Introduction
Today, robotics is used in a wide range of fields, including healthcare, social interaction, and education. Robotics in healthcare provides for improved patient care and better health outcomes. There is a chance to help more individuals with these physical systems that might alter treatment methods, diagnostics, and patient monitoring. In general, robots in healthcare help relieve caregiver overwork and help identify solutions to health problems that can't be solved right now. Robotics is beneficial for nursing care, specifically to carry out everyday chores like medicine distribution and medical supply retrieval. This essay seeks to examine the key ideas of the chosen topic and provide some relevant personal experiences.
Key Characteristics and Experience of Robotics in Healthcare
One of the most complex fields that is usually used in healthcare is socially assistive robotics (SAR). This kind of support is based on many patient-focused programs that offer some interaction formats (Rabbitt, Kazdin, & Scassellati, 2015). For instance, it is particularly important for older patients who frequently experience loneliness and parental neglect. While nurses are unable to spend enough time with these patients, robots could take their place. According to studies, robots that interact with patients might play a variety of functions, such as buddies or coaches (Kachouie, Sedighadeli, Khosla, & Chu, 2014).
approach.
Robots may mimic some answers given by elderly people when they wish to tell a tale using microphones and cameras, and they may also track changes in their patients' conditions. More specifically, the aforementioned technologies may also enable nonverbal communication. As a result, nurses have more time and energy to focus on activities that require human judgment and original thinking.
By bringing about quantifiable changes and fostering improved communication between patients and caregivers, robotics may enhance healthcare practice. The ability to observe changes quickly and the automation of operations are two of this technology's primary benefits.
Patients that require certain services may be sent to robots by nurses, who will then assess the results. A patient's performance increases while a nurse robot is watching them.
A person starts to become more engaged with the world around them, developing a greater interest in life, and healing happens more quickly. According to Rabbitt et al. (2015), in addition to technological advancements, societal confidence-building initiatives are also necessary for the growth of SAR. Any patient's rehabilitation depends in large part on the compatibility of the physicians and nurses providing the therapy (Rabbitt et al., 2015). Because a robot's behavior should be entirely predictable and secure, a patient using a robotic system for assistance should gain total trust in the device.
It becomes clear that additional investigation is needed to strengthen robots' confidentiality in order to avoid illegal access to patient data.
I have personally seen the benefits of a robotic mattress for people who suffer from pressure ulcers. A unique pressure mapping technology was employed at one of the organizations where I have worked as a nurse to assist such patients. Over the course of three months, I learned that robotic mattresses' automated turns greatly reduce pressure ulcer discomfort. Patients also stated that they felt better overall compared to resting on ordinary mattresses because of the enhanced degree of comfort. The fact that nurses obtained improvements in patient care is another benefit connected to their influence on clinical practice.
My experience is in line with recent findings from a scholarly study in the area of robots and healthcare. Saegusa, Noguchi, Nakagami, Mori, and Sanada (2018) investigated volunteers who were prepared to take part in the experiment based on establishing an automated inner air-cell pressure adjustment mattress. The key benefit of the stated intervention, according to the authors, was the person's greater immersion. As a result, there was less pain, and the participants said they had a good experience using robotic mattresses. Better tissue oxygenation and deeper bodily immersion are a couple of the indicators that it works.
Conclusion
To sum up, it should be emphasized that healthcare robots aim to enhance processes and offerings, making treatment more thorough and effective. Automation, patient support, ongoing monitoring, and less effort for nurses are the main benefits of the technology indicated. Robotics, specifically in the nursing field, encourages improved collaboration between patients and caregivers since the latter may devote more time to fostering empathy and trust.
It was discovered that by responding appropriately to patients' words and interacting socially with them, robots might benefit patients. Robotic mattresses improve overall disease management and boost comfort for individuals with pressure ulcers. I want to put these findings to use in my nursing care by putting them into practice right away and encouraging other people to utilize robots.