The contribution to the implementation team as a graduate-level nurse is essential to ensuring the effective acceptance and implementation of a new healthcare system. As a leader of the team through each stage of the Systems Development Life Cycle (SDLC) process, your clinical knowledge and comprehension of the healthcare industry will be of immeasurable value. Using the system development life cycle, per Wang et al. (2019), gives the development process structure and provides guidance to the project’s team by making expectations clear at each stage.This paper’s goal is to explore the role description of a graduate-level nurse to help with implementation based on the stages of the Systems Development Life Cycle (SDLC).
Planning and Requirements Definition
Nurse managers’planning practices are essential to the practice of management in hospitals , and the overall efficiency of the healthcare service delivery (Ansah Ofei et al., 2022). The graduate-level nurse’s job at this point will be to establish and specify the new system’s aims and objectives. To acquire feedback and comprehend their demands and requirements, he or she will work in collaboration with stakeholders, such as healthcare administrators, administrators, and patients. In order to make sure that the system takes into account the particular difficulties and requirements of the hospital setting, your clinical expertise and insight will be essential. Additionally, you will assist in defining the project’s parameters and creating the implementation schedule and budget.
In the analysis stage, graduate nurse will work closely with the team to evaluate the existing processes and systems in place and identify areas for improvement. The job will entail analyzing workflows, finding bottlenecks and inefficiencies, and coming up with remedies in line with best practices and industry norms. A graduate-level nurse will offer the team a valuable viewpoint by sharing knowledge of clinical best practices and making sure the new system is suitable for both patients and healthcare professionals.A nurse leader will help design guidelines and policies that are supported by solid evidence, according to Cassidy et al. (2021).
Design of the New System
Graduate will work with the group to create a blueprint for the new system while it is still in the design phase. The job entails creating a functional design from the requirements acquired throughout the planning and analysis stages. To make sure that the technology supports clinical workflows and encourages patient safety, the nurse will closely collaborate with the software developers and designers.For instance, the graduate nurse will carry out routine IT responsibilities including data evaluation (Laukka et al., 2022). Making judgments about the user interface’s structure and the inclusion of clinical decision support tools, for example, will depend heavily on the input.
Graduate-level nurses’ duty during the implementation phase will be to aid in the changeover from the old system to the new one. He or she will assist in creating and carrying out the strategy for educating healthcare professionals, making sure they are knowledgeable about utilizing the new system. Their clinical knowledge will be essential in creating training materials that are in line with the requirements and duties of various healthcare positions. The nurse leader also acts as a resource for healthcare professionals, responding to their inquiries and resolving any problems that crop up throughout the implementation process.
Once the new system is implemented, the role will shift to providing post-implementation support. Graduate nurses will collaborate closely with the project team to track the system’s effectiveness and collect patient and healthcare provider feedback. This is a valuable activity since it teaches a business how to strengthen or confirm the value of services and how to determine which components are strong and which require improvement (Rrtveit et al., 2020). A graduate nurse’s duties will include polling users’ happiness and holding focus groups to pinpoint problem areas and resolve any concerns that may occur. In order to assess if the new system is successfully supporting clinical decision-making and improving patient care, the nurse’s clinical competence will be crucial .They will also play a key role in further refining the system based on user feedback and evolving healthcare policies and regulations.
Overall, graduate level nurse will play a varied role on the implementation team as a graduate-level nurse with knowledge of the SDLC process in addition to your clinical skills. Your involvement will have a significant impact on the project’s success by ensuring that the new system is developed and put into use in a way that supports evidence-based practice, improves patient care, and satisfies the requirements of healthcare professionals.
