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There are several ways to disable a microchip implanted in a human being. Some of these ways include destroying the chip’s power source, a battery implanted in the host, or a method of extreme starvation and exhaustion. The chips will eventually shut down if they cannot operate in a hostile environment and must be destroyed in order to protect the host.
Biofeedback is a possible solution to disable a microchip in a human
The power source for a chip in a human is the nervous system, and drugs that inhibit the nervous system can disable the implant. The same goes for extreme starvation or exhaustion, which cause the chip to shut down and allow its host to survive. Biofeedback is one possible solution to disable a chip in a human. It works by monitoring the activity of the chip and selectively bypassing neural connections to prevent the malfunctioning chip from doing its job.
A prototype of a microchip had a series of reservoirs etched into a silicon wafer. Each reservoir had a thin conductive membrane, which served as the anode in an electrochemical reaction. Chemicals were inserted into the reservoir through the other side of the reservoir, and the chemical seal kept it from leaking. A proposed release mechanism contained no moving parts and worked by electrochemically dissolving the anode membrane. It was designed so that each reservoir was independently addressable. In the future, biofeedback may be combined with microelectronic components that could open and close the reservoirs on demand.
Surgical removal
Surgical removal of a microchip in an individual presents many challenges, both physical and mental. A microchip implanted in a human’s body may result in high stress levels and the risk of coercion for employees. The risks of microchips are not yet fully understood. A surgical removal of a microchip may be necessary to protect the health of a person after it has been implanted.
A human microchip implant is an electronic device that is placed in the body through injection or subcutaneously. The device contains an embedded integrated circuit RFID device encased in silicate glass. The chip typically contains a unique identification number that links to a database that stores information about a person’s identity, criminal record, and medical history. Depending on the microchip’s capabilities, it can even link to a person’s address book.
Shielding
Most inexpensive microchips are housed inside biosafe glass and are inserted between a human’s thumb and index finger. The resulting microchip is invisible once healed and cannot be felt under the skin. However, the skin around the microchip can be pinched if someone rolls their hand between hard surfaces. Shielding a microchip in a human is an important safety measure, especially in cases of military personnel.
