in ways we're only beginning to understand. The reality is that we're conducting a massive experiment on human cognition without fully grasping how our technology interacts with the magnetic materials naturally present in our bodies.

Exposure Information

Specific exposure levels were not quantified in this study.

Cite This Study
Unknown (2014). Is magnetite a universal memory molecule?.
Show BibTeX
@article{is_magnetite_a_universal_memory_molecule_ce2061,
  author = {Unknown},
  title = {Is magnetite a universal memory molecule?},
  year = {2014},
  doi = {10.1016/j.mehy.2014.08.028},
  
}
DOI: 10.1016/j.mehy.2014.08.028PubMed: 25236401

Quick Questions About This Study

This remains a hypothesis rather than proven fact. While magnetite crystals are found in human brains and disrupted in Alzheimer's disease, direct evidence that they store memories is still lacking. The proposal is based on magnetite's magnetic properties and quantum mechanical possibilities.
Magnetite has been detected in human brains, hearts, livers, and spleens. In the brain specifically, these iron oxide crystals are distributed throughout various regions, though their exact locations and concentrations vary between individuals and can change with age and disease.
External magnetic fields could theoretically alter the magnetic orientation or behavior of magnetite crystals in brain tissue. Since magnetite responds to magnetic forces, EMF exposure from devices or power lines might disrupt any information storage or processing functions these crystals perform.
Studies show altered magnetite levels in Alzheimer's brains, though the exact relationship isn't clear. The disruption could indicate that magnetite plays a role in normal memory function, or it might be a consequence of the disease process affecting iron metabolism.
Magnetite's magnetic properties could theoretically support quantum-scale information storage and processing. The hypothesis suggests that memory's speed and accuracy in biological systems requires quantum mechanics, and magnetite's magnetic domains might provide the necessary quantum substrate for such processes.