Ansah Ofei, A. M., Parima, Y., Achempim-Ansong, G., & Barnes, T. (2022). Exploring the planning practices of Nurse Managers in the unit: A study of Nurse Managers in the Greater Accra Region. Journal of Health Organization and Management, 36(5), 590–603. https://doi.org/10.1108/jhom-08-2021-0320
Cassidy, C. E., Harrison, M. B., Godfrey, C., Nincic, V., Khan, P. A., Oakley, P., Ross-White, A., Grantmyre, H., & Graham, I. D. (2021). Use and effects of implementation strategies for practice guidelines in nursing: A systematic review. Implementation Science, 16(1). https://doi.org/10.1186/s13012-021-01165-5
Laukka, E., Hammarén, M., Pölkki, T., & Kanste, O. (2022). Hospital nurse leaders’ experiences with digital technologies: A qualitative descriptive study. Journal of Advanced Nursing, 79(1), 297–308. https://doi.org/10.1111/jan.15481
Rørtveit, K., Saetre Hansen, B., Joa, I., Lode, K., & Severinsson, E. (2020). Qualitative evaluation in nursing interventions—a review of the literature. Nursing Open, 7(5), 1285–1298. https://doi.org/10.1002/nop2.519
Wang, J., Gephart, S. M., Mallow, J., & Bakken, S. (2019). Models of collaboration and dissemination for Nursing Informatics Innovations in the 21st Century. Nursing Outlook, 67(4), 419–432. https://doi.org/10.1016/j.outlook.2019.02.003
The Book Of Revelation
Revelation is among the last book of the bible and the New Testament. The book was written by a Christian named John the Elder. The author is believed to have been from Ephesus and was on the Island of Patmos, near the Coast of Asia Minor. There is a discussion surrounding his stay on the island of Patmos. Traditionally, it is believed that John had been exiled to the place as a martyr because of his strong faith in promoting Christianity. Other scholars argue that the island was a major stopover station for the Elder when spreading the gospel of Christ (Tabb 2019). The book comprises seven letters to seven different churches in Asia Minor Cities. The main content of the letters was exhortation. The seven letters were written to the churches of Ephesus, Smyrna, Pergamon, Thyatira, Sardis, Philadelphia, and the Laodicea. The Book of Revelation has been considered one of the hardest books to read. This fact is increasingly evident among the modern people.
The intricate and unpopular symbolic language used in the book’s writing has greatly hindered the interpretation. However, books were easy for the ancient people who were used to the complex nature of apocalyptic literature. The video portrays evidence of such complex symbols. Due to the complexity of the terms and symbols used in this Christian book, various groups have come up with different interpretations and applications from ancient up to date. The paper will exploit how various groups have interpreted and applied the book’s content, the interpretation’s effects, and the driving force causing such disparities (“Book of Revelation,” n.d.). Christian denominations, Jews, Islamic, Messianic, Apocalyptic Movements, and New Religious Movement are some of the religious groups that have used the Book of Revelations differently. The Christian denominations have interpreted the book in parts. The religious group has interpreted the book in bits, basing their views on the content’s historic nature, present, future, and Symbolic interpretation.
The protestant in this denomination has viewed the content as a prophecy that outlines the past events or apostolic times to the present and even beyond. The people tended to dissect the historical events and the symbols used in the book’s writing. Other Christians have interpreted the content to be accounts of the earlier events that occurred during the time of the writing. A good example used by the Christians here to back up their view is the account of the fall of Jerusalem captured in the book (Thames, 2021). However, the other fraction of Christians views the Book of Revelation as the account of the things that will occur in the future. They have explained that this is the description of what will happen during the second coming of Jesus Christ. One of the major indications captured in Revelation is the rapture and description of how end times. Based on interpreting the application of the Symbols used, most Christians have tied the symbols to spiritual lessons and morals as opposed to the symbol’s connection to the context of the time the symbol was used.
The Jews do not have the Book of Revelation in their Judaism. However, most of them have studied the Book of Revelations to draw a connection between the symbols used in the text and those in their culture. In this perspective, Jews have considered the book of Revelation as not part of the bible despite the description of God in the text (Ellul 2020). This religion draws that the symbolism and Christian context captured are less beneficial to their Jewish culture and beliefs. From their perspective, the Islamic religion has interpreted the book about Quran. The focus of Islamic interpretation here has been in the line of prophecies and the Eschatological point of view. Due to this varied interpretation among the religious movement, there have been major controversies that have emerged.
The complexity of this book of the Bible has given the upper hand to the rise of various cultic movements. The cultic movement has used the statements captured in the book to mislead believers. These groups have used the books to predict the world’s end for their gain. Subjects have been manipulated to sell their property, for the end is coming to an end; others have ended up in self-destruction due to wrong interpretations presented to them by these cultic leaders (Beal 2018). The texts have been the main source of such cults becomes of unusual symbols that people find hard to comprehend. Additionally, people are reluctant to seek knowledge independently, especially those related to religious beliefs. They end up relying on the interpretation given to them by their religious leaders.
