Predicting the Success of Proposed Innovations
Innovation That Will Be Successful in the Local Healthcare Setting
The Mazor Robotics innovation is the most likely to be successful in the local Minooka, Illinois, healthcare environment, given the prevalence of spinal surgeries and the potential for improved surgical precision. This is supported by its alignment with current orthopaedic practices and the potential to improve patient outcomes through cutting-edge robotic-assisted techniques. Subsequently, a close-knit suburban neighbourhood with a growing population and a variety of healthcare needs may be found in Minooka, Illinois. The local healthcare system in Minooka, Illinois, comprises a network of community hospitals, specialist clinics, and primary care clinics. Healthcare facilities prioritize preventative care, chronic illness management, and restricted surgical treatments while providing care to a varied population, including families, elders, and young professionals (Haleem et al., 2022). The collaborative healthcare environment emphasizes patient-centred care, focusing on accessibility and affordability and fostering solid patient-provider relationships. Our assignment writing help is at affordable prices to students of all academic levels and academic disciplines.
Supporting the Prediction
The ability of the Mazor Robotics invention to meet particular demands in the neighbourhood and local healthcare organization in Minooka, Illinois, supports the prediction of its success. First, the invention fits with the community’s growing need for cutting-edge orthopaedic operations due to residents having spinal surgeries more frequently, which has sparked a demand for innovative surgical methods to guarantee the best possible patient outcomes. Second, the innovation’s use of robot technology reflects the dedication of the neighbourhood healthcare provider to remain at the forefront of medical breakthroughs and meet the community’s expectations for cutting-edge and accurate healthcare solutions. The Mazor Robotics innovation stands to fulfil essential requirements, effectively contributing to enhanced patient care and reinforcing the organization’s reputation for excellence in orthopaedic services (Lonner, 2019).
Supporting the Prediction Based on at Least Two Intrinsic and Two Extrinsic Factors
Due to the alignment of the Mazor Robotics invention with inherent variables like clinical knowledge and technology readiness, Minooka, Illinois, is well-positioned for its success. The local healthcare system in Minooka, Illinois, has a strong pool of orthopaedic surgeons, and their experience connects with the innovation’s promise to improve surgical precision and results, fostering enthusiasm and easy integration. The innovation fits the community’s technical readiness, including robust infrastructure and experience with cutting-edge medical technologies (Mahmood et al., 2023). Extrinsic variables support this forecast even more; the development uses the general trend of robotic surgery’s expanding uptake in orthopaedics, as the American Academy of Orthopedic Surgeons observed, ensuring a favourable environment for its application. Moreover, as the Agency for Healthcare Research and Quality highlighted, community engagement and awareness efforts are prevalent in Minooka, creating a receptive environment for innovations like Mazor Robotics that promise improved patient experiences and outcomes.
The Projected Sustainability of the Innovation
The Mazor Robotics invention is expected to show strong sustainability in Minooka, Illinois. Troisi et al. (2020) in The Journal of Medical Robotics Research emphasize the long-term advantages of robotic-assisted surgery, including fewer post-operative problems and shorter hospital stays, consistent with the innovation’s potential to enhance patient outcomes and operational effectiveness. The favourable effects of robotic technology on surgical accuracy and patient satisfaction are also highlighted by Kai-Uwe Lewandrowski et al. (2023) in a study published in the Journal of Orthopedic Surgery and Research, supporting the possibility of continuing demand and adoption. As reported by the Journal of Healthcare Engineering, the innovation’s compatibility with the community’s technological readiness, coupled with the increasing trend of robotic applications in orthopaedics, further supports its sustained integration into the local healthcare ecosystem, contributing to its long-term viability and success (Fichtinger et al., 2022).
How the Innovation Will Last Long Term and Elements Specific to the Recommended Innovation That Will Impact Future Success
Both inherent and extrinsic factors contribute to the Mazor Robotics innovation’s potential for long-term success in Minooka, Illinois. The American Academy of Orthopedic Surgeons has confirmed that inherent features, such as its ability to improve surgical precision and patient outcomes, align with the ongoing demand for sophisticated orthopaedic care (Stern et al., 2022). The innovation’s continuous relevance is ensured by its compatibility with the regional healthcare system’s dedication to medical developments and the expanding popularity of robotic-assisted orthopaedic surgery (Azar, 2023). Its long-lasting effects are also influenced by extrinsic variables, such as community involvement and support, which the Agency for Healthcare Research and Quality has confirmed. Consequently, these elements collectively reinforce the innovation’s long-term viability and position it as a strong fit for sustainable advancement in Minooka’s healthcare landscape.
