Respond to Mackenzie and Heidi
* by offering additional thoughts regarding the examples shared, Software Development Life Cycle-related issues, and ideas on how the inclusion of nurses might have impacted the example described by your colleagues.
Mackenzie Gray
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The Systems Development Life Cycle (SDLC) is a set of stages used when developing a new information system (Ungvarsky, 2019). The SDLC is a specific plan that helps the team throughout the entire process, from the idea of the system to the implementation (Ungvarsky, 2019). The development of SDLC for a healthcare organization should include a needs assessment that encompasses the needs of the organization’s healthcare workers, including physicians and nurses (McGonigle & Mastrian, 2017). The organization’s needs as a whole need to be represented, so solutions get proposed to meet the needs or address issues (McGonigle & Mastrian, 2017).
The waterfall model is one of the oldest methods used in SDLC and is linear; therefore, the model is sequential, and each stage provides information for the following stage (McGonigle & Mastrian, 2017). The waterfall model has six phases: feasibility, analysis, design, implementation, test, and maintain (McGonigle & Mastrian, 2017). Feasibility helps decide if the project could be initiated and typically addresses the following: technological, economics, legal, operational, and scheduling feasibility (McGonigle & Mastrian, 2017). Operational feasibility specifically helps determine if the project will be effective, meet the set expectations to achieve the goals of the project, or addressing the problem at hand (McGonigle & Mastrian, 2017). The analysis phase helps examine the requirements for the system and business needs (McGonigle & Mastrian, 2017). Analysis is an important step to assess the workflow (McGonigle & Mastrian, 2017). Excluding nurses from these crucial beginning phases could be detrimental to implementing a new health information technology system. Nurses work on the frontlines of healthcare and would be essential to decide if the system is feasible to the operations and workflow. For example, implementing a new EHR could be more cost-conscious; however, the documentation could cause inefficiency in the workflow. The design phase helps the team decide what programs are necessary and discusses how they will interact, how the individual programs work, and what the look or feel will be (McGonigle & Mastrian, 2017). For example, nurses would be great resources to help design and decide specifics to be included in an EHR, as nurses are often documenting several times a shift and on multiple patients. The implementation phase occurs when the designed system is ready to use (McGonigle & Mastrian, 2017). The test phase evaluates the system to ensure the program works as it was designed (McGonigle & Mastrian, 2017). Nurses would be great resources to perform beta testing to ensure the system is adequate and per ...
Simple, Complex, and Compound Sentences Exercises.pdf
Respond to Mackenzie and Heidi by offering additional thoughts .docx
1. Respond to Mackenzie and Heidi
* by offering additional thoughts regarding the examples
shared, Software Development Life Cycle-related issues, and
ideas on how the inclusion of nurses might have impacted the
example described by your colleagues.
Mackenzie Gray
Top of Form
The Systems Development Life Cycle (SDLC) is a set of
stages used when developing a new information system
(Ungvarsky, 2019). The SDLC is a specific plan that helps the
team throughout the entire process, from the idea of the system
to the implementation (Ungvarsky, 2019). The development of
SDLC for a healthcare organization should include a needs
assessment that encompasses the needs of the organization’s
healthcare workers, including physicians and nurses
(McGonigle & Mastrian, 2017). The organization’s needs as a
whole need to be represented, so solutions get proposed to meet
the needs or address issues (McGonigle & Mastrian, 2017).
The waterfall model is one of the oldest methods used in
SDLC and is linear; therefore, the model is sequential, and each
stage provides information for the following stage (McGonigle
& Mastrian, 2017). The waterfall model has six phases:
feasibility, analysis, design, implementation, test, and maintain
(McGonigle & Mastrian, 2017). Feasibility helps decide if the
project could be initiated and typically addresses the following:
technological, economics, legal, operational, and scheduling
feasibility (McGonigle & Mastrian, 2017). Operational
feasibility specifically helps determine if the project will be
effective, meet the set expectations to achieve the goals of the
project, or addressing the problem at hand (McGonigle &
Mastrian, 2017). The analysis phase helps examine the
requirements for the system and business needs (McGonigle &
Mastrian, 2017). Analysis is an important step to assess the
2. workflow (McGonigle & Mastrian, 2017). Excluding nurses
from these crucial beginning phases could be detrimental to
implementing a new health information technology system.
