Watch a demo video for placement of electrodes
Introduction: In traditional transcranial electrical stimulation of the brain, electrical impulses are passed through the carbon electrodes placed under a head strap over the head on various parts of the brain. The limitation of this method is that very little electricity passes through the 1 CM thick skull bone. Hence the results are limited. To overcome this limitation, I discovered this new modality of brain stimulation which is reported for the first time in the medical literature. In this modality, electrical impulses are passed to the brain via its vessels such as Internal carotid artery, Internal Jugular vein and Vertebral artery and veins.
The internal carotid artery and Internal Jugular veins supply and drain the front and middle part of the brain such as frontal lobes, motor cortex, temporal lobes, basal ganglia etc. the vertebral artery and vein supply and drain the posterior part of the brain such as Cerebellum, medulla and brainstem, upper spinal cord etc.
Indications: Anterior approach with disposable ECG electrodes placed over internal carotid artery and Internal Jugular vein after palpating the carotid artery at the lower part of the neck, just in front of sternocleidomastoid muscle. Diseases such as Alzheimer’s disease, Parkinson’s disease, senile dementia, stroke, Autism, ADHD, Speech disorder are suitable for this approach. The therapy can be used as an alternative to feel good drugs such as Alcohol, Tobacco, and for getting rid of dangerous illegal drug addictions such as Cocaine, LSD, MSMS, Marijuana etc. Posterior approach is suitable for diseases of Cerebellum, parietal lobes and spinal cord disorders.
Following phots show the exact electrode placement
The black circles is the location where electrodes are placed
following photo shows exact location for placement of ECG electrodes on Vertibral arteries
Mechanism of action: The brain produces neurotransmitters such as Dopamine and serotonin, Anandamide, in response to stimulation giving various effects. Micro current therapy has shown that electrical stimulation of tissues at various frequencies have a variety of benefits. At a frequency of 2-10 Hz tissues produce 500 % more ATP molecules giving a boost to cell function. At that frequency, the stem cells are activated and produce various growth factors and cytokines which regenerate the tissues. At a frequency of 150 Hz, tissues produce anti-inflammatory cytokines which reduce inflammation, thus leading to a recovery.
Effects of the therapy: I tried the therapy on myself as a patient zero which had a variety of great benefits. My cognition and short-term memory improved a lot. I experienced bliss and Euphoria due to brain stimulation. My eye sight improved a lot. Due to repetitive stimulation, even at the age of 53, I have 6/6 vision. My Samadhi and meditative experience were dramatically improved. I could get into much deeper states of Samadhi and trance which I never had before.
Side effects: The therapy is extremely safe. Only few side effects were noted such as burning at the electrodes. Rarely you may get nausea and light headache which disappear at their own without any treatment
Frequency and duration: 5 Hz DIY Mode 30-90 minutes once or twice a week
150 Hz DIY Mode 30-90 minutes once or twice a week
You may take 5 Hz and 150 Hz as alternate sessions
You may try 2 Hz for deep sleep, 5 Hz for dreaming and samadhi experience and 10 Hz for focus, 50 Hz for brain synchronisation
Publications:
1.Here is a summary of the 1982 Cheng study’s findings regarding current intensity and ATP:
Inhibitory effect: At current intensities higher than 1,000 µA, ATP production and protein synthesis were inhibited.
Optimal stimulation: Direct currents between 10 and 1,000 microamperes (µA) were shown to increase ATP concentrations in tissue and stimulate protein synthesis.
Stimulation threshold: The most significant boost in ATP production was observed with currents below 500 µA.
https://share.google/mPa4CzRZQ9hPNOKgs
2.A 2022 study published in International Journal of Molecular Sciences found that microcurrent stimulation (at a tested intensity of 50 µA, not a specific frequency) suppressed inflammatory responses in macrophages and reduced skin inflammation in mice with acne. The mechanism involved downregulating the TLR2/NF-κB signaling pathway.
A narrative review published in August 2025 highlights the potential of microcurrent therapy to modulate inflammation across various applications, including wound healing and musculoskeletal injuries. The review notes that more high-quality evidence is needed to fully understand its physiological mechanisms.
Research cited in a 2021 article in Biomedical Science Letters mentions that microcurrents reduce inflammatory cytokines like interleukin-1 (IL-1), interleukin-6 (IL-6), and tumor necrosis factor-alpha (TNF-α) in fibromyalgia patients.
A 2021 systematic review in Archives of Physical Medicine and Rehabilitation noted that microcurrent therapy improved knee pain compared to a sham treatment, with authors explaining that this could be partly due to its anti-inflammatory effects and ability to enhance tissue repair.
A 2024 study in Frontiers in Aging Neuroscience demonstrated that microcurrent therapy reduced neuroinflammation in a mouse model of Alzheimer’s disease. The treatment inhibited inflammatory markers and modulated signaling pathways, suggesting potential benefits for inflammation-related neurological conditions.
Considerations for the 150 Hz frequency
