The placement of implantable chips into patients for the purpose of accurately identifying patients and properly storing their medical history records has become a subject of a strong debate. Making sure patients are properly identified before a procedure and storing their health history records for future use has been difficult, if not impossible. The idea of being able to retrieve accurate patient’s medical history for a follow up care without relying on patient’s memory is a challenging task for many healthcare organizations. Many ideas and technologies have been introduced over the years to help solve this problem, but unfortunately the problem is still not fully resolved. There are still many errors in the healthcare due in part by improper record keeping and inaccurate patient identification. One idea that has being in discussion to eliminate these problems for good, is the introduction of a chip or radio frequency identification (RFID) technology implanted into human for the purpose storing medical data and accurately identify patients. VeriChip Corporation is currently the maker of this implantable RFID chip. They are the only corporation cleared by the U.S. Food and Drug Administration (FDA) to make this implantable radio frequency transponder system for humans for the purpose of identifying patients and storing their health history information. The chip was first developed for the use of radar systems by Scottish physicist, Sir Robert Alexander Watson-Watt in 1935 just before World War II. (Roberti, 2007). This technology helps identify approaching planes of the enemy from mile away. Today, RFID has several uses. It is used for animal tracking. It is attached to merchandise in stores to prevent theft. It can be instal... ... middle of paper ... ...(2010). Convenience and safety vs. privacy: the ethics of RFID. Retrieved March 2012 from http://ethicapublishing.com Pillows. J. (2007). Trust-worthy computing: Privacy issues (RFID). Retrieved Marc 2012, from www.citebm.business.illinois.edu Roberti, M. (2007). The History of RFID technology. RetrievedMarch, 2012, from http://rfidjournal.com/article Wolinsky, H. (2006, October). Tagging products and people. espite much controversy; radiofrequency identification chips have great potential in healthcare. Science and Society, 7(10), 965-968. Wen, Y., Chao-Hsien, C., and Zang, L. (2010). The use of RFID in healthcare. Benefits and barriers. Retrieved March 2012 from http://personal.psu.edu. Woo, A., Ranji, U., & Salganicoff, A. (2008). Reducing medical errors with technology. Retrieved March, 2012, from http://kaiseredu.org
Patient personalized health cards are also long underling technology that might provide patient a freedom of owning his/her PHI. Transferring data from one hospital to another wouldn’t be a challenge with this password protected health cards. Privacy wouldn’t be much of an issue as all the information is stored in the chip of the card that can be retrieve by a healthcare provider or by patient when needed.
...uys out. In conclusion, a warning, technology is there to guide and help a physician it is not, nor has it ever been intended to replace the physician patient relationship.
Miller, R., & Sim, I. (2004). Use of electronic medical records: Barriers and solutions. Retrieved June 29, 2011, from http://content.healthaffairs.org/content/23/2/116.short
Advances in technology have influences our society at home, work and in our health care. It all started with online banking, atm cards, and availability of children’s grades online, and buying tickets for social outings. There was nothing electronic about going the doctor’s office. Health care cost has been rising and medical errors resulting in loss of life cried for change. As technologies advanced, the process to reduce medical errors and protect important health care information was evolving. In January 2004, President Bush announced in the State of the Union address the plan to launch an electronic health record (EHR) within the next ten years (American Healthtech, 2012).
Smart cards give emergency doctors more time for patients ... (n.d.). Retrieved from http://www.albertahealthservices.ca/5272 .asp
* Dipert, Brian. "READING BETWEEN THE LINES: RFIDs confront the venerable bar code. " Edn 14 Oct. 2004: 48-50,52,54,56,58.
Radio frequency identification (RFID) chip inserts for people are no more the stories of science fiction. Effectively basic discoveries have demonstrated that the quantity of individuals prepared to get chipped has expanded subsequent to the innovation's business landing in 2002, in spite of the way that reception rates have been low. This examination shows three contextual investigations of the fundamental clients of human centric chip inserts.
Within the scope of our findings, there were no major conflicting ideas about the use of electronic barcode medication-administration systems. One study even reported that there were no new types of error in the medication administration process after implementing the barcode medication-administration system into their care (Seibert,H.H., et. al, 2014). There were however some differences in the type of barcode scanning systems used in the research, which can cause some conflicting ideas as to which system was better for reducing medication errors or more user
Smart cards also can provide complete identification in certain industries like healthcare. There are numerous benefits of using smart cards for identification. In circumstance like there is a patient who is brought in unconscious or unable to speak, these cards can be used by health professionals to identify him or her to give the appropriate treatments. Now, there’s smart health cards that can improve the security and privacy of patient information which can reduce healthcare fraud. They also support new processes for portable medical records and provide secure access to emergency medical information.
Radio frequency identification (RFID) is a computerized ID innovation that uses radio recurrence waves to exchange information between an onlooker and things that have RFID gadgets, or tags, attached. The tags hold a microchip and receiving wire, and work at universally distinguished standard frequencies. Barcodes are much smaller, lighter and easier to use than RFID. But RFID offers significant advantages. One major advantage of RFID is that the innovation doesn't require any observable pathway; the tags can be perused as long as they are inside the range of the spectator, whereas in barcodes in order to read the barcode the barcode scanner should close around 10-15 fts.
California inventor Mike Biegal first introduced the basic prototype for the microchip used in the biochip transponder in 1979. The chips are tiny, passive electronic devices ranging in size from12 to 18mm in length and 2.0 to 3.5mm in diameter. All chips are individually inscribed and programmed to store a unique, permanent, 10-15-digit alphanumeric identification code. The GPM is coupled with an antenna and is sealed in an inert glass capsule. It is implanted into a living being using the same procedure as a routine vaccination. Immediately following implementation the tiny device remains inside the bein...
Medical errors can happen in the healthcare system such as hospitals, outpatient clinics, operating rooms, doctor’s offices, pharmacies, patients’ homes and anywhere in the healthcare system where patients are being treated. These errors consist of diagnostic, treatment, medicine, surgical, equipment calibration, and lab report error. Furthermore, communication problems between doctors and patients, miscommunication among healthcare staff and complex health care systems are playing important role in medical errors. We need to look for a solution which starts changes from physicians, nurses, pharmacists, patients, hospitals, and government agencies. In this paper I will discuss how does the problem of medical errors affect our healthcare delivery system? Also how can these medical errors be prevented and reduced?
Medical records are already a huge part of the medical industry and pretty soon electronic medical records will be a standard in all doctors’ offices and hospitals. These records are still in the integration process so not all doctors and hospitals are using them yet. There needs to be a way to reassure patients that when they have their information entered into electronic records they are safe and that the people who work with those records are handling them properly. Electronic medical records also need to be protected from outside threats as well as any accident that could occur with software or hardware malfunctions. Medical entities need educating to ensure these records are going to be protected.
The health system is notorious for high costs and the serious quality problems. Alarming rate of medical care errors persist. In the past, health care has had preeminent concerns (Porter & Teisberg, 2006). The major concerns include diagnosis errors, preventable errors in treatment are common, best practices...
The debate on whether the increasing implementation of RFID is constantly going back and forth. As the technology has found its way into licenses and passports. The continuing theme of this, is that the RFID in various forms of identification will allow certain authorized individuals the ability to access information on a specific person and have resources such a criminal record, known aliases, or any other information that might protect against a security threat. Although the basic belief is that only having simple basic information stored on RFID tags is harmless, the truth is that even the most simplest of data can eventually become important. Tadayoshi Kohno thinks the security of information should be taken seriously, “Information and uses evolve over time and these things can reveal more than we initially expect.” (Naone, pg 73)