Latest Product Info

  • June 9th Update

    A quick update on the latest developments at focus towers:

    • foc.us/me is coming to iPhones and iPads pending app store approval.
    • fNIRS sensor update coming soon - see picture below for teaser
    • Remaining Go Flow and V2 stock almost gone - last chance for both

    Can you guess what it is?

     

  • The effects of Transcranial Alternating Current Stimulation (tACS) at Individual Alpha Peak Frequency (iAPF) on motor cortex excitability of young and elderly adults

    Interesting new paper about tACS and peak alpha :

    https://www.sciencedirect.com/science/article/pii/S1388245718304000

     

    Transcranial alternating current stimulation (tACS) was shown to modulate brain oscillation, cortical excitability and behaviour. This technique allows for the direct perturbation of brain oscillation such as the EEG alpha wave (8–12 Hz). In aging, there is correlation between the decrease in alpha activity and the profound cognitive and motor impairments. Studies suggest a state-dependent effect of tACS on alpha activity: upregulation of alpha oscillations only occurs in conditions of low alpha power (e.g. in the elderly).

     

    Remember, the foc.us v3 is the only brain stimulator that has rippled current designed to increase your peak alpha.

  • V3 in stock & back-orders shipped

    foc.us are pleased to confirm that all V3 backorders were shipped on Monday and that the V3 is now in stock for delivery.

    There were about 10 suppliers involved with this project and a couple were new to us. New supplier relationships can take a little time on both sides to establish some trust and understanding. So whilst the delays are always regretted they can be propitious.

    Our attention now returns to finishing the fNIRS sensor. We have made a few unannounced tweaks to the specification have that we are excited to share with you soon.

  • Focus Safety Video

    Please watch the following video to review tDCS contraindications.

  • Configure Your EEG Dev Kit using configure.dk & foc.us/me

    In this two minute video learn how to configure the WiFi on your foc.us EEG Dev Kit  using configure.dk

     

  • tDCS Placements 10/20 Guide

    A quick update on the latest developments at focus towers:

    • foc.us/me is coming to iPhones and iPads pending app store approval.
    • fNIRS sensor update coming soon – see picture below for teaser
    • Remaining Go Flow and V2 stock almost gone – last chance for both

    Can you guess what it is?

     

  • Achieve Sporting Prowess with Foc.us Brain Stimulation

    Sporting excellence is achieved through years of dedicated practice. Whether you're trying to increase the curve on your free kicks or perfect your golfing swing, you will spend hours repeating the actions over and over again until you can execute them with the precision you need. But we all know that it's not just your body that you need to train. You also have to train your mind. It's your mind that controls your bodily actions. And training your mind involves fine-tuning all the pathways in your brain that control those actions.

    The perfect golf swing requires carefully coordinated movement

    Every time you practice your swing, your brain gets feedback on how well it turned out. That feedback let's your brain make tiny adjustments in the strength of connections between brain cells that in turn make tweaks to the way you execute that swing. This means you are strengthening the pathways that led to success and weakening the ones that didn't.

    It's when you're making these tiny adjustments that brain stimulation can help. Stimulating your brain isn't going to let you suddenly bend it like Beckham or wallop it like Bale. You're not going to suddenly hit a hole-in-one when you've only just started playing golf a couple of weeks ago. Don't believe anyone who tells you something like that. But the evidence so far suggests that it can help you make those small changes that have big effects.

    The way brain stimulation does this is by increasing what neuroscientists call the plasticity of the connections between brain cells. Which – translated into language you and I can understand – means your brain's ability to do things slightly differently to the way it's done things so far; or in other words, it's ability to shift out of ingrained, habitual, behaviour. As the tiny charges enter the brain they come to rest on brain cells, including on the cells’ axons that transmit messages. This alters the amounts of charge that naturally resides on the axons and makes it either easier or more difficult (depending on the type of charge applied) for the brain cell to transmit messages along those axons. It also makes it easier or more difficult for the brain cell to pick up a messages from other cells connected to it. The volume of messages a brain cell sends out along its axons to other brain cells, and how many of those messages are actually picked up, dictates how strong the connections between brain cells become. The more the messages the stronger the connections, the fewer the messages, the weaker they become.

    One way to think of this is that the added current randomly fuzzes up the established connections between brain cells. Kind of like giving your brain cells a bit of a shake. When you do this, they are more easily able to fall in (and out) of a preferred pattern of connection. And when your brain is primed like this, you are primed and ready to tweak and fine-tune your performance. Which is exactly the state you want to be in when you want to practice those sporting moves!

    So that's enough of the background. How do we do it?