In conclusion, the book of Revelation has been interpreted and applied differently among various religious groups. The disparity in the interpretation is a result of the unusual symbols that are used in the book. Different denominations have focused their interpretation on historic, present, future, and even on Symbols used. It is clear that even among the same religious movement, members have had different views giving rise to different protestant churches. The disparity has paved the way for cultic movements that have created misleading interpretations of the statements in the book. Cult movements are using the book to benefit themselves. As a result of these cults, people have ended up in self-destruction, loss of property, and even rebellion against the authorities. It is important to note that the rise of the cultic movement has also been attributed to the ignorance of the believers. Most need to pay more attention to seeking knowledge through reading.
Beal, T. (2018). The Book of Revelation: A biography. Princeton University Press.
Ellul, J. (2020). Apocalypse: the book of Revelation. Wipf & Stock Publishers.
Thames, R. R. (2021). A Commentary on the Revelation of John. Covenant Books, Inc.
Tabb, B. J. (2019). All Things New: Revelation as Canonical Capstone. InterVarsity Press.
The book of Revelation. (n.d.). Retrieved from https://echo360.org/media/19b66bc1-6308-4241-84e4-b4a7ae0653c8/public
The Impact Of Building Material Selection On Human Comfort Requirements And Health & Safety Regulations In A Medical Center
The building industry knows how important building material choice influences a structure’s inhabitants’ comfort and well-being. Nowhere is this more important than in a hospital, where a relaxing and secure environment is necessary for patient healing and staff productivity. This article discusses the relevance of abiding by health and safety laws in handling construction materials in such a setting and the influence of building material choices on human comfort needs in a medical facility.
Materials Selection and Human Comfort Requirements in a Medical Center
1.1 Factors Affecting Human Comfort
At a hospital, patients and staff must be comfortable. Maintaining proper temperature and humidity in hospitals helps prevent illness. The right lighting encourages a friendly atmosphere, speeds up patient recuperation, and increases staff efficiency. Effective sound management creates a calm environment conducive to healing and focus by minimizing noise disturbances. In addition to lowering the risk of airborne diseases and improving general well-being, adequate Ventilation also helps regulate indoor air quality. (Salonen, 2022)Combining these elements results in a positive and encouraging environment that improves the healthcare experience overall, eventually improving patient outcomes and staff satisfaction.
1.1.1 Thermal Comfort
“thermal comfort” refers to the emotional state that reflects contentment with the local thermal climate. Maintaining proper thermal comfort for patients, employees, and visitors is crucial at a medical facility. Thermal comfort is influenced by insulation, glazing, heating, Ventilation, and air conditioning (HVAC) systems. The medical facility may guarantee that residents are comfortable by selecting materials with great insulation qualities and implementing an energy-efficient HVAC system.
In order to provide a comfortable and effective atmosphere, medical clinics must have adequate lighting. The safety of patients and the productivity of employees depend on well-planned lighting systems with the proper brightness and decreased glare. The mood is further improved by using energy-efficient lighting fixtures and intelligently combining natural light through strategically positioned windows. (Stellman, 2020)In addition to fostering a relaxing environment for patients, well-lit areas encourage greater attention and productivity among medical staff. These components work together to create a healthcare institution that prioritizes its patients’ physical and emotional well-being, promoting a supportive environment for treatment.
A medical facility must cultivate a calm and supportive environment for patient rehabilitation and staff concentration. Implementing strategies like sound-absorbing materials, acoustic insulation, and careful layout planning becomes crucial. The medical facility may dramatically lower noise levels by choosing materials that efficiently absorb Sound and implementing tried-and-true acoustic solutions. This will improve patients’ sleep quality, increase their entire experience, and let medical personnel focus more intently on their work. A more serene environment will encourage a healing and peaceful mood, fostering a sense of well-being and comfort for everyone in the institution.
Maintaining a constant flow of fresh air and limiting the buildup of dangerous contaminants depend on adequate Ventilation. In medical facilities, where indoor air quality directly affects the health of patients and employees and the need to reduce the danger of airborne diseases, this element becomes more crucial. In order to protect the health of all patients and staff within the medical facility, it is crucial to choose materials that promote optimal air circulation and install effective mechanical ventilation systems. These actions help create a safer, healthier environment that is better for patient outcomes and the well-being of medical staff by maintaining a steady supply of clean air and successfully eliminating impurities.
1.2 Building Services for Human Comfort
Building services are crucial elements that contribute to patient comfort in medical facilities.
