Author Archives: John

Transcranial direct current stimulation over posterior parietal cortex modulates visuospatial localization

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We placed one stimulation electrode over the right PPC and the other over the left PPC (dual tDCS) and varied the polarity of the stimulation. We found that this manipulation altered visual localization; this supports the causal involvement of the PPC in visual localization. Notably, mislocalization was more rightward when the cathode was placed over the right PPC than when the anode was placed over the right PPC.

via Transcranial direct current stimulation over posterior parietal cortex modulates visuospatial localization.

Do-It-Yourself Transcranial Direct Current Stimulation – Smart Drug Smarts

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Podcast: Download (Duration: 23:15 — 32.1MB)

Jesse interviews Nathan Whitmore, creator of the open-source project OpenBrainStim, an affordable alternative to commercial transcranial Direct Current Stimulation (tDCS) devices. Nathan tells us how the project got started, how the “DIY-tCDS” community has grown, and how you can experiment from the comfort of your own home.

via Do-It-Yourself Transcranial Direct Current Stimulation – Smart Drug Smarts.

Skin Lesions Induced by Transcranial Direct Current Stimulation tDCS

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However, in all three instances,the skin lesions occurred under the cathode supraorbital regionat the end of the sessions. By separating the electrodes from the skin they presented small skin lesions, which resembled red burns, with small blisters Fig.1. The extension of the lesions ranged from 2 to 3 mm up to 1.5 cm. Lesions appeared after the second stimulation session in one patient, while for the other two, they appeared between the eighth and tenth sessions. None of the patients had a skin lesion before the start, skin disease or a history of any pathological skin disorder

via Skin Lesions Induced by Transcranial Direct Current Stimulation tDCS – 532.pdf.

Facilitation of corticospinal excitability by virtual reality exercise following anodal transcranial direct current stimulation in healthy volunteers and subacute stroke subjects | JNER

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Results

The VR wrist exercise (B) facilitated post-exercise corticospinal excitability more than the active wrist exercise (A) or anodal tDCS without exercise (D) in healthy volunteers. Moreover, the post-exercise corticospinal facilitation after tDCS and VR exercise (C) was greater and was sustained for 20 min after exercise versus the other conditions in healthy volunteers (A, B, D) and in subacute stroke patients (B, D).

Conclusions

The combined effect of VR motor training following tDCS was synergistic and short-term corticospinal facilitation was superior to the application of VR training, active motor training, or tDCS without exercise condition. These results support the concept of combining brain stimulation with VR motor training to promote recovery after a stroke.

pdf http://www.jneuroengrehab.com/content/pdf/1743-0003-11-124.pdf
via JNER | Abstract | Facilitation of corticospinal excitability by virtual reality exercise following anodal transcranial direct current stimulation in healthy volunteers and subacute stroke subjects.

Brilliant for a Day: The (REAL) Science of Brain Enhancing Stimulation | Armed with Science

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The Department of Veterans Affairs, in conjunction with the VA in Texas and the Women’s Hospital in Boston, are collaborating with Dr. Weisend and his team to use their tDCS system on service members who are struggling to live with PTSD and traumatic brain injuries.

“The way we approach it is not just simply hoping behavior changes,” Dr. Wesiend says. “What we do is we figure out what the most important thing to change is so that we can effect a person’s life in a positive way. For example, people with PTSD tell me they have terribly disrupted sleep. Traumatic brain injury sufferers may have a completely different problem. It’s like thinking of different disorders as having their own personalities.”

via Brilliant for a Day: The (REAL) Science of Brain Enhancing Stimulation | Armed with Science.

Brain, interrupted: The promise and perils of brain stimulation | British Science Association

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Thursday 11 September 2014
10.30 – 12.00
Lecture Theatre S02, Poynting Physics Building, University of Birmingham

Join us for a cutting edge view of research into brain stimulation and cognitive enhancement. This event will highlight the possibilities and pitfalls in this newly emerging field: Can brain stimulation change our mind? ? Are there physical and psychological risks? Come and find out!

Join us for a cutting-edge view of research into brain stimulation and cognitive enhancement. Discover the possibilities and pitfalls in this newly emerging field: Can it change our mind? How does stimulation interact with behaviour? Can we improve the damaged brain? Are there physical and psychological risks? Join Roi Cohen Kadosh, Gregor Thut, Jacinta O’Shea and Gemma Learmonth to find out.

via Brain, interrupted: The promise and perils of brain stimulation | British Science Association.

