Brain Science – Page 2 – qEEGsupport.com

Houston’s Tarnow Center offers solution for service members with PTSD

A friend of qEEGsupport.com ( Dr. Ron Swatzyna) was recently featured on a local news station in the Houston area.

HOUSTON – A Houston doctor is working on something that could help the many service members who return from the battle field suffering from post-traumatic-stress disorder.

By its own admission, The Veterans Administration has had little success treating people who are suffering from both traumatic brain injury and post traumatic stress disorder.

“They end up not having any cognitive strategies to manage the therapy, and they’ll either get out of therapy, or end their lives and that’s what’s happening,” said Dr. Ron Swatzyna, a psychotherapist, neuro-therapist, and biofeedback therapist for Houston’s Tarnow Center. “I’ve been working on this issue for about four years now.”

He said resetting the brain, lining it back up through stimulation, is the key. And by mapping the brain, he believes he can tell when the patient is ready for therapy.

“Not at the beginning. If you push them too quick that’s a problem. If they are pushed into therapy too quick,” he said.

Swatzyna said the defense department and the VA both realize more research is needed, and if he can get funding, and cooperation from a group in the Texas Medical Center, he would like to open up a research center in Houston.

Vietnam veteran Billy Miller, who one of Swatzyna’s patients, is now helping him pull it off.

“Everyone I had been to before, all 25 doctors had never had military experience, they didn’t know what I was going through,” Miller said.

Swatzyna was a captain in the Air Force, and now many believe he is the best in the country at understanding veterans.

Army soldier Joel Brasier, who suffers from TBI and PTSD, believes Swatzyna is on the right track and is hoping research will lead to better, faster treatment.

“It’s an ongoing process, but eventually they are going to make a breakthrough and get us the help we need,” Brasier said.

Full story from khou.com

What Happened to the Reporter at the Grammys?

Recently during a post-Grammy interview, the on-air report had some serious difficulties in getting her words out. You can read about it and see the video here .

The reporter in this article likely had a TIA… a Transient Ischemic Attack… the temporary insufficiency of vascular flow dynamics to a cortical area providing insufficient local glucose and oxygen for function. This can happen from just flow dynamics due to vasoconstriction, such as seen in hyperventilation or gross over-arousal. This can also happen when blood consistency is not appropriate to allow flow, such as seen with hyperglycemia in diabetics when their blood sugar rises too high.

You may think “what does this have to do with EEG?”… well it is an important EEG area, and not without controversy.

The mid-temporal sharp-slow transients that are seen in EEG are considered neurologically non-specific, and many neurologists do not even comment on them. This is a mistake, as these nonspecific changes are a harbinger of vascular issues, including ischemia (as seen in migraine ischemia and the current discussion of TIAs), or vascular insufficiency, commonly in the vertebro-basillar artery and posterior vascular distributions supplying the hippo-campus (which has a huge metabolic demand load).

No less than Ernst Neidermayer chastises the neurologists doing EEG interpretations for under-reading of these findings. He clearly shows in his paper that these non-specific findings are important.

Recently I had a client who sent in the EEG of his wife, who had experience some word-finding and fluency issues, and it had these “nonspecific” temporal findings on the left… we suggested an MRA (magnetic resonance angiography), and though they had already done the MRI (which was normal), the MRA was done. The MRA showed a 9 millimeter AV malformation, and surgery was done to patch this area so it didn’t burst, saving her life.

These are the sort of waveform distortions that require an experienced EEG interpretation, and preferably an expert with Board qualification in EEG, not just someone licensed to read EEGs. These controversial findings make all the difference, and it is exactly these areas that provide the large difference between interpretation in studies looking at inter-reader visual EEG reliability.

Jay

New Study Shows – The increase in theta/beta ratio on resting-state EEG in boys with attention-deficit/hyperactivity disorder is mediated by slow alpha peak frequency

Abstract

Attention-deficit/hyperactivity disorder (ADHD) was found to be characterized by a deviant pattern of electrocortical activity during resting state, particularly increased theta and decreased beta activity.

The first objective of the present study is to confirm whether individuals with slow alpha peak frequency contribute to the finding of increased theta activity in ADHD. The second objective is to explore the relation between resting-state brain oscillations and specific cognitive functions. From 49 boys with ADHD and 49 healthy control boys, resting-state EEG during eyes open and eyes closed was recorded, and a variety of cognitive tasks were administered. Theta and beta power and theta/beta ratio were calculated using both fixed frequency bands and individualized frequency bands. As expected, theta/beta ratio, calculated using fixed frequency bands, was significantly higher in ADHD children than control children. However, this group effect was not significant when theta/beta ratio was assessed using individualized frequency bands. No consistent relation was found between resting-state brain oscillations and cognition. The present results suggest that previous findings of increased theta/beta ratio in ADHD may reflect individuals with slow alpha peak frequencies in addition to individuals with true increased theta activity. Therefore, the often reported theta/beta ratio in ADHD can be considered a non-specific measure combining several distinct neurophysiological subgroups such as frontal theta and slowed alpha peak frequencies.

