PowerPoint Presentation.

Topic: Healthcare Information research and innovation.

– 8 slides.

– 3 references with in 5 years.

(1 must be course textbook), Include introduction, a currently emerging healthcare technology system, goals for the product date supporting the product, healthcare setting( including education), Conclusion. Do you need to use a world, where I resume all the contest to make the PowerPoint. NUR 300 Miami Dade College How to improve Negative Pressure Rooms PPT

How To Improve Negative Pressure Rooms

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Introduction

Insights into how to improve negative pressure rooms can be hard to come by. It is not known how to improve negative pressure rooms for patients who need to be isolated while in hospital. Also called isolation rooms, negative pressure rooms are quite literally rooms in which patients can be kept isolated from other staff or patients. These rooms are predominantly used in cases of very contagious diseases or conditions to protect the rest of the hospital. These rooms are intended to keep the patients themselves safe, and to keep the other patients and staff of a given hospital of healthcare system safe. However, these rooms are hazardous to the physical health and wellbeing of the patients who are restricted to them. The experience within these negative pressure rooms, however, can tend to be rather poor. This is not only because the placement of an individual into a negative pressure room comes about due to poor health conditions. Rather, even for patients that may have contagious symptoms but are not necessarily in pain – such as recent cases of asymptomatic COVID patients in this most recent global pandemic – isolation rooms can prove vital. In addition, in these situations, there can be very negative consequences to being in isolation for extended periods. Some of these consequences include changes in eye pressure due to environmental maintenance within the isolation unit. Other consequences include biological and muscular deterioration brought on by lying in bed for extended periods (Gerber, et. al., 2018). By focusing research on the management of physical health, patient experiences in negative pressure rooms can be incrementally improved. By extension, stays in these isolation spaces can be improved due to improved physical experiences by patients. Solving the problem of discomfort for patients in negative pressure rooms goes a significant distance to improving the experience of these spaces in general. Working through technologies to improve discomfort caused to patients’ eyes, necks, and cardiovascular bodily systems provides guidance on how to improve the experience of negative pressure rooms in general. NUR 300 Miami Dade College How to improve Negative Pressure Rooms PPT

Currently Emerging Healthcare Technology System

A currently emerging healthcare technology system related to negative pressure room improvements is the Disposable Negative-Pressure Anterior Chamber Paracentesis Syringe. This syringe is meant to reallocate the pressure in the eye to allow effective needle placement to relieve eye pressure inconsistencies (Hangzhou Sightnovo, 2020). The means the pressure of the eye can be regulated even if a patient’s time in a negative pressure room cannot. The management of the air in the negative pressure room need not have any impact on the eye health of patients with this emerging technology. This is one major way that negative pressure rooms can be improved – making use of this technology for the good of patients. In the case of negative pressure rooms, this technological usage must entail management of the physical and ocular wellbeing of patients. Furthermore, additional technologies are emerging related to the physical atrophy of the body during periods of stagnation.  Research into the management of neck pain to prevent patients kept in isolation rooms from developing sleep apnea is also ongoing (Gerber, et. al., 2018). The risk that the sleeping arrangements of negative pressure rooms can put on patients also relates to the cardiovascular hemodynamic functions of the body. These two risks of the negative pressure rooms, additional to the eye pressure risks, can make staying in an isolation room for long periods of time, significantly dangerous to patients. Thus, the effective analysis of emerging technologies shows that while the abovementioned syringe is the only current real-world enactment of this emerging technology, research into technologies to improve sleeping arrangements in these rooms also needs to be established and expanded (Nelson, 2015). This research into further developing ways to manage cardiovascular hemodynamics and reduce neck pressure risks of development sleep apnea are vital next steps to improving the patient experience of being assigned to negative pressure rooms during periods of illness and subsequent treatment and healing.

Goals

Goals for the product include the general overhauling of the negative reputation that negative pressure rooms currently hold within the wider healthcare landscape. This includes working through the eye pressure risks that isolation rooms can bring about. Furthermore, emerging research about cardiovascular hemodynamics in managed environments can provide insights into ways of managing negative ramifications caused by lying prone for extended periods. Additional research into the impacts of stationary periods on cardiovascular hemodynamics can provide more technological advancements. Developing an understanding of the implications that long periods of laying prone in a stationary position can bring on assists in development of future technologies (Gerber, et. al., 2018). The same can be said for the impacts that neck pressure can play on breathability. If sleep apnea risks can be mitigated by changing pressure on the neck caused by sleep position, then healthcare centers have an obligation to ensure that the beds in negative pressure rooms allow for this change in position (Nelson, 2015). Combined with the cardiovascular hemodynamics research the understanding of neck impacts on breathing pressure can provide guidance on future technological solutions research. By focusing goals for technological advancement on means of ensuring patient wellbeing and improving, the physical experience of staying in negative pressure room hospitals will be able to go a significant distance towards removing the stigma and fear that surrounds such isolation rooms. After all, patients are already in a fragile stay if they are being admitted to such a negative pressure room. The sheer fate of being kept out of general population for unknown periods prompts an understanding that one’s condition is not easily treatable or understood. Making the stay in this isolation room as pleasant as possible should be the primary goal of hospitals and healthcare centers. This is not only because patients need to feel taken care of upon entering a hospital space, but also because patients heal faster when they feel comfortable and are not made to feel hopeless by their surroundings and experiences. NUR 300 Miami Dade College How to improve Negative Pressure Rooms PPT

