Clinical Trial Details
— Status: Not yet recruiting
Administrative data
NCT number |
NCT05706584 |
Other study ID # |
MedipolU-0001-Gturk |
Secondary ID |
|
Status |
Not yet recruiting |
Phase |
N/A
|
First received |
|
Last updated |
|
Start date |
September 1, 2023 |
Est. completion date |
June 30, 2024 |
Study information
Verified date |
January 2023 |
Source |
Medipol University |
Contact |
Gülay Türk, PhD student |
Phone |
00905378988675 |
Email |
gly441[@]gmail.com |
Is FDA regulated |
No |
Health authority |
|
Study type |
Interventional
|
Clinical Trial Summary
Depending on the education system, the increasing number of students, inadequate
practice/skill laboratories, a small number of lecturers and students with limited time in
the clinic have a negative impact on obtaining appropriate clinical experience. The virtual
learning environment experience will prepare the student for the clinic in the most realistic
way and will reduce the risk of errors in clinical care and treatment. In light of this
information, presenting the learning environment of the future to the student will prepare
the student both in the clinical practice area and in the professional environment as
self-confident and highly equipped The study was planned with a mixed method consisting of
single-blind randomized controlled experiment and focus group interview methods. The research
was planned to be carried out during the pediatric nursing course period between 2023-2024
Fall Semester October-December. Participants will be students taking a pediatric nursing
course. Scales and Forms to be used in the Study; Informed Consent and Demographic Data
Collection Form, Expert Opinion Form, Proficiency Scale for Nursing Students, Augmented
Reality Applications Attitude Scale, Pre and Post Test, Student Case Form, • Focus Group
Interview Form and Distance Education Satisfaction Scale of university life.
The universe of the research consists of all students who take and continue the 2023 - 2024
fall term child health and diseases nursing course (N: 190). It will try to reach the
universe where the sample selection of the research will not be made.
To measure the learning efficiency of pediatric nursing students in infant orogastric tube
care application in two different skill laboratories, considering the feeding pattern from
Gordon's Functional Health patterns. (University skills lab and metaverse-based clinical
skills lab) As a result, the learning levels of the students in the metaverse-based clinical
skills laboratory environment will be higher than in the skills laboratory. It will also
increase the student's self-confidence in the field of pediatric nursing practice.
Description:
Depending on the education system, the increasing number of students, inadequate
practice/skill laboratories, a small number of lecturers, and students with limited time in
the clinic have a negative impact on obtaining appropriate clinical experience. In addition,
from the perspective of Bloom's taxonomy, learning; reminding, understanding, applying,
analysing, evaluating and creating. Due to the limitations in clinical applications, students
often cannot progress to advanced stages from the application part of Bloom's taxonomy.
Today, clinical application areas are limited within the structure of the health care system.
In addition, considering the developments in technology, it is necessary to include
innovative approaches in education in line with the expectations of students coming to higher
education. Therefore, simulation-based learning has been one of the effective methods in
preparing nursing students for the clinic and profession with knowledge and skills.
Use of virtual reality simulation among nursing students and working nurses: Among the three
learning outcomes (skill-based, cognitive, and affective) in a systematic review, virtual
worlds are most effective in improving cognitive outcomes such as theoretical knowledge. This
situation suggests that virtual worlds can be used as an alternative or complementary method
in teaching theoretical knowledge in nursing education and that a learning environment should
be designed in accordance with the innovations brought by technology for clinical
applications in nursing education. In addition, the prevalence and demand of online/distance
education systems in the education system and the necessity of using them in extraordinary
situations increase the necessity of a technological learning environment. Virtual reality,
augmented reality, artificial intelligence and metaverse-based simulation environment are
among the most suitable methods that can be chosen to develop learning, decision making,
critical thinking and clinical skills.
Metaverse is Augmented Reality or Cross Reality (XR) based on technologies that enable
multi-sensory interactions with virtual environments, digital objects, and people. XR
includes Virtual Reality (VR), Augmented Reality (AR), and Mixed Reality (MR) (Milgram et
all., 1994). The representative accuracy of the XR system is ensured by stereoscopic displays
capable of transmitting depth perception. XR systems allow active interaction with virtual
items through the use of motion controllers. These are handheld input devices with a handle,
buttons, triggers, and thumbsticks. Using controllers, users can touch, hold, manipulate and
operate virtual objects. This ability enables them to be active in any educational experience
(such as nursing care).
The importance of this study is to provide an evidence-based virtual education environment to
the literature and to ensure that it is ready for extraordinary situations in the field of
education (such as distance education during the pandemic period). This should be done by
designing and developing a virtual learning environment. While aiming to make this
environment in the study, was based on evidence. The use of Gordon's Functional Health
Patterns in the design of the virtual learning environment is important in terms of meeting
the patient and starting the nursing process when the student first enters the clinical
environment The virtual learning environment experience will prepare the student for the
clinic in the most realistic way and will reduce the risk of errors in clinical care and
treatment. In the light of this information, presenting the learning environment of the
future to the students will prepare the student both in the clinical practice area and in the
professional environment as self-confident and highly equipped.
