Diabetes Mellitus Clinical Trial
Official title:
The Effect of a Checklist on the Quality of Education During Insulin Initiation by Trained Medical Students: a Randomized Controlled Trial
Diabetes prevalence continues to rise worldwide, leading to the increasing use of insulin. This especially applies to developing countries where the needle-and-syringe method of administration remains the most affordable and effective form of hyperglycemic treatment. Competent health care professionals are required to ensure safe insulin initiation. The investigators will evaluate a teaching intervention on insulin initiation for medical students, and whether after experiencing that intervention the use of a checklist, during simulate insulin initiation, improves the education they provide to patients.
Introduction:
Diabetes is on the increase worldwide. The International Diabetes Federation estimates that
there are currently 382 million persons diagnosed with diabetes. The prevalence is expected
to increase to over 592 million in less than 25 years [1]. This increase is disproportional
in the developing world, with 80% of those affected living in low- and middle-income
countries. For example, in South and Central America, the prevalence of diabetes is
estimated to increase by over 60% in the next two decades [2].
Insulin is one of the agents that can be used in the treatment of diabetes mellitus.
Diabetes is characterized by a progressive decline in beta-cell function and insulin
secretion. Over time, a significant number of persons with diabetes will require
intensification of management, and possibly insulin treatment to achieve acceptable glycemic
control [3]. Insulin remains the oldest and most effective treatment of hyperglycemia. It is
also possibly the cheapest form of treatment relative to its potency, particularly when used
in its animal or human forms.
Insulin is a particularly important treatment option in the developing world and in
low-income groups in the developed world. In the developing world, drug affordability has
limited the international evolution from an algorithmic to an individualized approach to
glycemic management [4, 5]. In many countries, insulin remains the affordable second or
third line choice for treatment, and will therefore be used with greater frequency.
Insulin initiation is, however, a complex task. To safely initiate insulin, many important
aspects of patient education must be addressed. Patients must understand the technicalities
of drawing insulin with a needle and syringe as well as administering insulin with a
syringe, pen or pump. The side effects of weight gain and hypoglycemia must also be
understood, including the recognition and treatment of the latter.
Checklists have been shown to increase the quality of care by reducing errors [6]. They
reduce the cognitive load of decision making by decreasing analytic conscious thinking [7].
At the most basic level, they can reduce human error by providing a documented
methodological approach to completing tasks. This advantage may be useful in the complex and
potentially dangerous arena of insulin initiation.
We seek to evaluate a teaching intervention on insulin initiation, and to determine whether
there are safety gains to the additional use of a checklist. This evaluation will be done by
means of patient simulations, which allow reliable evaluation [8] without exposing patients
to risks [9].
Research hypothesis (alternate):
Using a checklist during insulin initiation, with a needle and syringe, can improve patient
education on safe and effective insulin use, above that of thorough undergraduate education.
Methods:
Trial design; The study is randomized and controlled. Initially, the students will all
experience a two-hour training session on insulin initiation. Within a week of completing
the training, they will be asked to submit a 250 to 400-word reflective narrative, with
guiding questions for reflection.
Two to four weeks after training, students consenting to participate in the study will be
randomly assigned to the two study groups: the control group and the intervention group.
They will be asked to complete a simulation exercise on insulin initiation, with
(intervention group) or without (the control group) the availability of an insulin
initiation checklist. Performance during each simulation will be assessed with the aid of a
check sheet.
The Checklist; The checklist was developed by a task-force, which consisted of eleven
individuals: a layperson, a pharmacist, two dietitians, two diabetes educators, a
podiatrist, a diabetes specialist nurse, a pediatrician and two diabetologists. The process
was lead by the pharmacist, diabetes specialist nurse and one of the diabetologists. The
final version of the checklist was achieved through iterative cycles of re-design and
feedback. The aim was to develop a simple A4-size, two-sided document that could be easily
copied. Eleven checklist items were agreed upon, which cover insulin side effects; use and
disposal of syringes; insulin administration and storage; and the recognition and treatment
of hypoglycemia. Images illustrating the process of using a syringe to draw insulin from a
vial as well as injections sites (for children, adults and pregnant women) were included at
the back. There was also space provided for documentation of the client's name and
registration number, insulin type and when it should be taken, medications to be stopped,
and the date and signature of the facilitator.
The Check Sheet; A check sheet will be used to evaluate the performance of the undergraduate
students during each simulation. Educational tasks will be listed under five sub-headings:
'side effects', 'hypoglycemia', 'drawing up insulin', 'insulin administration', and 'other'.
Tick boxes will be used to 'check off' whether tasks are performed adequately, inadequately
or not at all. Each task will have brief notes on what constitutes adequate performance.
Setting and Simulation; The study will take place within a nine-week final year medicine
clerkship at the University of the West Indies, Cave Hill, Barbados. Every nine weeks, the
simulation will take place within the medicine end-of-clerkship Objective Structured
Clinical Examination. An actor/actress will be used during the simulations to play the role
of the patient, in which he/she will require education on the use and administration of
insulin via a needle and syringe. The participant will be given instructions for the
simulation and the use of the checklist, if in the intervention group.