Nurses work on the frontlines of healthcare and would be
essential to decide if the system is feasible to the operations and
workflow. For example, implementing a new EHR could be
more cost-conscious; however, the documentation could cause
inefficiency in the workflow. The design phase helps the team
decide what programs are necessary and discusses how they will
interact, how the individual programs work, and what the look
or feel will be (McGonigle & Mastrian, 2017). For example,
nurses would be great resources to help design and decide
specifics to be included in an EHR, as nurses are often
documenting several times a shift and on multiple patients. The
implementation phase occurs when the designed system is ready
to use (McGonigle & Mastrian, 2017). The test phase evaluates
the system to ensure the program works as it was designed
(McGonigle & Mastrian, 2017). Nurses would be great
resources to perform beta testing to ensure the system is
adequate and performs as it should. The system must be
maintained after the testing phase (McGonigle & Mastrian,
2017).
I have not been included in the selection and planning of
a new health information technology system in my nursing
practice. Being included in a decision-making process can result
in increased satisfaction for workers and improve the overall
morale of the organization. A study by Graham-Dickerson et al.
(2013) concluded that involving staff nurses in decision-making
had a positive impact on the work environment, and nurses
reported feeling like part of a team when they were included.
References
Graham-Dickerson, P., Houser, J., Thomas, E., Casper, C.,
ErkenBrack, L., Wenzel, M., & Siegrist, M. (2013). The value
of staff nurse involvement in decision making. Journal of
Nursing Administration, 43(5), 286–292. https://doi-
org.ezp.waldenulibrary.org/10.1097/NNA.0b013e31828eec15
3. McGonigle, D., & Mastrian, K. G. (2017). Nursing informatics
and the foundation of knowledge (4th ed.). Burlington, MA:
Jones & Bartlett Learning.
Ungvarsky, J. (2019). Systems development life
cycle (SDLC). Salem Press Encyclopedia of Science. Retrieved
from https://search-ebscohost-
com.ezp.waldenulibrary.org/login.aspx?direct=true&db=ers&A
N=119214383&site=eds-live&scope=site
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Heidi
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Nurses should be a part of the system development life cycle for
many reasons. Nurses can bring a variety of different
references to the team. They can provide their expertise in
patient care to develop a successful program.
1. Planning-Software innovation requires collaboration with a
team of people to understand what needs are to be met and how
to best accomplish this (McLean, Frisch, & Roudsari, 2015).
Without involving nurses in this process, you would not know
what issues need resolved and what the perceived problem is.
Nurses can easily identify what needs improved. Involving
nurses at this stage can help address problems that are not well
known to everyone. Nurses from different specialties should be
involved.
2. Design- Nurses typically make up a large portion of the
people who will be implementing or carrying out the program
and using it on a daily basis. Nurses who do not have input into
design will sometimes find a system redundant or non- user
friendly. This can lead to frustration and sometimes a delay in
care if the system is hard to navigate for the nurse. Most of this
phase is done by the IT team (Singletary & Baker, 2019). This
would be a great stage to involve the nurse informaticist to
bridge the gap between technology and nursing. The easier it is
to navigate the system the better the outcomes for the nurses.
Some programs are not well -designed leading to undue stress
4. on the staff
3. Implementation-If nurses are not properly trained for
implementation, they may be discouraged from using the
program. If there are no resources for this stage the staff will
fail to comply with the program. Nurses could potentially train
as super-users for program implementation (Tyler, 2019).
Nurses need to have a go to person for any questions about the
program and how to overcome them.
4. Maintenance/Evaluation- If program developers and
participants do not get the input from nurses about the pros and
cons of the system, they may never truly make it a great
program. Policies and procedures are always changing and
there is a need to constantly evaluate the effectiveness of the
system. Nurses should be allowed to be part of this process so
that the program can be edited based on the needs of the nurses
and the patients.
I have been involved in the implementation of the Cerner
program at the hospital I formerly worked at. We switched to
Cerner from a paper system, so it was quite the change and
came with a lot of challenges. All staff were trained on the
system and a select few had additional training to be super
users. Those who did not receive additional training were not as
well prepared and, in my opinion, all staff should have had the
additional education. We also had cheat sheets made out for us
with the most frequently asked questions/problems that we used
for resources. It was a challenge to get everyone motivated to
switch to an electronic health record from paper, but eventually
we made the switch. We also had a nurse informaticist who was
available for questions or when problems came up with the
system. There were numerous times that the nursing staff
voiced concern over an issue with the system being redundant or
cumbersome, but the complaints never made a difference in
editing the program. Our complaints were never taken any
further up the chain.
References
McLean, A., Frisch, N., & Roudsari, A. (2015, December 19).
5. Nursing’s voice in healthcare IT acquisition decisions.
Retrieved from http://cjni.net/journal/?p=4248
Singletary, V., & Baker, E. L. (2019). Building informatics-
savvy health departments. Journal of Public Health Management
and Practice, 25(6), 610-611.
doi:10.1097/phh.0000000000001086
Tyler, D. (2019). A day in the life of a nurse
informaticist. Journal of Informatics Nursing, 4(1), 18-20.
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