    The Things you'll need

    A brain stimulation device

    You're not going to get far without one of these! If you're not in the market for research grade equipment (which could set you back thousands of dollars), the next best thing is the Foc.us V2. It's packed with features and supports both transcranial Direct Current Stimulation (tDCS) and transcranial Alternating Current Stimulation (tACS), as well as less known protocols such as random noise stimulation (tRNS).

    If the Foc.us V2 is still too much for you, you can buy the Foc.us Go Flow. This shares a lot of the circuity of the V2 but is limited to Direct Current Stimulation. So it can actually do everything that Halo headphones can do – except play music, of course. For that, you'll need your Dr Dres – or whatever brand you prefer.

    You may want to start with the basics of the Go Flow and when you're a more advanced user, ready for a fine-tuned approach to brain stimulation (look for our future posts on that), you might consider upgrading to the V2. In any case, for the purposes of the techniques we're about to discuss, you only need Direct Current Stimulation. So the Go Flow would do just fine.

    Electrodes and Head Fixture

    There are plenty of choices here. The Foc.us stimulator will work with different types of electrodes, and Foc.us offers it's own versions. You can choose sponge electrodes or sticky electrodes. The sponge ones generally work better and unless you are going to place your electrodes super accurately, you are better off sticking with a Foc.us head band or cap. Regarding accuracy of placement, bear in mind that the stimulation electrodes tend to be quite large. So obsessing over millimetres isn't worth it. I'm not saying that accurate placement isn't important, it is. But the truth is that no one really knows exactly the arch of the current as it enters your brain. Scientists are still working it out. We have some models, but their veracity is yet to be proved. What's more, ideal positioning will vary slightly from person to person. So the best thing is to carefully explore what's best for you.

    The Foc.us cap is by no means as accurate as a research-grade cap (Foc.us are trying to improve that), but used carefully it will help place electrodes accurately enough for the beginner.

    The other alternative is the Foc.us headband. This can be oriented in different ways to get the electrodes in the right position. For some montages, it works very well. For others it doesn't. And for what we're describing here, you're really better off with a Foc.us cap orsomething completely different like the many headstraps offered by other manufacturers or even something you might make at home.

    Highly accurate electrode placement becomes more important when you are applying advanced protocols such as HD-tDCS (more on that in future posts) where the electrodes and currents themselves are much smaller exactly because the aim is to produce more controlled and targeted effects.

    How to Stimulate Your Brain

    We're going to describe a two stage process which uses only transcranial Direct Current Stimulation (tDCS). In the training phase, you will prime your motor cortex to learn and fine tune the actions involved in your chosen sport, whether that's taking a penalty or putting a golf ball. Then in the competition stage you will suppress your brain's explicit conscious analysis so that you can more instinctively perform the actions you learnt in the training phase. This will involve two different brain stimulation protocols.

    Preparation - Preparing your electrode before a stimulation session.

    Carefully prepare your electrodes. Add about 9 grams of salt to about 100ml of water and shake thoroughly until completely dissolved. Soak the sponges in the solution. It's important to not over soak them. If solution is dripping off the electrodes, then you've added too much. Current flows through the saline solution, so if it leaks off, the current will flow through a broader area than intended. Conversely, do not under soak the sponges. You don't want the sponges to dry out or have any dry patches; these may lead to skin burns. You want to add as much water as the sponges will bear without excessive dripping. Some dripping is inevitable if the sponges are squeezed. But they shouldn't drip under mild pressure as you attach them to your head.

    Training – Electrode placement, current and duration

    The anodal (+ve) electrode should be placed over the motor region of the brain. The motor cortex is a thin band of neocortex that runs over the top of your head, approximately from ear to ear.

    If you're using a Foc.us head band or cap it should be fairly easy to place your anode in the right position – make sure that it sits above your left ear and slightly toward the back your head. The image below shows the motor strip in red.

    If you want to train your left-handed or left-footed swing or kick, this should be the other way around (over right motor cortex). You place your electrode on the opposite side because the right-hand side of the body is controlled by the left motor cortex and vice versa.

    Position the cathode on the shoulder opposite the anode. So if you want to train right-hand or right-foot actions and your anode is over left motor cortex, your cathode would go on your right shoulder; and if you want to train left-hand or left-foot actions and your anode is over right motor cortex, the cathode would go over your left shoulder.

    Set your current to 1mA and stimulate for 20mins. It's important not to go over time or over current. More is not necessarily better. Research suggests that higher currents or longer durations can in some cases have the reverse effect.

    When to stimulate and how often

    These are still early days in brain stimulation, so stimulation protocols used in research vary. Some will stimulate just before training and some during. Which one of these two you choose might have an impact, but it is still unclear to what degree and the differences are likely to be small. So you'll be fine if you choose a protocol on practical grounds.