My tDCS Story: A Six Month Retrospective — tDCS Global — Medium

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After six month of tDCS focused on my optic nerve and visual cortex combined with visual training, I have had marked improvements to my visual perception, especially in contrast perception and perceiving objects from afar. For example, if I am walking on the sidewalk, and another person is walking in the opposite direction towards me, I would not have been able to notice the other person until they were about 1 meter away. Now, I will notice people from 3 meters away. I can’t see them clearly enough to identify them, but at least I can move out of their way, if they’re in a hurry. Likewise, I can see oncoming traffic from 2–3 times farther away than before, which is very helpful when crossing busy streets. Another example is when I use my computer. I use a large Apple 30” display, and before starting tDCS, I would sit with the monitor about 3 inches from my eyes. As you can imagine, this was not at all comfortable, but I had to do this in order to see the screen clearly. After the first few days of using tDCS, I was able to push my monitor back and sit 6 inches away from it. Within two weeks, I was sitting about 12 inches away. Now, I sit 18 inches away. This is the first time in my life I’ve used a computer at this distance. Similarly, I’m able to use my iPhone at much greater distances than before 6 inches now, compared to 2 inches previously.

via My tDCS Story: A Six Month Retrospective — tDCS Global — Medium.

Quick and Dirty Guide on Transcranial Current Stimulation

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What makes tDCS work?
Let us start with the application of DC current and its study at neuronal level. While the electrical current goes through the scalp and cortex it encounters different mediums. Each time it goes through the limit between two mediums it leaves some charge behind. This is what happens when traversing the neuronal membrane, which constitutes the interface between the interior of the neuron and its environment. These charges generate a voltage difference, which makes the resting potential of the membrane either decrease or increase, depending on its sign, i.e. on the current sense. Therefore the neuron is correspondingly either more likely or less likely to fire. When applying an anodal current, the action potential thresholds of pyramidal cells under the anode application area are lowered, meaning that they fire more easily. Therefore this current, and its associated electrical field, is considered excitatory. On the other hand a cathodal current would present an inhibitory effect.
via Quick and Dirty Guide on Transcranial Current Stimulation.

The Cognitive Kit

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I have no affiliation with this device. Just like to keep track of what’s out there and noticed this was recently released.

The Cognitive Kit is available for sale. The Cognitive Kit is a direct current device used for cognitive enhancement purposes. The Kit was designed for ease of use, comfort, and efficacy. Included in the purchase: Main unit which contains simple switching mechanism for power on, current level, and current out Cables hardwired into the Main unit so there is no chance of mistaking Anode from Cathode. Top quality Amrex Sponge electrodes are included for comfort of treatment and less side effects Headband to keep electrodes in place Two 9V batteries for more sessions without changing batteries, and the extra voltage allows a not so perfect electrode/head interface and still regulate 2mA included in the Main unit.Everything is included to quickly set up The Cogntive Kit for a cognitive enchancement session. The Cognitive Kit sells for $200 and is only shipping to US and Canada currently. Shipment will be $20 and sent to FEDEX within two days by FEDEX Gnd.

via Get your very own.

Collected knowledge from a new tDCS convert : tDCS

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Well put together summary post from ‘MagicC’ on Reddit includes a few links I hadn’t seen.

I’ve been using the depression montage, and I’m pleased to report that it’s been very effective. I feel much less stressed out and anxious, and I have a calm clarity that I find incredibly heartening. It feels like I have greater freedom of action i.e. I think of more possibilities, instead of getting bogged down in dead ends. I’m experiencing a quieting of my self-destructive inner dialogue, which is improving my mood dramatically. I wasn’t sure what to expect, but so far, I’m very happy with my purchase.

via Collected knowledge from a new tDCS convert : tDCS.

This Procedure May Improve Your Brain — and Uncover the Real You – NYTimes.com

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The real you?

Sally Adee, who tried tDCS as part of an article she reported at The New Scientist, was featured on Radiolab’s episode and later wrote a personal essay about the treatment. The shocks made her feel “like I had just had an excellent cup of coffee, but without the caffeine jitters. I felt clear-headed and like myself, just sharper. Calmer. Without fear and without doubt.”
That clarity was emotionally profound: For days after the treatment, her mind was free of the nagging voices of self-doubt and fear that she realized she lived with daily.
Talking with Mr. Abumrad on his show, she said: “I was this person I hadn’t experienced before, and I thought maybe this is the actual core person who I am when all my baggage isn’t weighing on me. It was like somebody had wiped a really steamy window and I was able to look at the world for what it was.”

via This Procedure May Improve Your Brain — and Uncover the Real You – NYTimes.com.

