Advanced nursing practice requires practice expertise and specialized knowledge in making diagnostic and practice management decisions. Dnp-810a: emerging areas of human health course give learners an insight into emerging areas of human health to improve health outcomes and establish programs of clinical excellence and emphasizes guidance and coaching of individuals and families through developmental, health-illness, and situational transitions from a holistic perspective. Learners are expected to integrate and synthesize core program competencies and specialty practice requirements necessary to demonstrate proficiency in advanced nursing practice.
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Health informatics is a representation of the intersection of information technology and the design and delivery of health care services. The emerging healthcare technologies provide a wealth of data that helps healthcare professionals to provide quality patient care. Most importantly, it is crucial for health informatics experts to comprehend how to leverage data, build effective information healthcare tech systems and share insightful ideas, discoveries, and data across various health care organizations.
The following are the various emerging areas that are positively influencing the health care sector:
1. Artificial intelligence (AI).
What is Artificial intelligence?
Artificial intelligence (AI) is a wide-ranging branch of computer science concerned with building smart machines capable of performing tasks that typically require human intelligence.
Artificial intelligence is a technology that is designed to mimic human cognitive processes. This form of deep learning utilizes neural networks with multiple layers which can analyze large volumes of complex data.
Applications of artificial intelligence in healthcare.
There are numerous AI applications that are in use. This is partly due to Google deepmind health which builds AI and mobile tools that mine medical data to improve the delivery of patient care by healthcare facilities. In addition, this AI technology also aids in efficiently identifying cancerous and healthy tissues on CT and MRI scans of patients with head and neck cancer for more targeted radiotherapy treatment.
Robotics is the design, engineering, and use of robotic machines to perform partially- or fully-automated physical cognitive functions.
Applications of robotics in healthcare.
The system uses minimally-invasive surgical instruments and 3D high-definition visuals to enhance accuracy and control. Moreover, wearable robots such as robot prostheses to replace missing limbs or robot exoskeletons to aid paralyzed people are used to rehabilitate or enhance a patient’s physical capabilities.
3. 3d bioprinting.
3D bioprinting is the printing of solid, three-dimensional objects from a digital file with an additive process utilizing different materials like liquid metals, polymers, ceramics, epoxy resin, or living cells.
Applications of 3d bioprinting in healthcare.
Bioprinting living human tissue using stem cell bioink has the potential to reduce the shortage of organs for life-saving transplants. Most importantly, bioprinted organ tissues are being used for drug testing and development. Furthermore, 3D-printed drugs can be personalized to specific patient needs, such as the FDA-approved Sprintam.
Nanomedicine uses nanotechnology.
What is nanotechnology?
Nanotechnology is the study of molecular structure – for developing precise devices to advance biomedical research and clinical practice.
Nanomedicine informatics is required for integrating large, complex data sets at the nano level, implementing nanoparticles in living organisms, and smart drug delivery.
Applications of nanomedicine technology in healthcare.
Nanorobots injected into a patient’s bloodstream can be used for drug delivery and disease monitoring. In addition, therapeutic nanoparticles also have multiple applications in cancer patients, like improving circulation and delivering a more sensitive diagnosis and imaging.
5. Cloud computing.
Cloud computing allows the delivery and access to computing services and resources over the internet, including developmental platforms, databases, and analytics.
Applications of cloud computing in healthcare.
Cloud computing has various applications in the health care field. One benefit of cloud computing in healthcare is its capacity for high-volume data storage which results in lower costs for health care organizations. In addition, real-time information sharing can also lead to better communication, especially in times of disaster. Remote patient monitoring and doctor interactions produce better patient care. Moreover, faster data sharing can lead to improved medical research.