Veteran’s Special

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In honor of all our Veteran’s, their hard work and devotion to our country, I’m offering a discount on brain training services.  Suffering from head trauma?  PTSD?  Headaches or nightmares?  Sleep or temper problems?  Neurofeedback is an evidence-based practice that heals the problem from the inside out.  Get your life back on track.

Click on the “Schedule Now” button.  Schedule a series of 10 sessions of Neurofeedback and you’ll get a big discount.  I’ll work with you to make this affordable and give you a fast track to feeling better.  Looking forward being part of your healing team.

The Brain Lady,

Pam

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Parietal lobes

Parietal lobe.jpgCan you read and write? Do math? Put on your shoes? Read a map? Apply lipstick or know when someone is unhappy? Catch a ball?

If so, thank your Parietal lobes!!!

  • The parietal lobe is complex in that there is a dominant hemisphere and a non-dominant hemisphere. The parietal lobe controls abilities such as math calculation, writing, left-right orientation, and finger recognition. Lesions in part of the parietal lobe can cause deficits in writing, arithmetic calculation, left-right disorientation, and finger-naming (Gerstmann syndrome).
  • The nondominant parietal lobe controls the opposite side of the body enabling you to be aware of environmental space, and is important for abilities such as drawing, being aware of expression, body language and facial recognition. If you can recognize feelings on someone’s face, be grateful to your parietal lobe near the temporal lobe. .An acute injury to the nondominant parietal lobe may cause neglect of the contralateral side (usually the left), resulting in decreased awareness of that part of the body, its environment, and any associated injury to that side (anosognosia). For example, patients with large right parietal lesions may deny the existence of left-sided paralysis. Patients with smaller lesions may lose the ability to do learned motor tasks (eg, dressing, other well-learned activities)—a spatial-manual deficit called apraxia.

Parietal lobe functions include:

  • Cognition
  • Information Processing
  • Touch Sensation (Pain, Temperature, etc.)
  • Understanding Spatial Orientation
  • Movement Coordination
  • Speech
  • Visual Perception
  • Reading and Writing
  • Mathematical Computation

Training with Neurofeedback can assist the brain in making new pathways and support the brain in rewiring itself. Schedule your free demo today to learn more about how Neurofeedback can bring you to a higher state of awareness and function. For the first time in history, we can see our own brains at work and assist its functioning to a higher state of optimization.

I look forward to working with you!

Role of your Temporal Lobes

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Clients often ask  me for more detailed descriptions of the lobes of the brain and their functions. For the next few Monday posts I’ll detail the different segments.

The temporal lobe is one of the four sections, or lobes, that make up the cerebral cortex of the brain. Located on the lower regions of both the left and right sides of the cortex (above and around the ears) , the temporal lobe is essential in processing sensory stimuli received from both the eyes and ears. It assists in coordinating speech and spatial navigation and contains the brain structures responsible for long-term memory. This is why when someone has a stroke over their left ear they often lose the power of language expression. Or a bonk to that area might have affected your memory or language processing.

Auditory Processing

  • The temporal lobe contains a section of the brain known as the primary auditory cortex. This region of the cortex is responsible for receiving and interpreting the information transmitted to it by auditory receptors (your hearing) . This part of the temporal lobe assists the brain in determining the location of a sound. While parts of other lobes in the brain play a role in auditory processing, the temporal lobe is the most important.

Speech

  • The temporal lobe located on the left side of the cerebral cortex is essential for speech. This left temporal lobe contains Wernicke’s area, a portion of the brain that is largely responsible for controlling the mental processing needed for speech, including comprehension and verbal memory.

Visual processing

  • The lowest portions of the temporal lobe are responsible for processing and interpreting information from the visual system, especially the most advanced types of visual memory. This portion of the temporal lobe contains the neural networks required for an individual to perceive and remember objects, faces and detailed settings and scenery.

Memory

  • The hippocampus is located in the temporal lobe; this structure is one of the most crucial parts of the cortex involved in long-term memory retention. The hippocampus is found not on the outer region of the cerebrum but within the actual lobe, and it allows an individual to retain new memories while storing older ones. These memories can be anything from facts learned by rote or memories of events that occurred in the past.