References
Azar, F. M. (2023). Technological advances, an issue of orthopaedic clinics, e-book. In Google Books. Elsevier Health Sciences. https://books.google.com/books?hl=en&lr=&id=T0e1EAAAQBAJ&oi=fnd&pg=PP1&dq=).+The+innovation%27s+continuous+relevance+is+ensured+by+its+compatibility+with+the+regional+healthcare+system%27s+dedication+to+medical+developments
Fichtinger, G., Troccaz, J., & Haidegger, T. (2022). Image-guided interventional robotics: Lost in translation? Proceedings of the IEEE, 110(7), 932–950. https://doi.org/10.1109/JPROC.2022.3166253
Haleem, A., Javaid, M., Pratap Singh, R., & Suman, R. (2022). Medical 4.0 technologies for healthcare: Features, capabilities, and applications. Internet of Things and Cyber-Physical Systems, 2, 12–30. https://doi.org/10.1016/j.iotcps.2022.04.001
Kai-Uwe Lewandrowski, Elfar, J. C., Li, Z.-M., Burkhardt, B. W., Lorio, M. P., Winkler, P. A., Oertel, J. M., Telfeian, A. E., Dowling, Á., Roth, Ramina, R., Abraham, I., Marjan Assefi, Yang, H., Zhang, X., Felipe, J., Rossano, Pereira, M. G., Paulo, & Helton. (2023). The Changing Environment in Postgraduate Education in Orthopedic Surgery and Neurosurgery and Its Impact on Technology-Driven Targeted Interventional and Surgical Pain Management: Perspectives from Europe, Latin America, Asia, and The United States. 13(5), 852–852. https://doi.org/10.3390/jpm13050852
Lonner, J. H. (2019). Robotics in the knee and hip arthroplasty: Current concepts, techniques, and emerging uses. In Google Books. Springer. https://books.google.com/books?hl=en&lr=&id=y0eeDwAAQBAJ&oi=fnd&pg=PA233&dq=+the+Mazor+Robotics+innovation+stands+to+fulfill+essential+requirements
Mahmood, A., Imran, M., & Adil, K. (2023). Modelling individual beliefs to transfigure technology readiness into technology acceptance in financial institutions. SAGE Open, 13(1), 215824402211497. https://doi.org/10.1177/21582440221149718
Stern, B. Z., Pila, S., Joseph, L. I., Rothrock, N. E., & Franklin, P. D. (2022). Patients’ perspectives on the benefits of feedback on patient-reported outcome measures in a web-based personalized decision report for hip and knee osteoarthritis. BMC Musculoskeletal Disorders, 23(1). https://doi.org/10.1186/s12891-022-05764-1
Troisi, R. I., Pegoraro, F., Giglio, M. C., Rompianesi, G., Berardi, G., Tomassini, F., De Simone, G., Aprea, G., Montalti, R., & De Palma, G. D. (2020). Robotic approach to the liver: Open surgery in a closed abdomen or laparoscopic surgery with technical constraints? Surgical Oncology, 33, 239–248. https://doi.org/10.1016/
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Question
Competency
Determine traits of successful innovators.
Student Success Criteria
View the grading rubric for this deliverable by selecting the “This item is graded with a rubric” link, which is located in the Details & Information pane.
Scenario
You are considering returning to school to complete your MSN or DNP but are concerned about the amount of work. In your 1:1 meeting with your manager, you mentioned the desire to return to school for an advanced nursing degree and learn. Your manager is currently working on completing a DNP in the executive leadership track. Currently, the Nurse Manager has enjoyed the courses completed but finds the current course a favourite, “Emerging Healthcare Innovations.” She suggests meeting for coffee and reviewing the most recent assignment to get an idea of the quality and quantity of work required to complete DNP coursework successfully. She supplies the guidelines for the current assignment and tells you to attempt the Assignment in three days to get a feel for the workload involved in DNP-level coursework.
Instructions
The Assignment contains descriptions of four innovations in healthcare accessed via these websites.
Archimedes Indigo https://centerfortotalhealth.org/tag/indigo/
Watson for Genomics https://www.ibm.com/watson-health/merative-divestiture
mHealth, get well network https://www.getwellnetwork.com/
Mazor Robotics https://www.medtronic.com/us-en/healthcare-professionals/products/spinal-orthopaedic/spine-robotics/mazor-x-stealth-edition.html
Based on your research regarding the innovators and proposed innovations, answer these questions in a Word document:
Predict which innovation will be successful in your local healthcare setting.
Explain your local healthcare setting
Support the prediction with at least two reasons based on needs identified within your local healthcare organization and community.
Support the prediction based on at least two intrinsic and two extrinsic factors that impact successful innovation with support from credible resources.
Describe the projected sustainability of the innovation you selected with support from credible resources.
How will the innovation last long term? What are elements, specific to your recommended innovation, that will impact future success? Does it still make it a good fit?
Resources
For additional information on healthcare innovations, check the following resources:
MHealth: Transforming Healthcare (Chapter 4)
IBM Watson: how Cognitive Computing Can Be Applied to Big Data Challenges in Life Science Research
Is there a future for robotic-assisted surgery in value-based healthcare
For additional assistance on how to identify credible resources, please visit How do I know if a source is credible?