International Society for Neurofeedback & Research (ISNR) 18th Annual Conference

International Society for Neurofeedback & Research (ISNR) 18th Annual Conference
Denver, Colorado Sept 30-Oct 3, 2010

ISNR invites you to their 18th Annual Conference for Health Professionals, Education Professionals, Researchers & Students. This conference offers workshops by the leading clinicians and researchers in the field of neuroscience. There will be many workshops and keynote talks on clinical as well as theoretical applications in the neuroscience field.

Consciousness: An Emergent Property Of Mind-Brain Interaction

Consciousness: An Emergent Property Of Mind-Brain Interaction – presented by Jay Gunkelman

A model of consciousness will be illustrated with physiological data from EEG and Event related potentials. Using millisecond level time resolution, a working model of the interaction between the mind and the brain will be constructed.

The Slow Cortical Potentials generated by Glial activity and the faster gamma activity reflecting activity of bound neural networks will be used to illustrate this model. The physiological correlates of concepts like intention, attention, memory, perception, awareness, sensory differentiation and conscious awareness will all be discussed within the framework of this model. Advanced concepts like neural network binding, nested rhythms, cross-spectral correlation, and the bispectrum will be discussed.

The DC potentials cause an instantaneous phase resetting and binding of a neural network, which can initiate synchronous activity within these neural networks. Current work using this model in clinical work on severe disorders of consciousness, including work by the International Brain Research Foundation on recovery of consciousness in coma cases will be reviewed. The simplest expression of the model: when the DC potentials reflecting activity of the mind interact with gamma activity reflecting neural activity in the brain, the emergent property of this interaction is consciousness.

[youtube]http://www.youtube.com/watch?v=Pv-msnzTk7o[/youtube]

From The Society for Scientific Exploration (SSE)

How EEG can Show an Epileptogenic Process

This is the first of a few posts with a variety of ways the EEG can show an epileptogenic process. The morphology of the underlying process are quite dramatically varied.

The two images below show the referential and sequential montage display of an active right temporal-parietal spike and slow wave focus, seen in a child clinically diagnosed with an attachment disorder. There was no history of convulsion, nor any suspicion of the actual underlying pathophysiological basis for the behavioral presentation.

Epilepsy and EEG

Epilepsy and EEG have been inextricably linked since the 1930s, when Frederick and Erna Gibbs discovered that epileptic events were visible in the EEG. The evolution of other medical imaging in the 1970s and 1980s provided a better way to localize tumors, and the clinical use tapered off in areas other than epilepsy and encephalopathies. Even with the multiplicity of other methods, the EEG remains the gold standard for identification of epilepsy.

In modern neuroscience centers, the EEG is still the tool of choice in evaluation of convulsive epilepsy, as well as some other non-convulsive forms, such as staring episodes seen in “absence epilepsy” typically as a 3/second spike and wave dominant anteriorly, or temporal lobe epilepsy, which is seen as a “notched” slow wave discharge fronto-temporally.

First Direct Evidence of Neuroplastic Changes Following Brainwave Training

The scientific and academic press is now considering Neurofeedback as one of the ways neural plasticity can be induced/enhanced. The paper below shows the NF training changing the brain’s plasticity measurably within a single feedback session.

This may not surprise too many old-time NF practitioners, except that it is now being proven with well done studies in the traditional neuroscience literature! Neurofeedback can induce changes in brain plasticity!

Jay

First Direct Evidence of Neuroplastic Changes Following Brainwave Training

ScienceDaily (Mar. 12, 2010) — Significant changes in brain plasticity have been observed following alpha brainwave training.

A pioneering collaboration between two laboratories from the University of London has provided the first evidence of neuroplastic changes occurring directly after natural brainwave training. Researchers from Goldsmiths and the Institute of Neurology have demonstrated that half an hour of voluntary control of brain rhythms is sufficient to induce a lasting shift in cortical excitability and intracortical function.

Remarkably, these after-effects are comparable in magnitude to those observed following interventions with artificial forms of brain stimulation involving magnetic or electrical pulses. The novel finding may have important implications for future non-pharmacological therapies of the brain and calls for a serious re-examination and stronger backing of research on neurofeedback, a technique which may be promising tool to modulate cerebral plasticity in a safe, painless, and natural way.

Continued at http://www.sciencedaily.com/releases/2010/03/100310114936.htm

The Art of Aging: Limitless Potential of the Brain

This is an excellent video talking about how seniors can help keep their brains young.

How can we live a fuller and healthier lifestyle as we get older? Perhaps keeping our body and brain engaged can help. That seems to be the case in Japan where the number of centegenarians is greater than 20,000.

THE ART OF AGING:THE LIMITLESS POTENTIAL OF THE BRAIN introduces a number of these “super-seniors” who lead healthy lives at nearly 100-years-old and, through them,searches for the “keys” to living a healthy and vital life regardless of age.

[veoh]http://www.veoh.com/browse/videos/category/lifestyle/watch/v19832384XKk8wQ5m[/veoh]

Related article from BBC July 3,2013 Active brain ‘keeps dementia at bay’

Three Sets of Data from the Same EEG

This is three sets of data from the same underlying EEG, all with varying coherence results, and with the weighted average showing the alpha hypercoherent pattern with better fidelity than any other for this data.