Training session on insulin initiation; Key aspects of the lesson plan will be as outlined
below:
Time: 120 minutes Number of students: 7 to 10
Materials:
- Insulin bottles
- At least 7 insulin syringes
- An orange or suitable model for injecting
- 7 to 10 insulin initiation checklists
- 7 to 10 instruction sheets for the simulation of section F
- Sharps disposal container
Aim: To be able to competently initiate insulin in clients with diabetes
Outcomes: Ability to,
1. Evaluate clients to determine whether insulin initiation is appropriate
2. Evaluate clients and decide on how insulin will be initiated and titrated
3. Discuss the major side effects of insulin use, including weight gain and hypoglycemia
4. Discuss the frequency and timing of glucose monitoring on insulin regimes (background,
biphasic and basal bolus)
5. Explain to clients how to recognize and treat hypoglycemia
6. Demonstrate and explain to clients the proper technique of drawing up and injecting
insulin, using a needle and syringe as well as pen
Learning methods:
- Case based approach
- Socratic discussion
- Use of simulation to create a clinically authentic learning environment
- Kolb's experiential reflective cycle
- Utilization of checklist to structure learning
Session structure:
A: (10 minutes) Brief review of insulin types
B: (30 minutes - 10 minutes per case)
Discussion of three clinical case scenarios, to decide on:
1. whether insulin initiation is appropriate and which regime should be used,
2. the frequency of glucose monitoring and,
3. the approach to initiation and titration of insulin, if applicable
General learning points from this section
Indications of insulin:
- Type-1 diabetes
- Diabetes due to pancreatic insufficiency
- Type-2 diabetes not adequately controlled on oral agents (as second-line or third-line
agent) when insulin can be safely introduced
Weight gain with insulin is approximately 2 to 4 kg and proportional to glucose lowering. It
is likely due to reduction in glycosuria.
C: (15 minutes) Students are to discuss key elements of education for a client who is
learning to draw and self-administer insulin, using a needle and syringe.
D: (10 minutes) Simulation- students are to demonstrate how they would educate a client who
is to be started on insulin using needle and syringe. Instructions given to students: please
start this patient on 10 units of Novolin N at bedtime; administration will be by the needle
and syringe method; and, please provide any education required. A diabetes specialist nurse
(DSN) will act as the simulated client. Other students will observe and reflect on how they
would do it.
E: (30 minutes) Insulin initiation will be taught by DSN, using the structure of the
checklist. Methods of administration will include syringe and pen.
F: (30 minutes - Role change at 15 minutes) Simulation- Students are to work in pairs, one
acting as the patient and one the doctor, to simulate the education required during insulin
initiation. "Doctors" are to have instructions and to use the checklist during the process
of initiation.
Insulin initiation reflective narrative:
Instructions to students; Having experienced the insulin initiation session you are now
required to write a short, 250-400 word reflective narrative. The desired outcome of this
process is enhancement of your understanding of what you learnt, what further knowledge and
skills are needed and what facilitated your learning. Please consider the guiding questions
below to assist this process.
1. How did the session impact my knowledge or skills of insulin initiation?
2. What further actions will enable me to provide the best quality care during insulin
initiation?
3. What made the session a useful learning experience for me?
Please note that the submission of an adequate piece is an essential part of the educational
intervention and this will be assessed on the presence of content related to the above
questions.
Evaluation:
The educational intervention will be evaluated on 2 of the 4 levels of the Kirkpatrick
evaluation model 10. On level one, content analysis of the reflective narrative will provide
information on what was liked about the intervention. On level two, student's performance
during simulation of insulin initiation will provide information on what was learnt.
Additionally, comparison of the students initiating insulin with and without (the control
group) a checklist will give insight on safety gains with its use.
Analysis:
Reflective commentaries will be analyzed qualitatively using Atlas ti V7 software. Code list
creation will be both inductive (codes formulated based on the research question and
available literature) and deductive (codes based on other information derived from the
commentaries). Thematic analysis will take place through iterative cycles of coding,
updating of codes and analysis. To ensure consistency in the analytic process, two
researchers will participate in this process and meet regularly to compare analyses within
and across participants. A third researcher will repeat the analysis in the event of
discrepancies.
Quantitative data will be analyzed using SPSS version 18 (IBM Inc., Armonk, New York, USA).
Descriptive statistics will be used to describe performance without the checklist. The
chi-squared test will be used to analyze nominal data captured with and without the use of
the checklist. If the necessary assumptions apply the t-tests will determine whether there
are statistically significant differences within checklist scores between the
administrations in each group. If the necessary assumptions do not apply the Wilcoxon
signed-rank test will be used respectively. A p-value of < 0.05 will be considered to
represent statistical significance.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label
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