The healthcare industry is an ever-changing sector in which technology has significantly impacted patient care and management. Some emerging health-related technologies include Radio-Frequency Implantable Devices (RFID) and Smartcards for easier management of patients’ medical information. This paper aims to discuss these technologies, including their advantages and disadvantages, ethical and legal issues, practicality in the healthcare setting, and recommendations for implementation.
Pros and Cons of RFID and Smartcard Technologies
Among the key benefits of using RFID or smartcard technologies in healthcare include enhancing patients’ safety. These devices provide a more efficient way to identify patients and access their data. As soon as they get to a hospital, doctors can scan through their RFID implant or Smartcard to retrieve their medical history, thus reducing the chances for misdiagnosis or treatment errors, culminating in unsafe environments. Besides, there is vast information about diseases once contracted by one, previous medications administered to them, already known allergies, and how they have always dealt with them before, if any. Consequently, this not only assists clinicians with accurate records but also ensures they can act swiftly even when emergencies knock on doors (Sellers, 2021). Therefore, it is highly beneficial for patients with complicated past illnesses or chronic sicknesses since it helps manage such conditions effectively.
Another advantage of RFID and Smartcard technologies can be realized when improving administrative efficiency within healthcare facilities. This will reduce manual workloads associated with writing reports, for example, enabling healthcare professionals to concentrate on providing direct care to their clients rather than spending much time on other tasks like typing documentation in hospitals. Automating these tasks would mean higher cost-effectiveness. Hence, both parties benefit from such entities’ improved financial performance in terms of indirectly saving money while boosting service quality directly or vice versa. Moreover, manual data entry is more prone to errors than RFID and Smartcard technologies (Sellers, 2021). The inaccuracies of human beings in entering patients’ information wrongly lead to medical errors like misdiagnoses or improper treatment plans. These devices can avoid those mistakes, leading to improved healthcare delivery outcomes.
Despite the potential of RFID and smart card technologies, they come with several challenges and drawbacks regarding their use in healthcare settings. Privacy concerns have been among the most significant ones, especially regarding the use of RFID implants. The idea of following humans permanently by implanted devices causes both ethical and privacy questions. Some patients may be anxious about having inside them a device that could be secretly used for monitoring or collecting illegal information. Security risks also pose critical threats to these technologies (Sellers, 2021). Both RFID and smart cards can be hacked and accessed by unauthorized persons. Leaking patient records might bring about severe repercussions like violating personal privacy, which can lead to meaningful insecurities. Thus, it is essential to ensure robust cyber security controls to safeguard patient data adequately. Implementing these technologies, including Radio-Frequency Identification (RFID) and smartcards, will require high initial costs, which may not be affordable to healthcare facilities due to limited resources. Smaller healthcare providers may need help to allocate such funds for an investment of this kind.
Additionally, some patients cannot undergo RFID implantation due to medical conditions or do not want it done on their bodies (Sellers, 2021). Thus, people with specific medical illnesses or disabilities might not enjoy the benefits offered by these technological solutions, such as implants. Even though smartcards are less invasive than other options, they can still get lost or damaged, leading to loss of data and inconvenience for patients.
Concerning the everyday usage of intelligent tools, incorporating RFID and Smartcard technology into healthcare parallels the general trend towards using intelligent gadgets in life situations. Different individuals already own many various types of smart gadgets that perform different functions, such as smartphones, wearable fitness trackers, and even smartwatches-for In summary, so many people currently rely on their smartphones; hence, they are now part of our lives-atherosclerosis prevention is one area we need more research on (Abdullah et al., 2021). They have become indispensable in managing daily tasks, monitoring health, and enabling communication. Personal smart devices have gained popularity in healthcare for measuring vital signs, exercise tracking, and disease management. For example, people use wearable fitness trackers to monitor their heart rates, the number of steps covered during the day, and how they sleep at night (Abdullah et al., 2021). The devices connect to smartphone applications so individuals can easily track their health data. The popularity of smartphones has also led to telemedicine and remote patient monitoring using such devices. Patients can now use smartphone applications and wearables to send medical data to doctors for real-time consultations and remotely oversee their health conditions. This has been helpful primarily through COVID-19, when access to healthcare was minimal due to lockdowns, amongst other challenges (Abdullah et al., 2021). Moreover, the extensive use of smart gadgets in our personal lives indicates that people are comfortable with technology for convenience and better health outcomes. This introduction of similar technological resources into medical centers will not only align itself with such trends but also make it possible to enhance further the quality of treatment offered while more effectively managing data.