Spatial navigation

  • Portions of the temporal lobe, particularly the hippocampus, also play a large role in the ability of an individual to navigate spatially and to physically “remember” a place that the person has been before. People with a damaged hippocampus often get lost because their brains are unable to process, spatially, where they have been and where they are going.

Stay tuned to next week when I will write about the Parietal lobes.  Interesting stuff.  To get my weekly blog to your inbox, just press the follow this blog button.

Brain Waves Basic

Four simple periodic rhythms recorded in the EEG are alpha, beta, delta, and theta. These rhythms are identified by frequency (Hz or cycles/sec) and amplitude. The amplitudes recorded by scalp electrodes are in the range of microvolts (μV or 1/1,000,000 of a volt).

rhythm Freq (Hz) Amp(μV)
alpha 8-13 20-200
beta 13-30 5-10
delta 1-5 20-200
theta 4-8 10

Alpha: The four basic rhythms have been associated with various states. In general, the alpha rhythm is the prominent EEG wave pattern of an adult who is awake but relaxed with eyes closed. Each region of the brain had a characteristic alpha rhythm but alpha waves of the greatest amplitude are recorded from the occipital and parietal regions of the cerebral cortex. In general, amplitudes of alpha waves diminish when subjects open their eyes and are attentive to external stimuli although some subjects trained in relaxation techniques can maintain high alpha amplitudes even with their eyes open.

Beta: Beta rhythms occur in individuals who are alert and attentive to external stimuli or exert specific mental effort, or paradoxically, beta rhythms also occur during deep sleep, REM (Rapid Eye Movement) sleep when the eyes switch back and forth. This does not mean that there is less electrical activity, rather that the “positive” and “negative” activities are starting to counterbalance so that the sum of the electrical activity is less. Thus, instead of getting the wave-like synchronized pattern of alpha waves, desynchronization or alpha block occurs. So, the beta wave represents arousal of the cortex to a higher state of alertness or tension. It may also be associated with “remembering” or retrieving memories.

Delta and Theta: Delta and theta rhythms are low-frequency EEG patterns that increase during sleep in the normal adult.   As people move from lighter to deeper stages of sleep (prior to REM sleep), the occurrence of alpha waves diminish and is gradually replaced by the lower frequency theta and then delta frequency rhythms.

Although delta and theta rhythms are generally prominent during sleep, there are cases when delta and theta rhythms are recorded from individuals who are awake. For example, theta waves will occur for brief intervals during emotional responses to frustrating events or situations.   Delta waves may increase during difficult mental activities requiring concentration. In general, the occurrence and amplitudes of delta and theta rhythms are highly variable within and between individuals.

Retreat Center for Mind-Body

1838 Arte Farm Labyrinth model

Mind-Body Retreat Center

Experience a Mind and Body Vacation learning experience.  Your retreat includes organic breakfast, 5 min. yoga routine & daily access to Brain Training sessions with coaching on 2 acres of walking paths & labyrinth for an outstanding experience in mindfulness. (Treatment for attentional issues, anxiety, depression, stress management and optimization for the whole of you!)

Brain Mapping

Non-invasive QEEG Brain Mapping is analogous to a physician performing a throat culture on a patient with a throat infection to determine which antibiotic would best eradicate the infection.  Brain Mapping gives answers to what’s going on below the surface.  The electrodes are placed on the head, and read the electrical activity coming off of the brain.

The Brain Map analysis gives us important information to more effectively help improve the quality of life and productivity of each individual patient.  Each segment of the brain produces brain wave activity that can be measured and will indicate the level of functioning of that region.  Treatment is then guided by the map.  A brain map is done prior to treatment and after about 10 sessions.

QEEG (Quantitative Electro- encephalogram) or Brain Mapping is an essential diagnostic procedure for developing non-drug treatment protocols for Attention and focus issues, Autism, Learning Disorders, Anxiety, Depression and Stress Related Illnesses.

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In a safe, spa-like space you will sit comfortably for about an hour with a non-invasive electrode cap on your head while we take a reading of the brain’s activity.  This map will then guide our treatment for your sessions.

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