Calcium, time, and light: How blue light and Wi-Fi disrupt our cells down to the quantum level

Calcium – an element we commonly associate with strong bones – is actually also gently controlled quantum signal for life itself. Inside our cells, and especially in the mitochondria, intake of Ca²⁺ plays a key role in regulating energy, gene expression, immunity, and cell death. But what if we told you that this process is interrupted by every Wi-Fi connection, with every glance at the phone during the night a with every disruption of sleep?

Calcium as a Quantum Regulator

Calcium does not spread solely by chemical gradient. In the world of quantum biology, it is shown that:

• His transport channels (e.g., VGCCs – voltage-gated calcium channels) are sensitive to electromagnetic fields and spin states.

• Bio-photons and oscillations of microtubules inside cells may influence probability of Ca²⁺ channel opening.

• Ca²⁺ in mitochondria is regulatory molecule of metabolic signaling – and its excess or deficiency leads to oxidative stress or apoptosis.

Scientific breakthrough: intake of Ca²⁺ decreases with age – due to mitochondria

The latest study published in Nature Aging (2024) [DOI: 10.1038/s43587-023-00436-8 (https://www.nature.com/articles/s43587-023-00436-8)] shows that:

• Macrophages in older individuals lose the ability to uptake Ca²⁺ into mitochondria due to reduced expression of MCU (mitochondrial calcium uniporter).

• This leads to chronic inflammation ("inflammaging") and to the activation of NF-κB – the main trigger of inflammatory genes.

• Scientists have shown that restoring the function of these channels revived homeostasis and reduced inflammation.

Circadian Rhythm: The Mysterious Timekeeper Ca²⁺

• Circadian clock (especially in SCN) regulates Ca²⁺ intake cycles through oscillations of VGCC channels, gene expression, and hormone secretion.

• Melatonin, which the circadian clock generates, also regulates Ca²⁺ in mitochondria.

• Sleep disruption → disruption of the Ca²⁺ influx rhythm → energy collapse and inflammation.

Blue Light: The Silent Killer of the Night

• Night exposure to blue light (400–480 nm) suppresses melatonin → deregulation of VGCCs and redox balance.

• Melanopsin cells In the eye, signals about light are sent to the SCN, thereby influencing it Ca²⁺ regulation in all body tissues.

• Result? Chronic calcium deregulation, fatigue syndrome, insomnia, inflammation, neurodegeneration.

nnEMF: Wi-Fi, 5G, and Electromagnetic Stress on the Ca²⁺ System

• Research by Prof. Martin Pall has shown that nnEMF directly activates VGCCs → causes excessive influx of Ca²⁺, which leads to:

• Inflammation

• Increased production of ROS and ONOO⁻ (peroxynitrite)

• Mitoptosis and mitochondrial dysfunction

This effect is non-thermal – does not occur as a result of heating, but quantum spin mechanism activation of Ca²⁺ channels!

Summary: Ca²⁺ as a Quantum Interface Between Health and Disease

• Circadian rhythm = correct timing of Ca²⁺ influx.

• Blue Light at Night = destruction of melatonin and mitochondrial regulation.

• nnEMF = wireless excitotoxicity via calcium channels.

• Aging = loss of Ca²⁺ flow into mitochondria → chronic inflammation.

Recommendations

1. Minimize blue light after sunset – use the red spectrum and blue-blocking glasses.

2. Turn off Wi-Fi during the night, or use EMF shielding.

3. Restore your circadian rhythm – morning light, rhythmic sleep, time spent outdoors.

Sources

• Nature Aging, 2024 – Inflammaging and Ca²⁺ uptake (https://www.nature.com/articles/s43587-023-00436-8)

• Martin Pall, 2018 – VGCCs and EMF exposure

• Hameroff & Penrose, 2014 – Quantum consciousness and microtubules

https://www.nature.com/articles/s43587-023-00436-8