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Data

In recent years, data supporting the syringe product has been established through studies and research. The findings that the syringe could assist with eye pressure management is one of the best components of improving the experience of being kept in a negative pressure room. Data on the effectiveness of the Disposable Negative-Pressure Anterior Chamber Paracentesis Syringe highlights the reversal benefits that the syringe can provide to patients experiencing significant changes in eye pressure (Hangzhou Sightnovo, 2020). As these shifts can lead to serious repercussions including blindness, determining ways to best manage ocular risks while in isolation rooms are significantly encouraged. Similarly, data showing that the pressure on the neck caused by inadequate sleeping options leading to sleep apnea is a significant consequence (Nelson, 2015). Furthermore, the cardiovascular hemodynamic risks of lying prone for extended periods can lead to weakness and health concerns that cannot be mitigated for patients restricted to a singular room and unable to access other parts of a hospital space (Gerber, et. al., 2018). To avoid these health risks, negative pressure rooms must be improved throughout their physical make-up and their chemical and environmental management.

Healthcare Settings

Healthcare settings that would benefit from the advancements being made technologically in dealing with the problem of poor experiences in negative pressure rooms include hospitals and healthcare centers first. The technologies being developed in the context of the Disposable Negative-Pressure Anterior Chamber Paracentesis Syringe could also serve a purpose in ophthalmological or optometric industries and services. Yet, the hospitals and healthcare organisations that make use of negative pressure rooms need to ensure that these rooms are not causing more damage to patients than the conditions hat have resulted in patients needing to be house din those rooms. The risks that face patients who enter isolation rooms is significant, because their respective conditions or diseases are so contagious and risky to themselves and others. To compound those health risks with problematic environmental and physical challenges in the literal space is to put those patients at even greater risk of negative health outcomes.

Conclusion

The technological advancements that are being made in negative pressure rooms bode well for future patients. As understanding grows of the negative implications of being in isolation, and in an artificially managed environment, for extended periods can cause, additional technological advancements will arise. These technological advances are already emerging with the creation of the Disposable Negative-Pressure Anterior Chamber Paracentesis Syringe, as well as the growing bodies of research on the implications of cardiovascular hemodynamic risks and the causation of sleep apnea. As both of these conditions are risks of patients kept in negative pressure rooms, the ongoing research will move to create technologies for working through these risks as well. To heal in any hospital or healthcare setting can be a monumental task, and this is particularly true when patients are ill with such a condition that a stay in an isolation room is the only safe course of action. To maNUR 300 Miami Dade College How to improve Negative Pressure Rooms PPTke such a stay more inviting, or at least less dangerous to the ongoing health of the patient, would be a wonderful outcome of ongoing technological research and advancements from within the medical field. While the risks of sleep apnea, cardiovascular hemodynamic issues, and eye pressure problems are significant parts of current stays in negative pressure rooms, ongoing research assures the industry that such will not always be the case.  NUR 300 Miami Dade College How to improve Negative Pressure Rooms PPT

 

 

References

Gerber, B., Singh, J. L., Zhang, Y. & Liou, W. (2018). A computer simulation of short-term

adaptations of cardiovascular hemodynamics in microgravity. Computers in Biology and Medicine, 102, pp. 86-94.

Hangzhou Sightnovo Medical Technology Co. Ltd. US Patent News Medical Patent. (2020).

U.S. Patent and Trademark Office Awards Patent for Disposable Negative-Pressure Anterior Chamber Paracentesis Syringe. U.S. Parent Office. Retrieved 19 March 2021 from https://www.proquest.com/wire-feeds/u-s-patent-trademark-office-awards-disposable/docview/2407280069/se-2?accountid=191554.

Nelson, E. (2015). Patents; “Negative Pressure on Neck to Treat Obstructive Sleep Apnea” in

Patent Application Approval Process. Health & Medicine Week. Retrieved on 19 March 2021 from xx https://www.proquest.com/wire-feeds/patents-negative-pressure-on-neck-treat/docview/1681995239/se-2?accountid=191554.