    In any case, you should try to leave as little time as possible between stimulation and doing your training. The neural priming that results from applying current to the brain lasts for some time, but will slowly dissipate at a rate that is dependent on your environment and activity, as well as the duration of the stimulation. Hence the need to take advantage of the priming as quickly as possible after stimulation.

    If you're practising your golf putting, you could probably wear the headset during practice. On the other hand, if you're engaging in a contact sport, such as rugby or football, you might risk dislodging the headset and interrupting the stimulation session. Interruption of the stimulation session should be avoided. Don't fret about a few seconds here and there, but it is important to get the right dose, as we've said.

    The training phase of stimulation can be repeated every few days. Some studies have stimulated daily but it's still unknown what's optimal (or safe) and it may vary person to person or on the desired goal. We would recommend it's best to leave 48 hours between stimulation sessions for a good safety margin. This gives your brain a chance to recover in just the same way as your body does after training.

    For those of you who want to read a little from the source science, here's a very recent paper that uses this approach and here's a slightly older review of several studies.

    Competing – Electrode placement, current and duration

    When you are about to compete, all your learning is done and you just want to get into that zone. You want suppress all distracting thoughts, including those that monitor how well you're doing, and focus on putting all your training into practice. With motor actions this involves quietening your conscious chatter. Here's how you do it.

    Place the cathode (-ve) over the left dorsolateral prefrontol cortex (DLPFC) and the anode (+ve) over the right supraorbital region. Under the 10-20 labelling system these positions are referred to as F3 (cathode) and FP2 (anode). If you have a Foc.us 10-20 cap, the positions will be marked. FP2 is on your forehead above your right eye, but some distance from it. Don't put the electrode too close to your eyes or you may experience some small white flashes called phosphenes. These aren't particularly dangerous but can be uncomfortable and alarming. If you place the electrode in the middle of the line from the centre of your eyebrow to your hairline, it should be about right.

    Finding F3 is a little harder without the cap. It is situated over your left temple slightly into the hairline and about an inch towards the top of your head. Check here if you're in doubt and watch the positions being marked.

    Left-handers should do the same because, unlike motor functions, the primary region that consciously monitors the self and causes conscious chatter is not dependent on handedness.

    Stimulation should be at 1.5mA for 15 minutes just before you compete. Again, you should try to leave as short an interval as possible between stimulation and competing.

    Now, just because your conscious self-monitoring is turned down a little, doesn't mean you can't learn. As we all know, competing is one of the best ways to improve! And in a similar way, some research has shown that we can acquire and improve implicit learning when we are in this state. If you're interested in reading more, you can read this study.

    tDCS Saftey

    Transcranial Direct Current Stimulation is generally well tolerated by the majority of people and despite hundreds of thousands of trials, very few cases of adverse effects have been reported. But it's important to remember that these trials were generally performed well within conventional safety parameters and this caution may be the underlying reason for so few cases of deleterious effects.

    Hence it's important to always follow good safety protocols. Don't combine brain stimulation with any other drugs including alcohol. Avoid strong painkillers and don't have too much coffee. If you're particularly tired or likely to be in an unfamiliar situation, administer it with caution. If you feel any discomfort or disorientation at any time, discontinue the stimulation immediately - don't tough it out to the end! It just doesn't work like that.

    However, never suddenly pull off the electrodes. Depending on your equipment, this can cause a sudden current spike. The correct thing to do is to hit the safety switch on your stimulation device. With a V2, you can just shake it. With the Go Flow, you can press the main rocker button at any time during a stimulation session and it will ramp down and shut off. If you're using another manufacturer, check the instructions for a termination switch. If it doesn't have this feature, I would recommend that you use another brand.

    Foc.us products all come with a list of warnings which err on the side of caution.just

    If you're thinking of trying tDCS, you should at the very least read these warning from scientists. If you read that and think it sounds pretty uncategorical, you'd be right. The truth is, as we've said, these are early days and no body is completely sure about what tDCS does and how exactly it works. There's a lot that scientist know, but there's a lot they don't and there is a great deal of controversy within science itself. Watch out for future post where I will try to make sense of what we really know and what don't.

    In the meantime, it's worth remembering that people respond very differently to tDCS. Some feel dramatic changes and some feel nothing at all. Your mood, environment and even your level of caffeination can change how you experience it. Always go slow and be safe.

  • Go Flow Pro available from Amazon.co.uk

    UK Customers can order Focus Go Flow Pro from Amazon. Great if you are an Amazon Prime customer!

    Heres the link:

  • 19th March foc.us update

    Go Flow in stock, v2 in stock, EEG in stock, v3 very nearly ready.

    tRCS mode is quite exciting. Few tweaks before we ship to improve it.

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