Understanding PLRT in the Light Of NeuroScience

Understanding PLRT in the Light Of NeuroScience

Neuroscience is the scientific study of the nervous system, including the brain, and it encompasses various aspects of

  1. Brain structure
  2. Function
  3. Behavior

Through advanced technologies like brain imaging, such as functional magnetic resonance imaging (fMRI), neuroscientists can observe brain activity and identify which areas are involved in specific mental processes. They can investigate how information is processed, stored, and retrieved in the brain, shedding light on the mechanisms behind the subconscious mind.

In the context of PLRT, Neuroscience also helps us understand how our experiences, both conscious and unconscious, shape the structure and functioning of our brain. It explores how the brain’s neural networks are formed and modified by our interactions with the environment, including our early childhood experiences and ongoing learning processes.

By integrating findings from neuroscience with psychological theories and research, we gain a deeper understanding of the complex interplay between the conscious and subconscious mind. This interdisciplinary approach which is unique only to Amarantos allows us to unravel the mysteries of human cognition, emotions, and behaviour.


In summary, neuroscience provides valuable insights into how our brain works, including the subconscious mind. It helps us uncover the underlying biological processes that contribute to our thoughts, emotions, and actions, enriching our understanding of human psychology.

Brainwaves

Brainwaves are an important aspect of neuroscience and how the brain functions. Brainwaves are the electrical patterns of activity that occur in the brain, and they can be measured using electroencephalography (EEG) or other similar techniques.


Different types of brainwaves are associated with different mental states and activities. For example, when we are awake and alert, our brain produces beta waves. When we are relaxed or engaged in creative activities, we may experience alpha waves. Theta waves are associated with tiredness, dreaming and delta waves are present during deep meditation or dreamless sleep.


Studying brainwaves helps us understand how different areas of the brain communicate and coordinate their activities. It provides insights into brain functioning and can be used to investigate various aspects of cognition, emotion, and behavior.

At Amarantos we analyze brainwaves to study brain disorders, such as epilepsy or sleep disorders, and to develop interventions like neurofeedback, where individuals learn to self-regulate their brain activity based on real-time feedback. 

Amarantos Brainwave research also contributes to fields like cognitive neuroscience, neuropsychology, and the study of consciousness.

Amarantos® is the first PLR Centre in the world to use EEG (Electro Encephalo Graphy) to measure the impact of PLR and provide the evidence of healing. 

 
EEG Report of before and After PLR Session in Amarantos

EEG Report of before and After PLR Session in Amarantos

In summary, brainwaves are an essential component of neuroscience as they provide information about electrical activity and communication within the brain. They help us understand the brain’s functioning and its relationship to various mental states and behaviors. (We will explore the deepest BrainWave known as the Delta Brainwave and how PLRT is conducted in it in the following chapter.)