Consciousness, Thinking BIG, and Anxiety at the Cellular Level

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The Science of Consciousness

Leonard Lado MD, ABPN, RPh - President & Medical Director at Lado Healing Institute , American Board of Neurology & Psychiatry

In 2001, Dr. William Tiller published Conscious Acts of Creation: The Emergence of a New Physics, a work that explored the fascinating intersection of human consciousness and quantum physics. Much like Nikola Tesla revolutionized our understanding of electromagnetism, Tiller emerged as a trailblazer in brain sciences, proposing that human intention has measurable effects on physical reality. His theory, which integrates quantum physics with the subtle energies of consciousness, pushes the boundaries of traditional neuroscience and offers profound implications for future research.

Key Findings and Experiments

Dr. Tiller’s groundbreaking work centers on the idea that human consciousness is not just an observer in the universe but an active participant, capable of influencing material systems. His hypothesis was put to the test through several experiments, each designed to demonstrate that intention, when focused and amplified, can affect the physical world.

      1.    Altering the pH Level of Water

Dr. Tiller’s first major experiment involved shifting the pH levels of purified water without the use of chemicals—solely through focused human intention. By using an intention-imprinted electronic device (IIED), which stored and amplified intention, his team successfully demonstrated that the pH could be raised or lowered simply through thought. This finding suggests that human consciousness, through intention, can influence physical properties once believed to be immutable.

      2.    Enhancing Seed Growth

The second experiment tested whether intention could accelerate biological processes. By imprinting intention to enhance growth into the IIED and exposing seeds to it, Dr. Tiller’s team observed significant acceleration in seed germination and growth compared to a control group. This implies that intention may interact with biological systems in ways that could revolutionize our understanding of plant biology and life processes.

      3.    Increasing Enzyme Activity

In the third experiment, the team explored how human intention could impact biochemical processes. They found that an enzyme, alkaline phosphatase, had its activity increased significantly when exposed to intention stored in the IIED. This remarkable result demonstrates the possibility that consciousness could influence microscopic, biochemical pathways, with far-reaching implications for health, medicine, and molecular biology.

The Implications of Tiller’s Findings

Dr. Tiller’s work is ahead of its time, merging principles from quantum physics with human consciousness. If consciousness is indeed a force capable of interacting with physical systems, this discovery could upend much of what we know about neuroscience, physics, and the nature of reality itself. The implications are vast:

      •     Health and Medicine: If intention can influence enzyme activity and biological growth, new non-invasive treatment options could be developed for a range of diseases, including neurodegenerative disorders, cancer, and chronic illness.

      •     Psychological and Cognitive Science: These findings suggest a new frontier in mental health and cognitive science, where the mind’s power to heal and alter physical conditions could be harnessed.

      •     Quantum Neuroscience: Tiller’s work invites us to rethink the brain’s connection to consciousness and explore the potential of subtle energy fields to explain aspects of cognition and neuroplasticity that current models cannot.

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Why Our Brains Resist Big Goals (and How to Outsmart it)

Lou Lomas — life coach, mindset hacker & author of Reboot & Rise & The Bad Habit Kicker

You know that gut-wrenching feeling when you’re about to tackle something new, only to freeze up like a deer in headlights? You’re ready, maybe even excited, but suddenly it’s as if there’s an invisible wall in front of you. One part of you is fired up, dreaming big, and ready to push past your comfort zone, but the other part has apparently decided it’d rather just stay put, thank you very much.

Sound familiar? Why does this happen?

To begin with, our brains are largely unchanged since prehistoric times.This matters because our ancestors were the people who were the most anxious, fearful and risk averse. They were the ones who survived to pass their genes on to the next generation, while their more relaxed pals met an early end. That risk aversion has been bred into the human race, one generation at a time. We’re wired to look on the negative side of things. But we don’t live in the same kind of world that our cave-dwelling progenitors did.

In the 21st Century, the things that scare us are rarely life-threatening. It could be a critical comment from the boss, a harsh reply to a social media post, that can send us into a tailspin. Perhaps it’s the thought of making our creative work visible that sends us into paralysis, for fear of judgement. Knowledge is power - Francis Bacon If you can recognise that this push-pull is totally normal—that it’s just your brain trying to keep you safe—you’re halfway there. And it’s freeing to know that you’re not “stuck” or incapable. You're just human! So instead of letting the fear steer the ship, give yourself a break, work with your brain’s wiring, and try again.

If this idea of finding ways to work around resistance resonates with you, subscribe to Reboot & Rise for more hacks to rewire that mindset and get past the walls holding you back.

Unlocking Anxiety at the Cellular Level

Nicolas Hubacz, M.S. - Business Development Manager at Magstim and Founder of NH Sponsorships

Researchers have identified specific cell types in the amygdala linked to anxiety, offering a new perspective on targeted treatments. By examining gene expression in human and macaque brains, they discovered clusters of cells with specialized roles, including FOXP2-expressing “gatekeeper” cells that control the flow of emotional signals, a critical function in regulating responses to stress and anxiety.

Key Facts ⬇️

1️⃣ Newly Identified Amygdala Cell Types: The discovery of these unique cells in the amygdala could pave the way for treatments specifically targeting anxiety disorders.

2️⃣ FOXP2-Expressing “Gatekeeper” Cells: These cells help regulate emotional responses by controlling signal flow in the brain, making them promising targets for future therapies.

3️⃣ Cross-Species Discovery: Findings from both human and macaque studies bridge the gap between rodent research and human applications, enhancing our ability to translate these insights into clinical treatments.

Implications for Mental Health 🙂

This research highlights the importance of understanding brain cell-specific functions to tackle mental health disorders more effectively. Targeting these critical cell types may lead to a new generation of anxiety treatments, moving from broad approaches to precise, cell-focused interventions.

Credit to the team University of California, Davis for the great work!

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