DIY tDCS Safety Standards | SpeakWisdom

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Brent Williams of SpeakWisdom just published a checklist for DIY tDCSers. Links at bottom to full list.

DIY tDCS Safety Standards

As a potential or current do-it-yourself tDCS user I agree to the following:

1.   I will, if reasonably possible, seek out a medical professional for tDCS advice, treatments and follow-up.

2.   If I have cranial scar tissue, an implant, or other unusual medical condition, I will seek clearance from my doctor before using tDCS. If I have a seizure disorder I will refrain from using tDCS or use it only under direct supervision of qualified medical personnel.

3.   I will not, under any circumstances, directly connect a battery to my head. I understand that I could greatly exceed the maximum 2 mA current limit used by tDCS researchers, possibly harming myself in the process.

via DIY tDCS Safety Standards | SpeakWisdom.

Shockingly Smart: The Physics Behind Brain Stimulation | PhysicsCentral

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Contrary to the popular notion of the brain as an organic computer, the signals responsible for most behavior aren’t transmitted purely by electricity. The motion of ions, atoms with either a deficit or surplus of electrons from their neutral state, is responsible for regulating the release of neurotransmitters, the “firing” of the neuron that leads to thought or sensation.

By applying a current in a certain direction, tDCS can effectively increase or decrease electrical polarization, affecting the chance that neurons in a given region of the brain will fire depending on the orientation of the subject’s synapses and whether a positive or negative current is applied. The potential to decrease neuronal activity seems just as important as the potential to increase it by way of medical and psychiatric applications of the technology. Disorders like schizophrenia, for instance, seem to be linked to over-excitability in certain parts of the brain.

via Physics Buzz: Shockingly Smart: The Physics Behind Brain Stimulation.

Using Noninvasive Brain Stimulation to Accelerate Learning and Enhance Human Performance

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Before you strap a tDCS device on your head in order to learn something new, have you studied Spaced Repetition or Interleaving? Have you mastered software like Anki? Or language learning techniques? As the paper quoted below makes so clear, tDCS adds another very complex set of variables to the notion of accelerated learning. While it may be practical for the military to be pursuing optimized tDCS-enhanced training methods for very specific skill sets, I do think we’re years away from practical DIY learning protocols involving tDCS.

Although tDCS shows promise as a training method, important questions remain unanswered. To maximize effects on training, optimal stimulation schedules i.e., every day, twice a week, etc. need to be determined. Juvina, Jastrzembski, and McKinley 2013 used a computational modeling approach to predict the optimal tDCS scheduling, but empirical validation is required. Second, at what point in training should tDCS be applied? One study showed that tDCS was more beneficial in the early phases of training Bullard et al., 2011, whereas another showed benefits at all stages McKinley et al., 2013. Importantly, these studies involved different learning tasks, so it is possible that the optimal time point for tDCS efficacy is task dependent. Likewise, different electrode placements may be optimal for different stages of learning. Third, how long is the learned information retained, and does this change with repeated doses of tDCS? Initial evidence suggests that tDCS-induced improvements in learning are retained for at least 24 hr Falcone et al., 2012; however, there is little evidence of exactly how long the new knowledge is retained. Finally, the “gold standard” of any training technique is not only whether it is effective in accelerating learning on a particular task but whether its effects transfer to others tasks within the same cognitive domain Dahlin, Neely, Larsson, Backman, & Nyberg, 2008; Strenziok et al., 2014. TDCS will ultimately need to be held to this high standard

via Using Noninvasive Brain Stimulation to Accelerate Learning and Enhance Human Performance.
Download the pdf: Using Noninvasive Brain Stimulation to Accelerate Learning and Enhance Human Performance

“Cognitive Enhancement by Non-invasive Brain Stimulation” with Roy H. Hamilton

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An intelligent introduction to tDCS and TMS in the context of Cognitive Enhancement. Dr.  Roy Hamilton (at around 19:00 in the video, the beginning is basic intro boilerplate) discusses studies which demonstrate significant positive cognitive effects in healthy individuals. I especially liked Dr. Hamilton’s take on the concerns and potential risks of non-invasive brain stimulation which he discusses towards the end of his talk.