The aim of the study is to analyze two different skill laboratory experiences of pediatric
nursing students (the course and practice laboratory experiences they took during the formal
education period and the lessons and practice experiences they received in the metaverse
-based skill laboratory environment) within the feeding pattern of Gordon's Functional Health
Patterns, through the example of orogastric tube application in the premature baby is to
compare. The study was planned with a mixed method consisting of single-blind randomized
controlled experiment and focus group interview methods.
Objectives of The Research
1. To design a metaverse-based clinical skills environment that will provide practical
skills,
2. control and experimental groups in simulation environments (control group; skill
laboratory, experimental group; metaverse -based clinical skills laboratory
environment),
3. Taking the experimental group into a focus group interview,
4. Evaluating the success and satisfaction of the experimental / control groups
Questions of The Research
1. the clinical practice skills of the 3rd year child health and diseases nursing students
be gained in the metaverse-based clinical skills laboratory environment?
2. Metaverse of 3rd-grade child health and diseases nursing students What will be the
success rate when comparing student achievement in clinical practice courses and a
clinical skills laboratory-based environment?
3. Can it be used as a teaching method in distance education for 3rd-grade child health and
disease nursing students?
Hypotheses of the Study
1. H0: The education level of the 3rd-grade child health and diseases nursing students in
the metaverse-based clinical skills laboratory environment is lower than the education
level in the skill laboratory.
2. H1: The education level of the 3rd year pediatric nursing students in the
metaverse-based clinical skills laboratory environment is higher than in the skill
laboratory.
AIM To measure the learning efficiency of pediatric nursing students in infant orogastric
tube care practice in two different skill laboratories, taking into account the feeding
pattern from Gordon's Functional Health patterns. (University skills laboratory and
metaverse-based clinical skills laboratory) The study was planned with a mixed method
consisting of single-blind randomized controlled experiment and focus group interview
methods.
Research time 2023-2024 Fall Semester is the period of pediatric nursing course between
October and December. Participants are students taking pediatric nursing course.
Ethical Considerations and Limitations of Research The study will be initiated by obtaining
informed consent from the students who took the pediatric nursing course during the academic
year. Institutional and ethical committee permissions will be obtained. (No:
E-31034136-302.08.01-649) The research was carried out within the framework of the
Declaration of Helsinki, good clinical guide practices and the law on the protection of
personal information will be followed.
The limitations encountered in this study are listed below.
- The sample of the research is limited to the students who take a pediatric nursing
course in the Department of Nursing at the Faculty of Health Sciences of Medipol
University.
- Expert opinions on the metaverse-based clinical skills laboratory will be obtained from
academic staff who are experts in the field of pediatric nursing and engineering.
- Experience of participants in the designed metaverse-based clinical skills laboratory;
It is limited to the features of the virtual reality glasses and equipment (headset,
controller, etc.) used within the scope of the study.
Sample of the Study The universe of the study consists of students (N: 190) who took a
pediatric nursing course in the 3rd year of the Teaching Department at Istanbul Medipol
University. The sample of the study will consist of the students who took the 3rd year child
health and diseases nursing course in the nursing department, accepted the study, and met the
study criteria. The net participant count to be included in the sample will be determined
within the current selection criteria and after the G Powers analysis. The sample size of the
study was determined by the post. doc. The sample size will be clarified. With the simple
randomization method, students will be assigned to the experimental and control groups. Even
the last digit of the student number will be randomized to the experimental group and odd
ones will be randomized to the control group Sample Selection Criteria In the sample, it will
be considered that virtual reality users may be exposed to strong psychological effects.
Discomforts that occur in virtual experiences, which are seen as motion sickness or
simulation disease, are among these effects. Simulation hospital is similar to transportation
sickness but going through VR experience. It is recommended that motion sickness arises from
the accumulation of visual and vestibular senses as its organization. It is seen as headache,
fatigue, heaviness, and disorientation in the weight given with the common perception.
Advances in Head-Weared Device (HMD) technology may have increased motion sickness enclosures
due to increased consumers and levels of realism in virtual reality.
Independent variables
1. Mataverse-based clinical skills lab
2. Socio-demographic characteristics of the people within the scope of the research (age,
place of residence, education level of parents)
3. Health status related to technological variables related to people
4. Presence in experimental or control environments
5. Professional development
6. The nature of learning
7. Resources used Designing the Software The software designed by the developers within the
Unreal Engine program will first be tested by experts and necessary corrections will be
made. The software will be developed in accordance with the design-based research method
steps. This method is a research method established to design and develop an
evidence-based educational intervention (for example, learning processes, learning
environments, etc.) as a solution to an educational problem (teaching-learning
strategies and materials, products) (van den Akker et al., 2013). In the design, the
student will be presented with the training of a premature baby feeding on a virtual
screen with an empty platform, then he will enter the hospital room, evaluate the
feeding pattern of the baby in the case and practice appropriate clinical skills.
Expert Evaluation Expert opinion will be taken for the efficiency, suitability, validity, and
reliability of the metaverse-based clinical skills laboratory used in the study. Experts;
consist of field experts and engineering experts.