Ethical Aspects: Legal Responsibilities and Social Implications
Patient privacy is among the leading ethical issues. Implantable RFID devices raise privacy concerns because they track individuals permanently. Informed consent from patients should be obtained before implanting RFID devices, and robust security measures should be implemented to prevent unauthorized access to their medical information. Transparency in data collection and usage must prevail so that patients retain control over healthcare data about them. Legally and ethically, the security of patient data must be ensured by all means necessary (Mphande, 2020). To safeguard against breaches and cyberattacks, stringent cybersecurity measures must be implemented to ensure the safety of patient information. Healthcare organizations must invest in strong encryption, access controls, and regular security audits for sensitive medical data protection purposes. RFID and Smartcard technologies should be adopted equitably (Mphande, 2020). This technology should be accessible to all patients regardless of socioeconomic status or geographic location.
Failure to do so can exacerbate health disparities by denying some populations the benefits of improved data management and patient safety. In this regard, every person who could go through this process must know what is involved before making up his or her mind. For example, while some individuals may view an ear tag with a built-in cell phone as an improvement on what already exists, others see it as yet another violation of human rights (Mphande, 2020). Improved evidence-based care plans would enable workers to deliver more effective services by eliminating redundancy. Leading them with accurate information regarding the use of these implants will make it easier for them to accept or refuse such procedures since they would have understood how advantageous or disadvantageous it would be to take such an action. Thus, people are supposed not only to get permission from their employers but also to ask for consent from their employees (Mphande, 2020). Otherwise, it would be hard on its employees if its objectives were met.
Scenario and Policy Considerations
For successful integration in healthcare settings, there must be clear policies and procedures for using such technologies: Healthcare providers can use authorized and secure systems to access patient information from smartcards. Secure portals may also be available for the patients to access their records while managing their health. The extent of patient access to their data should be carefully defined, ensuring the balance between data security and patient empowerment (Costa et al., 2021). Healthcare facilities should have a backup system regularly synced with Smartcard data to avoid concerns about data redundancy. Thus, even if there are technical problems or the card is lost, critical medical information would still be accessible. This article states that smart cards promote continuity of care across different settings if adequately implemented.
Some groups will benefit significantly from using smartcard technology. For instance, those individuals who suffer from chronic diseases like diabetes and high blood pressure can better monitor their disease progression by use of these devices. In other instances, such as those suffering from Alzheimer’s disease, it could save lives by enabling immediate release of medical information prior to emergency treatment (Costa et al., 2021). Healthcare facilities must formulate comprehensive policies for patients with potential smart cards. This should include cyber-security measures. Its employees should receive training on how to preserve patients’ confidentiality as required by law.
Conclusion and Recommendation
The use of RFID and smartcard technologies in healthcare brings many benefits, including better patient safety, a high level of efficiency, and reduced administrative burden. However, these advantages must be weighed against the ethical, legal, and social implications, such as privacy concerns, security threats, and fairness problems. It is recommended that health organizations should evaluate the potential advantages and obstacles to choosing in this regard within their contexts. To guide the implementation process, there ought to be an all-inclusive approach that places a premium on patient consent, data security, and equity. More research may be needed to establish how RFID and Smartcard technologies affect patient care and records management over time. After that, it is essential to ensure that these technologies are integrated into healthcare responsibly, promoting efficient and safe healthcare delivery while upholding individual rights to privacy and self-determination.
References
Abdullah, S., Xiao, G., & Amaya, R. E. (2021). A review of the history and current literature of metamaterials and its applications to antennas and radio frequency identification (RFID) devices. IEEE Journal of Radio Frequency Identification, 5(4), 427-445. https://ieeexplore.ieee.org/abstract/document/9465350
Costa, F., Genovesi, S., Borgese, M., Michel, A., Dicandia, F. A., & Manara, G. (2021). A review of RFID sensors, the new frontier of the Internet of Things. Sensors, 21(9), 3138. https://www.mdpi.com/1424-8220/21/9/3138
Mphande, T. (2020). A secure patient monitoring and tracking system for the university teaching hospital uses RFID and the Internet of Things (Doctoral dissertation, University of Zambia). https://dspace.unza.zm/handle/123456789/6634
Sellers, B. G. (2021). Global Surveillance: The Emerging Role of Radio Frequency Identification (RFID) Technology. In The Pre-Crime Society (pp. 455-482). Bristol University Press. https://bristoluniversitypressdigital.com/edcollchap/book/9781529205268/ch020.xml