Each reply must be at least 150 words. Each thread and reply must include at least 1 citation in current APA format and at least 1 Scripture reference. Separate replies with two different reference list
Nelson & Staggers (2018) define futures research methodology as the rational and systematic study of an issue with the goal of identifying possible or probable futures. When studying the impact of technology on an issue, the futures research methodology can be used to identify the possible future implications. In recent years, there has been unprecedented progress in the field of nanotechnology, nanorobotics and nanoscience. Basically, nanotechnology is the study of the application of extremely small things to solve real-world problems. Some of the applications of nanotechnology in the healthcare area are nanomedicine, nanobots, and nanofibers (Netscribes, 2021).
Medicines developed using nanotechnology will have numerous benefits over traditional medicine. For instance, nanotechnology will pave way for the development of smart pills which are medicine with advanced functions such as sensing, imaging, and drug delivery (Groshev, Hirani, Grover, Pathak, & Sutariya, 2014). Besides, smart medicine will have fewer side effects when compared to traditional medicine. Smart pills will also enable the treatment of traditional incurable diseases such as cancer and other viral infections. For instance, technology such as nanoflares will have the ability to identify cancerous cells and accordingly help in destroying the cancerous cells (Netscribes, 2021).
Another application of nanotechnology in the field of healthcare is through the use of nanobots when developing health solutions. Essentially, nanobots are micro-scale robots that can be controlled by doctors to perform delicate medical procedures(Groshev, Hirani, Grover, Pathak, & Sutariya, 2014). Nanobots can even be used to correct deficiencies in the DNA structures. Nanobots offer unlimited possibilities in healthcare informatics. For instance, surgeons will be able to use nanobots to perform surgeries and other medical procedures without using risky traditional surgery techniques. Moreover, nanobots cuculid be programmed to self-multiply and this will make them able to fight incurable diseases such as cancer.
Another application of nanotechnology is the creation and use of nanofibers in treating wounds. Scientists are working on creating nanomaterials that could be used to use in tissue engineering (Netscribes, 2021). For instance, nanofibers can be used to create smart bandages that make it easier for wounds to heal. Finally, nanotechnology will in the future be used to create smart devices that monitor the health condition of a person. For instance, nanotechnology will be used to develop devices that monitor data such as the heartbeat, blood pressure, and health condition allowing for more proactive health solutions.
Reply 2:
anotechnology is described as a scientific area or part-handling molecules of Nanoparticles. Nanotechnology refers to the study of atomic particles or even molecular levels. It covers a broader range of physics, chemistry, material science, and molecular biology fields (Staggers et al., 2008). Nanotechnology is a science of significant miniature materials holding a central role in enhancing healthcare from effective issuing of drugs to delivering quality care to patients and much more. It has enabled the proper cancer treatment since physicians utilize magnetic nanoparticles to identify cancer in early stages, thus augmenting the patient’s chances of survival. Nanotechnology has a unique way of ending cancer cells by inserting nanotubes into cancer cells while exposing the tissues to heating from laser lighting. In doing so, healthy cells remain unharmed.
In the future, nanotechnology will impact health informatics and health IT positively. Nanotechnology poses the capability to revolutionize how health care providers and health informatics obtain medical data (Nelson & Staggers, 2016). For example, physicians can distribute Nano-scales diagnostics equipment or devices in the entire body of patients while detecting the chemical modifications. In doing so, it enables the actual time tracking of the health status of patients. Additionally, nanomedicine informatic enables sharing of patient information, collaboration, challenging representation and translation of data, incorporation of data, semantic search while ensuring their quality data, reproductivity, and reliability. In the future, nanotechnology is likely to contribute to the expansion and advancement of health informatics. Nanoinformatics utilizes informatics strategies in gathering, processing, storing, and retrieving data, knowledge, and information concerning nanoparticles, nanodevices, nanomaterials, and the potential utilization in health care. Informatics will take a central role in the future, especially in the implementations and development of nanodevices and nanoparticles and their application in living things and labs. In turn, this will result in informaticians coming up will new simulation strategies and models.