1.2.1 HVAC Systems
A reliable HVAC system is essential for controlling a medical facility’s interior temperature, humidity, and air quality. It must be customized to satisfy the particular requirements of the facility’s various components. For patients, employees, and delicate equipment, it is crucial to maintain comfort and ideal circumstances. (Huisman, 2019)A well-planned HVAC system will help provide a secure, healthy setting ideal for effective medical procedures. The HVAC system’s excellent functioning and frequent checks guarantee occupant comfort.
1.2.2 Lighting Systems
To offer appropriate illumination levels for various places, well-designed lighting systems with energy-efficient and movable fixtures should be used. Utilizing sensors and automated controls may improve lighting, consuming less energy while keeping comfort levels high.
1.2.3 Acoustic Solutions
The comfort of patients and employees can be improved by reducing noise levels through sound-absorbing materials, acoustic panels, and thoughtful layout planning. Building components and design tactics that efficiently deal with sound transmission will promote a calmer and more therapeutic atmosphere.
1.2.4 Ventilation Systems
Mechanical ventilation systems must make sure there is always fresh air available, eliminate airborne contaminants, and stop the spread of illnesses. Routine upkeep and filter changes must ensure the efficiency of the ventilation system.
1.3 Indoor Environmental Quality Solutions
A medical facility might employ several ways to address problems with indoor environmental quality.
1.3.1 Thermal Comfort Solutions
Zoned HVAC controls, adequate insulation, and energy-efficient windows may all assist the medical center’s various rooms in staying at the ideal temperature. Regular energy audits help the medical center function as efficiently as possible by identifying opportunities for improvement.
1.3.2 Illumination Solutions
Combining energy-saving artificial lighting with natural daylighting can increase illumination levels using less electricity. Energy savings can be further increased by including intelligent lighting controls that adapt to the amount of natural light.
1.3.3 Sound Solutions
Sound-absorbing materials can be used in walls, ceilings, and floors to reduce noise and make spaces calmer. Enhancing patient privacy and staff concentration can be achieved by conducting acoustic evaluations and correcting any issues.
1.3.4 Ventilation Solutions
The supply of clean, fresh air throughout the medical facility may be ensured by installing high-efficiency air filtering systems and appropriate ventilation rates. Maintaining occupant health requires regular monitoring of indoor air quality and maintenance of ventilation systems.
1.4 Standard Building Services for Human Comfort
Numerous crucial building functions in the hospital guarantee patients the highest comfort level. These include controls over temperature, ventilation systems, lighting, and plumbing systems, all intended to keep patients, employees, and visitors safe and comfortable.
1.4.1 Air Conditioning Systems
Centralized air conditioning frequently uses energy-efficient HVAC systems with zonal controls to maintain ideal temperatures and humidity levels for improved patient and worker comfort. With these improvements, you may save money while maintaining excellent interior climate control.
1.4.2 LED Lighting
Energy-efficient LED lighting fixtures are praised for their durability, ease of control, and extended lifespan. A facility may drastically reduce its energy usage and maintenance costs by switching to LEDs, providing a sustainable and affordable lighting option.
1.4.3 Acoustic Treatments
Specific ceiling tiles, acoustic panels, and sound-absorbing materials are employed to reduce noise levels. Regular acoustic performance assessments can point out opportunities for enhancement and guarantee occupant comfort.
1.4.4 Mechanical Ventilation
Good-efficiency filters and mechanical ventilation systems provide proper air exchange and indoor air quality. The spread of airborne pollutants must be stopped through regular filter replacements and ventilation equipment maintenance.
Health and Safety Regulations in Handling Construction Materials
2.1 Relevant Regulations Impacting Construction Materials
The medical institution must abide by stringent health and safety requirements regarding building materials’ usage, processing, and storage. The observance of these regulations promotes overall well-being inside the institution by guaranteeing a secure environment for employees, patients, and visitors.
2.1.1 Occupational Safety and Health Administration (OSHA)
OSHA standards emphasize appropriate training, the use of personal protection equipment (PPE), and safe work practices to safeguard the safety of construction employees during material handling and installation. Construction employees are safeguarded from potential risks during material handling and installation procedures by strictly following OSHA regulations.
2.1.2 Environmental Protection Agency (EPA)
The EPA establishes regulations to ensure garbage does not endanger the environment or public health when properly disposed of. Proper waste management and disposal procedures are essential to maintain a secure and sustainable medical institution.
