Simulation Education and Clinical Practice on Nursing Students' Competence

NCT ID: NCT07250451

Last Updated: 2025-11-26

Basic Information

• Recruitment Status: COMPLETED
• Clinical Phase: NA
• Total Enrollment: 94 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2024-01-15
• Study Completion Date: 2024-08-15

Brief Summary

The aim of this study is to determine the effect of integrated education, combining clinical practice and simulation laboratory training, on the competence of second-year undergraduate nursing students. This research is designed as a multi-crossover quasi-experimental randomized controlled study. In this model, all groups were exposed to simulation training sessions in specific stages. This design is currently used in the clinical practice component of the Surgical Nursing course. Additionally, the researchers aimed to answer the question: "What is the most appropriate timing for simulation training to enhance nursing students' competence?"

During the clinical practice of the Surgical Diseases Nursing course, approximately 29-33 students participated in the simulation laboratory sessions, while about 61-65 students were involved in clinical field practice. For the simulation sessions, subgroups consisting of 4-5 students were formed. After each subgroup completed the simulation practice, a debriefing session was conducted. Each simulation scenario and related training lasted approximately half a day.

Detailed Description

This study aims to evaluate the effect of integrating simulation-based laboratory sessions with clinical practice on the competence of second-year undergraduate nursing students enrolled in the Surgical Nursing course. The study was designed as a quasi-experimental, randomized, multi-crossover study model. In this design, all student groups were sequentially exposed to simulation-based training integrated within the clinical education process, allowing each group to experience both simulation and clinical practice in different sequences.

Setting

The laboratory environment was located on the first floor of the Faculty of Health Sciences. It was arranged as a patient room and equipped with two full-body low-fidelity mannequins and all necessary nursing materials for patient care. The lab had a capacity of 15-17 students and included a separate area with chairs and a whiteboard for debriefing and discussion sessions. Before each simulation, the environment and mannequins were prepared in accordance with the specific scenario. Simulation implementation and debriefing were conducted by the first author, while clinical practice supervision was carried out by the other three researchers.

Simulation Scenarios

A total of seven different low-fidelity simulation scenarios were used, including:

Preoperative preparation and postoperative care in colorectal surgery,

Postoperative care after subdural hematoma surgery,

Postoperative care after benign prostatic hyperplasia surgery,

Postoperative care after coronary bypass surgery,

Care of a patient with femur fracture,

Postoperative care after total laryngectomy.

All scenarios were developed based on the literature and reviewed by experts for content validity. Pilot testing was conducted during the previous academic year, and minor revisions were made based on feedback.

Briefing and Prebriefing

One week before each simulation, the theoretical content related to the upcoming scenario was taught to all students using traditional classroom instruction, and relevant course materials were provided. Students scheduled for the next simulation were informed of their specific scenario in advance and were asked to review the materials again. Prior to the simulation, the laboratory environment was introduced, and students were given 5-10 minutes to familiarize themselves with the setting. They were also informed that they could withdraw from the activity if they felt psychologically uncomfortable at any time.

Simulation Implementation

Students participated in groups of 4-5. Each group entered the lab as if entering a real patient room, greeted the patient (represented by the mannequin), and provided nursing care based on the patient's vital signs, lab results, and clinical complaints. In some scenarios, such as femur fracture care, complications like fat embolism were introduced to enhance realism. Students were expected to respond to these acute situations in addition to performing routine care. Each simulation lasted approximately 20-25 minutes. At the end of each scenario, students conducted patient handover to the next group (shift), ensuring continuity of care similar to real clinical practice. The patient's voice was provided by the first researcher.

Debriefing

Following each simulation, all four subgroups were brought together for a structured debriefing session based on the Gather-Analyze-Summarize (GAS) model. This session was designed to facilitate reflection, discussion of decision-making processes, and consolidation of learning outcomes.

Data were collected before and after the interventions using validated nursing competence measurement tools. The findings are expected to contribute to the optimization of simulation-based learning strategies in nursing education and to provide evidence for the effective timing and integration of simulation training within clinical education.

Conditions

Health Knowledge, Attitudes, Practice

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: CROSSOVER
• Primary Study Purpose: OTHER
• Blinding Strategy: SINGLE

Study Groups

Simulation-First Hybrid Training

Students in Simulation-First Hybrid Training participated in four days of simulation-based training followed by eight days of clinical practice. Simulation sessions were conducted in subgroups of 4-5 students, followed by debriefing sessions. Clinical practice was conducted in hospital settings under faculty supervision.

