6. ARTIFICIAL INTELLIGENCE
Intelligence is defined as one’s capacity for logic, emotional knowledge, understanding, creativity, self-awareness, planning, learning and problem solving. It can also be ability to perceive information, and retained the knowledge gained in order to apply it to adaptive behaviors within the context or an environment.
Artificial intelligence (AI) is machine exhibited intelligence. It becomes an applied terms when machine mimics cognitive functions of human associate with other human minds like learning and problem solving skills.
This field was founded based on the fact that human intelligence can be precisely described and machine could be used to stimulate it. This raises philosophical arguments on the ethics of
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TELEHEALTH NURSING
Telehealth nursing is a practice of nursing where large physical distance exist between nurse and patient through the means of telecommunication technology. It is used interchangeably with telenursing and nursing telepractice which still means the same thing. Home telehealth nursing and telehomecare is another term meaning the same thing to describe telehealth nursing. All these terms mean the use of technology in homecare setting to deliver nursing care remotely.
Nurses who practice telehealth come from all settings and use technology like web cameras, VOIP, the Internet and telephone lines to deliver care over a long distance. Telehealth care is effective despite being remote. Telehealth nurses are committed to leveraging technology and nursing expertise to provide quality nursing care, to deliver nursing expertise to those in need of care, to improve health and patient outcome, which can take place in patient’s home, hospital setting or any place that has proper technology. Telehealth nursing should be broad based using technologies to provide care in an interdisciplinary manner, Inspite of geographic and time
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10. BAR-CODE MEDICATION ADMINISTRATION SYSTEM
Barcode medication administration system is designed to make sure that the right drug is given through the right route to the right patient in right amount at the right time. It is believed to prevent medication administration errors.
Medical error has been identified as a major threat to patient safety. It is responsible for 44,000-98,000 deaths per year and the leading cause of this error related to inpatient deaths is adverse drug events with estimated 7,000 death annually.
This system consist of barcode reader, portable computer with wireless connection, a server, and software. At the healthcare setting when the nurse wants to give the medicines to the patient, the nurse can now scan barcode on the wristband of the patient to ensure that it is the right patient, then scan the barcode on medicine, to verify the right medicine, the right dose at the right time by the right route. Barcode is designed as an additional check to aid the nurse in administering
I am truly amazed by the positive impact of bar-code medication administration (BCMA). Since we have a fully integrated electronic health record, it is a true closed loop-system, with medication order entry, pharmacy validation of medications, and clinical decision support. Implementing technology such as BCMA is an efficient way to improve positive identification of both the patient and medication prior to administration. It is estimated that the bar-code medication charting can reduce medication errors by 58% (Jones & Treiber, 2010). Even though we have good adoption of BCMA, nurses still make drug administration errors. In many of the cases, errors are caused by nurses, because they do not validate and verify. The integration of technology
This technology assist the nurse in confirming patients identify by confirming the patients’ dose, time and form of medication (Helmons, Wargel, & Daniels, 2009). Having an EHR also comes with a program that allows the medical staff to scan medications so medication errors can be prevented. According to Helmons, Wargel, and Daniels (2009) they conducted an observational study in two medical –surgical units one in the medical intensive care (ICU) and one in the surgical ICU. The researchers watched 386 nurses within the two hospitals use bar code scanning before they administrated patients’ medications. The results of the research found a 58 % decrease in medication errors between the two hospitals because of the EHR containing a bar code assisted medication administration
Telehealth is the monitoring via remote exchange of physiological data between a patient at home and health care professionals at hospitals or clinics to assist with diagnosis and treatment. As our society ages and health care costs increase, government and private insurance payers are seeking technological interventions. Technological solutions may provide high quality healthcare services at a distance, utilize professional resources more effectively, and enable elderly and ill patients to remain in their own homes. Patients may experience decreased hospitalization and urgent care settings, and out of home care may not be required as the patient is monitored at home. However, no study has been able to prove telehealth benefits conclusively. This change in health care delivery presents new ethical concerns, and new relationship boundaries between health care professionals, patients, and family members. This paper will discuss telehealth benefits in specific patient populations, costs benefits of using telehealth, and concerns of using telehealth.
The Medication Administration Accuracy Project is a quality improvement project, whose purpose is to improve the accuracy of nursing medication administration. The study used for this project was to find where the most common “wrong doings” happened in the medication process and how to get rid of it. After a year of this project the medication error percent went from 4.3% in 2010 to 1.2% in 2011. The Bar Code Administration System implementation had been very successful with a 95% success rate every year that it is done. The study provided important insight on reducing the medication errors in children. Some were: making sure there are no distractions as possible, double checking medications and making sure the dose in adequate range for the child, and making sure you have two ways of identification with the bar code scanning (Hardmeier, A., Tsourounis, C., Moore, M., Abbott, W., Guglielmo, J.
