Hacking humans using nanotechnology might sound a bit absurd, futuristic, or even fiction for you. However, this technology poses an incomparably more significant threat compared to cyber threats and breaches. Following a course of questions, this article will give you a brief background on how humans are being hacked with nanotechnology.
What is nanotechnology? The word “nano” means small or miniature in Greek. Thus, nanotechnology is a kind of technology that deals with individual atoms, molecules, and compounds turning into devices with unique properties. Just to illustrate how small this is, one millimeter is actually equal to 1,000,000 nanometers. Nanotechnology was already known since the 1950s, but it has been getting a lot of buzz in the medical industry with many developments recently. Some things that benefited from nanotechnology are electronics, transportation, and space exploration. Nanotechnology also made tremendous contributions in the realm of stem cell research. Currently, the latest advancements in nanotechnology are in the field of medicine. While developments are still at the experimental stages, this technology can be used for nefarious purposes, which will be discussed further below.
How is it used in humans? Scientists have found out that nanotechnology can be used in the medical field for many purposes. On a nanoscale, nanotechnology has the ability to deconstruct and adjust structures, thereby altering cell components, DNA, and viruses using tiny robots, tools, and tubes. Just to mention some, there are possibilities for nanotechnology:
Although nanotechnology can provide many benefits, especially in the medical field, it can also be an avenue to hack humans. Hacking Nanotechnology can pose as a big threat as much as a cure for a lot of people.
- Fast-tracked DNA analysis
- Cancer treatment plan
- Cell-targeting for treatments
- Toxin absorption
- Treatment for Parkinson’s and Alzheimer’s
- Clinical application in tissue engineering, ophthalmology, surgery, and immune responses
- Nanopharmaceuticals as early detection tools for cancer and other diseases
- Reduce internal bleeding
- Repair cells targeting specific diseases and increasing antibodies
Is medical nanotechnology safe? The question now is, how secure is this technology? Security is a matter of how technology was researched and tested. Being electronic devices, nanotechnology is also susceptible to hacking. Just like computers, nanotechnology is controlled by a program. If hacked, this technology can be configured to target good cells instead of bad cells. Entering into this new era in the field of medicine, scientists must take steps to ensure that this technology is hack-proof. In the wrong hands, the little computer inside your body might be exploited and used to cause injury to your own body.
What are the potential risks? Security flaws in nanotechnology can pose a dangerous threat. Some people worry that this medical miracle can also easily be used as a form of weapon. This technology can be used for bioterrorism by programming cells to do certain jobs, which can cause danger to the body. Similar to your computer getting a virus, nanotechnology devices can also get infected and take over your internal nanotechnology devices. This is a serious matter and should not be taken lightly, because the human body will be at risk. For example, some people have tried sabotaging pacemakers remotely. They found out that you could send signals wirelessly from laptops to pacemakers and order the device to deliver a fatal shock inside the body of a patient. It was later known that programming errors made this possible.
How to mitigate its risks? While there are many concerns on the security of medical biotechnology, risks can be mitigated much like other electronic devices. Risks can be lessened by regulating and strengthening the type of protection on nanotechnology medical devices. Manufacturers and scientists must do proper testing on all devices to ensure their safety. Penetration testing should be implemented in the medical field as well since this is an essential strategy to minimize the risks of this technology. These devices must go through many tests to expose all possible vulnerabilities so that they can be fixed before it gets on the bodies of patients. Despite the risks, nanotechnology can be used safely once it has been understood, researched, tested, and examined. Medical nanotechnology continues to face many challenges on its security and safety. But soon, just as with most kinds of technology and medicine, experts will be able to find a way to keep it secure to benefit the majority.
Conclusion Just as much as this technology can be miraculous, it can also be crippling if it is manipulated. However, with much research and testing, nanotechnology has a lot of potentials to make remarkable changes in the field of medicine. It’s only a matter of time before nanotechnology becomes legitimately used in hospitals.