The number of biohackers who use magnetic finger implants is on the increase, not satisfied with the mere five senses that nature gave them. These pioneers merely set the standard for sensory augmentation, but it need not be limited to them. The following reasons and steps will help you decide if you should get magnetic implants.
The first theory of magnet implantation was developed by Steve Haworth and Jesse Jarrel, two body modification experts from the mid-90s. The implants were initially designed so that they could be connected to rings or horns outside of the body and were purely cosmetic. Haworth realized, however, that by implanting small magnets, he could create a similar effect more effectively after talking to a friend who had a piece of steel lodged into his finger which allowed him to sense the presence of magnetic fields. There are now several companies that provide bio-safe, implantable magnets.
In thsi article, we would thus scrutinize all that there is about the magnetic implant and show the readers the impacts and advantages of getting one if they are planning to. Thus read the article carefully and go for a piece of professional advice before making any decisions.
What are Magnetic Implants
The procedure of magnetic implantation involves inserting small, powerful magnets (neodymium) under the skin, typically near the tips of fingers. They are available in the form of tubes and discs. Biohackers and grinders frequently perform this procedure, but this method remains experimental. The procedure of magnetic implants is often performed by amateurs at home using household tools and magnets obtained from the Web. There are however professionals who perform implant surgeries within professional bodies mod shops. Using magnetic implants as an interface for portable devices can also create other types of sensory inputs, for example converting ultrasound or infrared to a tactile sensation. So, for example, the distance from things could be ‘felt’ by an individual.
The main purpose of getting a magnetic implant is to gain sensory perception of magnetic fields. Even though magnetic implants can be used to pick up small metal objects, they are primarily used for pick up small metal objects. Magnets that are implanted under the epidermal layer of the skin cause nerve fibers to grow around the magnet as it heals. As the magnet pushes against electronic devices around it, it pushes against nerves and creates the feeling that you have a “sixth sense”, or a sense of magnetic vision. The magnetic fields around us can be felt through one magnetic implant, but some people prefer to have multiple implants in several fingers to get a more “3D” view. However, one magnetic implant is sufficient to be able to feel the magnetic fields. People who have magnetic implants have the sensation that electric motors, electronic circuits, appliances, or even wires are running.
Number and Placement of the Magnets
Implants are usually placed on a finger, and a person will only get one. A majority of experts agree that the safest and best place to put it is your fourth finger (ring finger) of the non-dominant hand. In case something goes wrong, you want to be prepared with your least useful finger.
As to where exactly the magnet should be placed on the finger, it must not be placed between the touch surface and the bone. In emergency grip situations (such as when you are falling and have to grab something immediately), a magnet can be crushed if it comes into contact with a bone or another object. In other words, that’s where it should go: in the inside corner of the finger where it is at the side rather than in the way. By doing this, you can avoid the magnet being broken by an active movement rather than a passive action that might damage it.
Kinds of Magnets
Managing the process of implantation requires careful selection and coating of the magnets. The size of the magnet is a key consideration in this case because a magnet that is too large obstructs blood vessels and is likely to be rejected, or send out of the body. In this context, the most common magnet size is a 3mm by 1mm neodymium disk magnet. Magnets used in these machines are usually of the strongest possible strength as a stronger magnet result in a more sensitive magnetic field. Regardless of the magnet type, there is one factor to consider, and that is the coating, as typical neodymium disk magnets are unsuitable for implantation. A magnet must be covered with a safe, inert substance to prevent the body from attacking the magnet. Implant grade silicone, titanium nitride, gold, and rhodium make up standard magnet coatings. A scalpel is used to implant disc magnets, and tubes are inserted using syringes. It is often not possible to obtain anesthesia for procedures or, occasionally, are performed using ice water, due to legal issues regarding the purchase of anesthesia as opposed to the use of numbing substances such as alcohol or cold.
Standard neodymium magnets, like N52 magnets on eBay, are what you should use. Invest in the tiniest ones. However, it’s the bio-coating that makes the difference. You’ll want to get some kind of coating on the magnet so that it won’t react with the various things in your body. A coated magnet, which isn’t always easily accessible, can be purchased. Traditionally, people have had to apply the coating themselves because they arrived much earlier in this age.
The result may be that we do it ourselves. It might be a good idea to use silicone. It is also possible to use Teflon, or we could go all out and use gold or titanium, both of which are bio-inert. Langton Labs used vapor deposition to produce the materials developed by Todd Huffman.
Applications of Magnetic Implants
The majority of users are those interested in sensory augmentation. When you have a magnet in your finger, things that would otherwise be invisible to you are readily observable. Magnetic fields and ferrous metals can be detected using the implant, and tiny metal objects can be picked up and determined whether they are ferrous.
For example, a microwave or stovetop would produce large electromagnetic fields that you could feel. If you finger these devices close enough, you will be able to feel the 60 Hz electricity that’s running through them.
Additionally, you’d be able to check whether an object is ferrous or not – whether it’s composed of iron, steel, aluminum, or some other substance.
Additionally, those working with electronics can benefit from it. There would be a difference in feeling between live and dead wires. Additionally, the magnet would enable you to sense some security gates you pass through when entering stores. The sensors may also be used to monitor large electric motors as they start and stop, such as in streetcars or fridges.
Furthermore, you might be able to do neat tricks like picking up paper clips and bottle caps.
Magnetic Implants FAQs
When will I be able to return to full function after healing?
All accounts indicate that the procedure is fairly painful. In other words, the magnet is injected via a gigantic syringe. As the wound heals, it appears like a tiny cut on the edge of the finger, but it is only for a few days before it appears normal again. The sensation of the implant usually doesn’t occur immediately, since it takes some time for the internal scar tissue to heal and the nerve endings to regenerate. However, after two weeks, you will most likely experience the sensation of magnetic fields coupled with the normal operation of the implant.
Interestingly enough, it takes people some time to recognize the implant as what they’re feeling. Their brain doesn’t figure out what they’re feeling, but they feel something. They begin to realize that what they are feeling is merely the magnetic field when they suddenly realize their perception is wrong.
Are you able to remove it easily?
You just have to slit the finger again and take it out with a pinch. It will leave you with a deep cut on the finger that will have to heal over a few days.
Is there a risk to your health?
The magnet may shatter if the bio coating fails or if the coat fails. Consequently, you are at risk of being exposed to heavy metals inside your body. Sadly, this means people must choose between immediately removing the broken piece or waiting until they figure out what will happen. Several accounts describe how a shattered magnet was reassembled over time, and how function and sensation were restored.
Is there a risk of damage to objects in your immediate surroundings?
The risks associated with wiping out a hard drive are virtually zero. It is impossible to use magnets to influence a device such as a credit card or hard drive because their fields are too weak. Quite a powerful magnetic field is needed to ruin such things.
In addition, MRI scans represent one potential external risk. The magnetic fields generated by these devices shouldn’t be ingested as they create enormous magnetic fields. A scanner of this type may damage an implant, and this may damage the MRI machine. It’s unclear how such a scanner may affect an implant.