2.1.3 Building Codes and Standards
Maintaining structural integrity and safety throughout the development of medical centers requires adherence to building rules and standards. To guarantee the stability of the structure, they outline approved materials and building techniques. (Tleuken, 2021) Following these guidelines ensures that the materials used fulfill safety requirements and do not jeopardize the structural integrity of the medical center. Thanks to this compliance, patients, employees, and visitors will all be in a secure atmosphere.
2.1.4 Hazard Communication Standard (HCS)
To encourage knowledge and safe handling, HCS mandates accurate labeling and notification of possible risks related to building materials. All parties involved in material handling are informed of possible dangers and can take the appropriate safeguards thanks to adequate labeling and communication mechanisms.
2.2 Risk Assessments for Construction Materials
To control hazards associated with building materials, risk assessments are essential. Construction projects can put the right controls in place to reduce risks by identifying possible hazards and assessing their effect. Risks are continuously evaluated and controlled during the project, thanks to regular monitoring. This proactive approach promotes a safe working environment, lowers accidents, avoids problems with materials, and improves the project’s overall success.
2.2.1 Hazard Identification
To prioritize adopting safer solutions and reduce possible dangers to occupants and construction workers, thoroughly identifying all hazards in building materials is essential. Toxicology testing is essential to avoiding exposure to dangerous compounds that might cause health problems. Evaluation of flammability ensures safety precautions against fire risks. In order to improve overall safety, it is also helpful to detect physical concerns, such as structural flaws or brittle materials. The medical facility may make educated judgments, use safer building materials, and establish a secure atmosphere for everyone involved by proactively addressing these possible threats. Such thorough procedures demonstrate a dedication to the workers’ and residents’ well-being.
2.2.2 Risk Evaluation
Evaluating the likelihood and severity of potential hazards connected with such materials is crucial to determine the amount of risk posed by certain building materials. A thorough risk appraisal will enable the medical facility to prioritize and implement effective risk mitigation measures. With this proactive strategy, the medical facility can better deploy its resources and ensure the security of its patients, employees, and visitors. The center can identify high-risk materials, adopt acceptable substitutes, or apply improved safety practices by carefully analyzing them. (Kumari, 2020)This thorough risk assessment technique promotes a safe working environment for contractors and strengthens the center’s reputation for placing safety first, resulting in a more durable and dependable infrastructure.
2.2.3 Risk Control Measures
Put controls in place to reduce risks, such as adopting less dangerous options, offering adequate training, and ensuring the right PPE is worn. Effective risk management techniques considerably lower the possibility of mishaps and injuries during construction and the medical institution’s long-term life.
2.2.4 Monitoring and Review
In order to adjust to changing conditions and maintain continuing safety, risk control procedures must be continuously monitored and evaluated for effectiveness. In order to identify new dangers and maintain a secure atmosphere for everyone present, routine safety inspections and evaluations are essential. Periodic evaluations allow for the timely identification and remediation of possible risks, allowing for the required modifications to improve the overall safety framework. This proactive approach shows a dedication to maintaining the safety of building inhabitants. It promotes a culture of ongoing improvement, ensuring the risk management plan stays applicable and efficient in the face of shifting circumstances.
The choice of architectural materials substantially impacts the level of comfort required by patients in a medical institution. The right construction materials and services may be chosen to provide a comfortable and secure environment for patients, employees, and visitors by considering elements like thermal comfort, lighting, Sound, and Ventilation. The health and safety of construction workers and future residents are also ensured by following rules on the usage, storage, and handling of building materials. The proposed medical facility may be planned and constructed with the comfort and safety of people in mind by carefully choosing materials and doing risk assessments.
The medical facility may set the bar for offering a sustainable and caring treatment model by using cutting-edge architectural materials, energy-efficient equipment, and thorough risk evaluations. A medical facility that supports healing, rehabilitation, and well-being for everyone who enters its doors will certainly be produced by balancing human comfort and safety while embracing developments in the construction sector.
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Kumari, S., & Kumar, R. (2020). Green hospital-A necessity and not an option. Journal of Management Research and Analysis, 7(2), 46–51.
Tleuken, A., Tokazhanov, G., Guney, M., Turkyilmaz, A., & Karaca, F. (2021). Readiness assessment of green building certification systems for residential buildings during pandemics. Sustainability, 13(2), 460.
Huisman, E. R., Morales, E., Van Hoof, J., & Kort, H. S. (2019). Healing environment: A review of the impact of physical environmental factors on users. Building and Environment, 58, 70-80.
Stellman, J. M. (Ed.). (2020). Encyclopaedia of occupational health and safety (Vol. 1). International Labour Organization.