Group Type: EXPERIMENTAL

Educational/training

Intervention Type: OTHER

Simulation-First Hybrid Training - Simulation → Clinical Practice:

Students first participated in four days of simulation in subgroups of 4-5, using low-fidelity mannequins for scenarios such as colorectal surgery care, subdural hematoma, BPH surgery, coronary bypass, femur fracture, and total laryngectomy. Prebriefing and debriefing (GAS method) were conducted. This was followed by eight days of clinical practice under faculty supervision.

Clinical Practice-Simulation-Clinical Practice (Integrated Training) - Clinical Practice → Simulation → Clinical Practice:

Students completed four days of clinical practice, four days of simulation as above, then four additional clinical practice days.

Clinical Practice-First Training Followed by Simulation - Clinical Practice → Simulation:

Students completed eight days of clinical practice followed by four days of simulation. Simulation sessions and clinical practice were conducted under faculty supervision.

Clinical Practice-Simulation-Clinical Practice (Integrated Training)

Students in Clinical Practice-Simulation-Clinical Practice (Integrated Training) first completed four days of clinical practice, then four days of simulation-based training, followed by an additional four days of clinical practice. Simulation and clinical practice sessions were conducted as described for Simulation-First Hybrid Training.

Group Type: EXPERIMENTAL

Educational/training

Intervention Type: OTHER

Simulation-First Hybrid Training - Simulation → Clinical Practice:

Students first participated in four days of simulation in subgroups of 4-5, using low-fidelity mannequins for scenarios such as colorectal surgery care, subdural hematoma, BPH surgery, coronary bypass, femur fracture, and total laryngectomy. Prebriefing and debriefing (GAS method) were conducted. This was followed by eight days of clinical practice under faculty supervision.

Clinical Practice-Simulation-Clinical Practice (Integrated Training) - Clinical Practice → Simulation → Clinical Practice:

Students completed four days of clinical practice, four days of simulation as above, then four additional clinical practice days.

Clinical Practice-First Training Followed by Simulation - Clinical Practice → Simulation:

Students completed eight days of clinical practice followed by four days of simulation. Simulation sessions and clinical practice were conducted under faculty supervision.

Clinical Practice-First Training Followed by Simulation

Students in Clinical Practice-First Training Followed by Simulation completed eight days of clinical practice, followed by four days of simulation-based training. Simulation and clinical practice sessions were conducted as described for Simulation-First Hybrid Training.

Group Type: EXPERIMENTAL

Educational/training

Intervention Type: OTHER

Simulation-First Hybrid Training - Simulation → Clinical Practice:

Students first participated in four days of simulation in subgroups of 4-5, using low-fidelity mannequins for scenarios such as colorectal surgery care, subdural hematoma, BPH surgery, coronary bypass, femur fracture, and total laryngectomy. Prebriefing and debriefing (GAS method) were conducted. This was followed by eight days of clinical practice under faculty supervision.

Clinical Practice-Simulation-Clinical Practice (Integrated Training) - Clinical Practice → Simulation → Clinical Practice:

Students completed four days of clinical practice, four days of simulation as above, then four additional clinical practice days.

Clinical Practice-First Training Followed by Simulation - Clinical Practice → Simulation:

Students completed eight days of clinical practice followed by four days of simulation. Simulation sessions and clinical practice were conducted under faculty supervision.

Interventions

Educational/training

Simulation-First Hybrid Training - Simulation → Clinical Practice:

Students first participated in four days of simulation in subgroups of 4-5, using low-fidelity mannequins for scenarios such as colorectal surgery care, subdural hematoma, BPH surgery, coronary bypass, femur fracture, and total laryngectomy. Prebriefing and debriefing (GAS method) were conducted. This was followed by eight days of clinical practice under faculty supervision.

Clinical Practice-Simulation-Clinical Practice (Integrated Training) - Clinical Practice → Simulation → Clinical Practice:

Students completed four days of clinical practice, four days of simulation as above, then four additional clinical practice days.

Clinical Practice-First Training Followed by Simulation - Clinical Practice → Simulation:

Students completed eight days of clinical practice followed by four days of simulation. Simulation sessions and clinical practice were conducted under faculty supervision.

Intervention Type: OTHER

Eligibility Criteria

Inclusion Criteria

• Undergraduate nursing students enrolled in the second year of the program
• Willing to participate in the study

Exclusion Criteria

• Students under 18 years of age
• Students who do not provide voluntary consent

• Minimum Eligible Age: 18 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: Yes

Sponsors

Duzce University

OTHER

Sponsor Role: lead

Responsible Party

Atiye Erbaş

Assistant Professor

Responsibility Role: PRINCIPAL_INVESTIGATOR

Locations

Duzce University

Düzce, , Turkey (Türkiye)

Countries

Turkey (Türkiye)

Other Identifiers

DU-AE-01

Identifier Type: -

Identifier Source: org_study_id