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Nanofirst technology will develop NanoFeel alongside other doctors and recovered patients. Using simulated testing with nanotechnology and AI models on computers, the NanoFeel system will take note of things like human touch and the tone of a doctor’s voice when they talk to a patient. Through many rounds of testing, the Nanofirst technology replicates these behaviours and is able to provide more empathy towards the patient and make them feel more comfortable and safe. Patients describe their feels in real life situations and this system notes down all the actions that make patients comfortable. This reduces the gap between human empathy and technology. The Nanofirst technology evolves after its past patients and eventually realistically replicates human nature.

Nanofirst will develop a medical device called a NanoWatch. A NanoWatch is similar to an electronic watch and is worn on both a doctor and the Nanofirst technology. When a technology takes note of a life or death situation, such as an unusually high rate of bleeding or heart rate, it will trigger the alarm on the watch. A Nanosuit forms like a hologram on the doctor and it is transported to the destination of the patient immediately while the Nanofirst technology takes action to stop the bleeding or reduce unusual heart rate. The Nanosuit is powered through solar energy and hovers in the sky as well as containing emergency medical supplies. It transports the doctor to the patient faster.

Queensland will have an interconnected system to hospitals that have different purposes, such as for treating internal emergencies or for treating broken bones and torn muscles. Nanopods will be placed throughout the city and travel to a patient in the form of molecules when they are notified. These nanopods then join together with the oxygen molecules in the air to form a structure where a patient can lie on. It scans the patient and identifies which hospital the patient will be best treated in. These nanopods can also evaluate the background of a patient and assess why an accident happened. It then gives some insight to the doctor on how to treat the patient with the information it had recorded and its past experiences.

Nanofirst nanotechnology will create NanoMind, which is a sensor system to predict the external system of a patient. Examples of the things that a sensor can detect is heart rate, sweat, bleeding, and if there are any broken bones. This information is relayed to the doctor in real time through an interconnected system for all the hospitals in the city. A doctor is then able to confirm if the patient’s situation is dire and which specialised hospital a patient should be delivered to to ensure progression and recovery. Developing this sensor allows for doctors to have control and judgement of the severity of medical emergencies.

Nanofirst will create NanoHealth Networks, which connects doctors, biologists, and data engineers across Queensland through holographic interfaces monitored by medical nanobots. NanoHealth Networks keeps patient data safe by locking it in a system where only registered doctors can access it. When this data needs to be used, such as any special conditions or diseases, the NanoHealth Network will guide the doctor on what steps to take customised to a patient’s specific needs. This developed allows for patients to receive individual treatment with methods or medicines that doctors may have not considered using without the network.

Nanotechnology engineers can create controls for the nanoparticles being inserted into the humans body. This way the doctors can keep track of where the nanoparticles is and when it has done the job, they can remote control the nanotechnology out of the humans body safely.

Nanotechnology designers can design the nanobot helpers for the doctors so that it has memory and can hear the doctors talking to them. This way the doctors could treat the bots as actual learner doctors and give it important information and it would be able to remember it. This way in the future when dianosing the patient the bot would have a lot of knowledge from the doctor and be able to help the patent.

scanner engineers and nanotechnology engineers can work together to develop a new skill for the nanobots. The nanobots will be able to scan the issue of the body whether it is internal or external, it will scan the body and identify all the issues of it. This way it helps the doctor find solutions to the problems without actually telling the doctor what to do, which may be different to the actual solution.

scientists and nano particle engineers can create nanocytsts made of glucose. The nano cyst is breathed in then it travels through the blood stream to where it needs to be used and when it's done it travels though the blood to get pumped around the body where the glucose material it is made of can be used during respiration to make energy and carbon dioxide for the body, this way the nanoparticles are used and expelled while benefiting the health of the pateint.

Scientists and engineers of nano cysts can create a new design for nano cysts. Instead of using the material that cannot be broken down by the body they will find a more natural material that can be broken down with the stomach acid. This way when the nano cysts are done being used it travel through the blood stream into the stomach where it can be dissolved and removed from the body.

Nanotech engineers, x-ray engineers and doctors will develop the nanobot so that it can scan for the nano cysts and issues with the body, they will alsocreate a special nano syringe. This way the nanobots not only help doctors identify the issue but also they can help identify where the nanobots are by scanning the body of a pateint, they will then use the nano syringe to extract the nanoparticles. The syringe will attract the nanoparticles like magnets and it will suck it into the syringe then the doctors can remove it when the Leith shines green. The syringe will be very small since nanoparticles are so small so that the patients barely feels anything.

scientists can work to gather with nanotechnology engineers to make the nanoparticles detectable by x-rays. This way the doctors can use x-rays to see where the nanoparticles are in the body and they could suck it out or do a small surgery to remove the nanotechnology from the human body.