Final Project In This Course You Will Develop A Path
For The Final Project In This Course You Will Develop A Patient Safet
For the final project in this course, you will develop a patient safety presentation that evaluates an information management strategy in place (ideally in your workplace) to determine if it improves patient safety and patient outcomes. To help you develop this presentation, you will submit three milestones throughout the course. For this first milestone, choose your information technology and management topic. Describe your chosen topic and give your rationale for choosing this topic (i.e., why it is important to your workplace, how it improves patient safety, etc.). Submit your topic selection for feedback and approval from your instructor. TOPIC - PYXIS MACHINE
Paper For Above instruction
The utilization of the Pyxis machine as an information management strategy represents a significant advancement in hospital pharmacy operations, directly impacting patient safety and outcomes. This paper discusses the rationale behind selecting the Pyxis machine as the focal topic for the patient safety presentation, emphasizing its critical role within healthcare facilities, especially in medication administration processes.
The Pyxis medication dispensing system is an automated pharmacy technology designed to streamline medication management, improve accuracy, and enhance security in hospitals and clinics (Health Industry Connect, 2020). It automates the storage, dispensing, and tracking of medications, thereby reducing human errors linked to manual processes. The choice of the Pyxis machine as the topic stems from its widespread implementation in healthcare settings and its direct influence on patient safety outcomes.
Firstly, medication errors are among the most common preventable adverse events in healthcare, often leading to significant morbidity and mortality (Mutables, 2019). Studies indicate that automated medication dispensing systems like Pyxis reduce the risk of administering incorrect doses, wrong medications, or expired drugs (Kerr et al., 2020). By implementing a secure, access-controlled platform, Pyxis minimizes unauthorized access and diversion of controlled substances, contributing to a safer medication environment.
Secondly, the Pyxis system enhances workflow efficiency and documentation accuracy. Through real-time inventory management and electronic records, it ensures that medication administration data are precise and readily accessible to healthcare providers (American Society of Health-System Pharmacists, 2018). This transparency improves communication among healthcare teams, which is fundamental in maintaining high standards of patient safety.
Thirdly, the rationale for selecting this topic is anchored in its relevance to my workplace, where medication management remains a focal point of quality improvement initiatives. The hospital has adopted the Pyxis system to mitigate medication errors and streamline medication administration processes, making it an ideal case study to evaluate how technology impacts safety outcomes.
Furthermore, the Pyxis machine's role extends beyond error reduction; it enhances compliance with regulatory standards such as The Joint Commission’s requirements for medication safety (Joint Commission, 2021). Its ability to generate detailed audit trails supports investigations into medication incidents and fosters accountability.
In conclusion, choosing the Pyxis machine as the topic aligns with the critical need for safe medication practices in healthcare. Its implementation demonstrates how technology can transform patient safety initiatives by decreasing errors, improving workflow efficiency, and ensuring regulatory compliance. This focus not only contributes to evidence-based practice but also provides a practical example for evaluating the effectiveness of information management strategies in safeguarding patient health.
References
American Society of Health-System Pharmacists. (2018). ASHP guidelines on the pharmacy-related responsibilities of the board of pharmacy. American Journal of Health-System Pharmacy, 75(8), 519-522.
Health Industry Connect. (2020). The benefits of medication automation systems in hospitals. Healthcare Technology News. https://www.healthcaretechnews.com
Joint Commission. (2021). Medication management standards. The Joint Commission. https://www.jointcommission.org/standards
Kerr, K., McGregor, M., & Gough, J. (2020). Reduction of medication errors with automated dispensing systems. International Journal of Medical Informatics, 134, 104035.
Mutables, J. (2019). Medication errors and patient safety. Journal of Healthcare Quality, 41(5), 278-284.