Properly implemented and medication-use technology has the potential to moderate these costs. Bar-code-assisted medication administration (BCMA) has been shown to reduce medication administration errors by as much as 54-86%. BCMA, along with computerized electronic prescriber order entry and an electronic medication administration record, closes a technological loop that extends from the transmission of the order to the administration of the medication at bedside (Strykowski, Hadsall, Sawchyn, VanSickle, Niznick,
...ide will validate the correct medication, dose, time route and patient during the medication process (Seibert, Maddox, Flynn, & Williams 2014). With any new technology there could be a few issues or problems associated with a learning curve. One is being work-arounds of the system that staff may exercise which cause lead to different or increase of errors. Ignoring overrides warnings as they displayed to the user could create issues as well. Medication errors are still likely to happen during the medication process however barcode technology can help reduce the frequency by providing a safety net within the process. The main goal for the nurse during medication administration is that the patient receives the correct medications with no adverse reaction and barcode technology can assist preventing errors during the process (Seibert, Maddox, Flynn, & Williams 2014).
Young, J., Slebodnik, M., & Sands, L. (2010). Bar code technology and medication administration error. Journal of Patient Safety, 6(2), 115-120. doi:10.1097/PTS.0b013e3181de35f7
The official foundations for "artificial intelligence" were set forth by A. M. Turing, in his 1950 paper "Computing Machinery and Intelligence" wherein he also coined the term and made predictions about the field. He claimed that by 1960, a computer would be able to formulate and prove complex mathematical theorems, write music and poetry, become world chess champion, and pass his test of artificial intelligences. In his test, a computer is required to carry on a compelling conversation with humans, fooling them into believing they are speaking with another human. All of his predictions require a computer to think and reason in the same manner as a human. Despite 50 years of effort, only the chess championship has come true. By refocusing artificial intelligence research to a more humanlike, cognitive model, the field will create machines that are truly intelligent, capable of meet Turing's goals. Currently, the only "intelligent" programs and computers are not really intelligent at all, but rather they are clever applications of different algorithms lacking expandability and versatility. The human intellect has only been used in limited ways in the artificial intelligence field, however it is the ideal model upon which to base research. Concentrating research on a more cognitive model will allow the artificial intelligence (AI) field to create more intelligent entities and ultimately, once appropriate hardware exists, a true AI.
A barcode is a visual representation of data that is checked and utilized for data. Bar code is simple to control equipment and tool inventory. In facilities supervisors can use barcodes to link work orders, purchase orders, spare parts and equipment which can be further used to track and collect cost. In barcodes historical data can be used to predict the seasonal fluctuation accurately. Barcodes are printed specifically on the paper or a plastic object, therefore actualizing a standardized identification framework is far less expensive than the RFID innovation.
In order to see how artificial intelligence plays a role on today’s society, I believe it is important to dispel any misconceptions about what artificial intelligence is. Artificial intelligence has been defined many different ways, but the commonality between all of them is that artificial intelligence theory and development of computer systems that are able to perform tasks that would normally require a human intelligence such as decision making, visual recognition, or speech recognition. However, human intelligence is a very ambiguous term. I believe there are three main attributes an artificial intelligence system has that makes it representative of human intelligence (Source 1). The first is problem solving, the ability to look ahead several steps in the decision making process and being able to choose the best solution (Source 1). The second is the representation of knowledge (Source 1). While knowledge is usually gained through experience or education, intelligent agents could very well possibly have a different form of knowledge. Access to the internet, the la...
In considering the definitions and implications of Artificial Intelligence, many philosophers have reached extremely different conclusions. Alan Turing, author of the Turing Test, believed that an intelligent machine would be able to imitate perfectly a human. Margaret Boden, Professor of Philosophy and Psychology at the University of Sussex, contends that a machine is intelligent if it possesses and displays certain human values. Moving away from the pure...
Barcodes are used everywhere around us. They are used to track products through shipment, track products at a store and speed up and enhance the checkout process, as well as allowing faster access to information. Barcodes began to be used heavily in the 1970’s. This began a great movement in the consumer industry, speeding up the checkout process and allowing easier inventory tracking. However, just like all technologies, barcodes have been enhanced many times over and are being replaced by better, more efficient systems (Bonsor).
Telehealth nurses use the nursing process to provide care for individual patients or defined patient populations over a telecommunication device” (Stokowski, 2008).
Artificial Intelligence is the scientific theory to advance the scientific understanding of the mechanisms underlying thought and intelligent behavior and their embodiment in machines. This is going to hold the key in the future. It has always fa...
Artificial Intelligence “is the ability of a human-made machine to emulate or simulate human methods for the deductive and inductive acquisition and application of knowledge and reason” (Bock, 182). The early years of artificial intelligence were seen through robots as they exemplified the advances and potential, while today AI has been integrated society through technology. The beginning of the thought of artificial intelligence happened concurrently with the rise of computers and the dotcom boom. For many, the utilization of computers in the world was the most advanced role they could ever see machines taking. However, life has drastically changed from the 1950s. This essay will explore the history of artificial intelligence, discuss the