Neuro-Sensory Integration Technique (NSIT)

Overview

NSIT is a specialized chiropractic technique designed and created by Dr. Moran to optimize neuro-sensory integration by stimulating key points on the nuchal ridge, occipital base, suboccipital base, cranium and the roof of the mouth. This technique aims to promote brain function, sensory processing, and overall neurological health.

Benefits

  • Enhances neuro-sensory integration and brain function.
  • Optimizes visual processing and perception.
  • Supports motor coordination, balance, and posture.
  • Facilitates sensory integration and neural connectivity.
  • Promotes overall neurological health and well-being.

NSIT represents a holistic approach to chiropractic care, focusing on the intricate connection between the spine, nervous system, and brain function. By incorporating targeted touch and stimulation techniques, NSIT aims to harmonize neuro-sensory pathways, fostering optimal neurological function and well-being.


1. Nuchal Ridge
Trigeminal Nerve (CN V):
The nuchal ridge area is innervated by branches of the trigeminal nerve. Stimulation here can activate sensory pathways related to touch and pressure, with signals transmitted through the trigeminal nerve to the brainstem.

2. Occipital Base
Occipital Cortex:
Direct stimulation of the occipital base area can activate the occipital cortex, which is primarily responsible for processing visual information. This region plays a key role in visual perception and processing.

3. Suboccipital Base
Brainstem:
The suboccipital base region is in close proximity to the brainstem.
Stimulation here can influence areas of the brainstem involved in sensory processing, motor control, and autonomic functions.
Cerebellum: The cerebellum is located near the suboccipital region and plays a crucial role in motor coordination, balance, and posture. Stimulation in this area can affect cerebellar function.

4. Trigeminal Nerve and Autonomic Responses
Stimulation of these areas can also impact the trigeminal nerve, which is involved in various sensory functions in the face and head, including touch, temperature, and pain sensations.

Additionally, stimulation in the suboccipital region can influence autonomic responses, such as changes in heart rate, blood pressure, and respiratory rate, due to its connections with the autonomic nervous system. Overall points along the nuchal ridge, occipital base, and suboccipital base can have effects on sensory pathways, visual processing, brainstem functions, cerebellar function, trigeminal nerve activity, and autonomic responses.


Pressing on specific points of the cranium can influence underlying structures in the brain due to the interconnected nature of the skull and the nervous system. Here’s an explanation of how light pressure on certain areas of the head may stimulate different brain regions, what functions they serve, and how the stimulation enhances these functions:

1. Brainstem
Function: The brainstem controls essential functions such as breathing, heart rate, and blood pressure. It also plays a role in regulating the sleep-wake cycle and motor control.
Stimulation: Applying gentle pressure to the base of the skull, particularly around the suboccipital region, can stimulate the brain stem. This pressure may help relax muscles, reduce tension in the nervous system, and support better autonomic function. This can result in improved respiratory and cardiovascular regulation, as well as better stress response.

2. Temporal Lobe
Function: The temporal lobe is responsible for processing auditory information, language comprehension, and aspects of memory.
Stimulation: Gentle pressure around the temples and sides of the head can influence the temporal lobe. Stimulating this area through touch may enhance cognitive function, memory retention, and processing of auditory information by activating the nerve pathways linked to this region. It can also help relieve tension or discomfort related to auditory overstimulation or headaches.

3. Occipital Lobe
Function: The occipital lobe is responsible for processing visual information.
Stimulation: Light pressure on the back of the head near the occipital ridge may stimulate this region, promoting better visual processing and perception. This can help with visual clarity, coordination, and even relieve tension headaches originating from visual stress.

4. Cerebellum
Function: The cerebellum coordinates movement, balance, and posture. It ensures smooth and coordinated voluntary movements.
Stimulation: Applying pressure at the base of the skull near the occipital bone and the upper neck can stimulate the cerebellum. This activation can help enhance motor coordination and balance, improve posture, and reduce muscular tension. The cerebellum’s role in motor control can be positively influenced by improving the body’s proprioceptive awareness (sense of body position in space).

5. Parietal Lobe
Function:
The parietal lobe integrates sensory information such as touch, temperature, and pain. It also plays a role in spatial awareness.
Stimulation: Light pressure on the top and sides of the head, over the parietal bones, can stimulate the parietal lobe. This may enhance sensory processing, improve spatial awareness, and help reduce sensory overload. Stimulation here can also relieve tension headaches and promote better focus and body awareness.

How Light Pressure Brings Energy and Electrons to These Areas

When a chiropractor applies light pressure to specific cranial points, it influences the cranial bones and underlying fascia, affecting the flow of cerebrospinal fluid and the body’s electrical energy. The human body operates through bioelectrical signals, and touch can alter the flow of electrons, helping “wake up” or modulate the activity in targeted areas of the brain.

   Light pressure can stimulate nerve endings and mechanoreceptors in the scalp and cranium, sending signals to deeper parts of the brain through neural pathways. This input encourages better blood flow and nutrient delivery to the region, optimizing the brain’s function. In doing so, it may help balance brain activity and energy, reducing stress and enhancing overall neurological function.

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