Deus ex mankind divided wiki human restoration act
To help with this, Darrow Industries published the first genetic compatibility test in 2011 to determine if an individual's body would accept or reject augmentations. Among these people was the father of mechanical augmentations himself, Hugh Darrow. To prevent this, augmented individuals had to take Neuropozyne, which broke down the buildup of glial tissue.Įven with all the groundbreaking advancements into mechanical augmentations, there remained a very small percentage of the population whose bodies would still reject them due to being genetically incompatible. Not only did this compromise the effectiveness of the biochip, but it could also lead to rejection, known as Darrow Deficiency Syndrome (DDS). However, the biochips still suffered from glial tissue buildup around the PEDOT cluster, which is detectable by elevated levels of cytotoxic-M and DDS-Y enzymes in the matrix. The entire biochip would then be implanted into the host's brain and, because of the PEDOT cluster's entirely organic construction and its neuron to neuron interface, would be less prone to side effects.
The basis of the biochip was to use PEDOT, an organic conducting polymer, for the electrodes, which were attached to artificial neurons grown specifically for the device. In 2002, Darrow Industries made a breakthrough that would revolutionize augmentations: they pioneered the PEDOT cluster array to create a biocompatible matrix device known as the biochip. Hugh Darrow, founder of Darrow Industries, working in a lab This caused tissue injury and compromised the device's effectiveness.
While successful, the unfortunate side effect of using stiff metal electrodes was their vulnerability to impacts caused by bodily movements. Early augmentation projects addressed human diseases such as Parkinson's Disease, where patients had metal electrodes inserted into their brains to stop the tremors. While external prosthetics can be made from hypoallergenic materials, there was no such luxury when implanting devices in the brain. The main obstacle in mechanical augmentation was finding the perfect interface between man and machine. Technological Development Early Development It was the predecessor and research template to physiopharmaceutical augmentation and the much more advanced nanotechnological augmentation that came into use by the 2050s. With research beginning as early as the 2000s, mechanical augmentations became widespread by the 2020s. The only known way to counteract this is for the affected individual to take the anti-rejection drug, Neuropozyne, for the rest of their lives or else suffer from migraines, seizures, or even death. The most concerning of these is the body's rejection of the augmentations, known as Darrow Deficiency Syndrome. With technological advancement, it soon became the first method of augmentation which allowed people to assume superhuman abilities, albeit not without limitations. It is distinguished from basic limb prosthetics in that they interface directly with the central nervous system, as opposed to just the ends of peripheral nerves. Mechanical augmentation involves the use of cybernetics in order to improve or replace human body parts. Adam Jensen, Deus Ex: Human Revolution But what if we never need to feel weak or morally conflicted again?" " In the past we've had to compensate for weaknesses, finding quick solutions that only benefit a few. For a list of augmentations, see #List of Mechanical Augmentations.Īdam Jensen, a highly augmented individual in the 2020s This article is about the overview of mechanical augmentations in the Deus Ex universe. Spoilers for Deus Ex: Mankind Divided follow!