Objective
The objective of the study was to evaluate the effectiveness of a high-fidelity birth simulator (Noelle; Gaumard Scientific, Coral Gables, FL) compared with a lower-cost, low-tech, birth simulator (MamaNatalie; Laerdal Medical, Stavanger, Norway) in teaching medical students how to perform a spontaneous vaginal delivery (SVD).
Study Design
Prior to the obstetrics-gynecology clerkship, students were randomly assigned to 2 groups. The MamaNatalie group (MG) completed 45 minutes of SVD simulation using an obstetrical abdominal-pelvic model worn by an obstetrics-gynecology faculty member. The Noelle group (NG) completed 45 minutes of SVD simulation using a high-fidelity, computer-controlled mannequin facilitated by an obstetrics-gynecology faculty member. The primary outcome was student performance during his or her first SVD as rated by supervising preceptors. Surveys were also completed by students on confidence in performing steps of a SVD (secondary outcome).
Objective
The objective of the study was to evaluate the effectiveness of a high-fidelity birth simulator (Noelle; Gaumard Scientific, Coral Gables, FL) compared with a lower-cost, low-tech, birth simulator (MamaNatalie; Laerdal Medical, Stavanger, Norway) in teaching medical students how to perform a spontaneous vaginal delivery (SVD).
Study Design
Prior to the obstetrics-gynecology clerkship, students were randomly assigned to 2 groups. The MamaNatalie group (MG) completed 45 minutes of SVD simulation using an obstetrical abdominal-pelvic model worn by an obstetrics-gynecology faculty member. The Noelle group (NG) completed 45 minutes of SVD simulation using a high-fidelity, computer-controlled mannequin facilitated by an obstetrics-gynecology faculty member. The primary outcome was student performance during his or her first SVD as rated by supervising preceptors. Surveys were also completed by students on confidence in performing steps of a SVD (secondary outcome).
Objective
The objective of the study was to evaluate the effectiveness of a high-fidelity birth simulator (Noelle; Gaumard Scientific, Coral Gables, FL) compared with a lower-cost, low-tech, birth simulator (MamaNatalie; Laerdal Medical, Stavanger, Norway) in teaching medical students how to perform a spontaneous vaginal delivery (SVD).
Study Design
Prior to the obstetrics-gynecology clerkship, students were randomly assigned to 2 groups. The MamaNatalie group (MG) completed 45 minutes of SVD simulation using an obstetrical abdominal-pelvic model worn by an obstetrics-gynecology faculty member. The Noelle group (NG) completed 45 minutes of SVD simulation using a high-fidelity, computer-controlled mannequin facilitated by an obstetrics-gynecology faculty member. The primary outcome was student performance during his or her first SVD as rated by supervising preceptors. Surveys were also completed by students on confidence in performing steps of a SVD (secondary outcome).
Objective
The objective of the study was to evaluate the effectiveness of a high-fidelity birth simulator (Noelle; Gaumard Scientific, Coral Gables, FL) compared with a lower-cost, low-tech, birth simulator (MamaNatalie; Laerdal Medical, Stavanger, Norway) in teaching medical students how to perform a spontaneous vaginal delivery (SVD).
Study Design
Prior to the obstetrics-gynecology clerkship, students were randomly assigned to 2 groups. The MamaNatalie group (MG) completed 45 minutes of SVD simulation using an obstetrical abdominal-pelvic model worn by an obstetrics-gynecology faculty member. The Noelle group (NG) completed 45 minutes of SVD simulation using a high-fidelity, computer-controlled mannequin facilitated by an obstetrics-gynecology faculty member. The primary outcome was student performance during his or her first SVD as rated by supervising preceptors. Surveys were also completed by students on confidence in performing steps of a SVD (secondary outcome).
Objective
The objective of the study was to evaluate the effectiveness of a high-fidelity birth simulator (Noelle; Gaumard Scientific, Coral Gables, FL) compared with a lower-cost, low-tech, birth simulator (MamaNatalie; Laerdal Medical, Stavanger, Norway) in teaching medical students how to perform a spontaneous vaginal delivery (SVD).
Study Design
Prior to the obstetrics-gynecology clerkship, students were randomly assigned to 2 groups. The MamaNatalie group (MG) completed 45 minutes of SVD simulation using an obstetrical abdominal-pelvic model worn by an obstetrics-gynecology faculty member. The Noelle group (NG) completed 45 minutes of SVD simulation using a high-fidelity, computer-controlled mannequin facilitated by an obstetrics-gynecology faculty member. The primary outcome was student performance during his or her first SVD as rated by supervising preceptors. Surveys were also completed by students on confidence in performing steps of a SVD (secondary outcome).
Objective
The objective of the study was to evaluate the effectiveness of a high-fidelity birth simulator (Noelle; Gaumard Scientific, Coral Gables, FL) compared with a lower-cost, low-tech, birth simulator (MamaNatalie; Laerdal Medical, Stavanger, Norway) in teaching medical students how to perform a spontaneous vaginal delivery (SVD).
Study Design
Prior to the obstetrics-gynecology clerkship, students were randomly assigned to 2 groups. The MamaNatalie group (MG) completed 45 minutes of SVD simulation using an obstetrical abdominal-pelvic model worn by an obstetrics-gynecology faculty member. The Noelle group (NG) completed 45 minutes of SVD simulation using a high-fidelity, computer-controlled mannequin facilitated by an obstetrics-gynecology faculty member. The primary outcome was student performance during his or her first SVD as rated by supervising preceptors. Surveys were also completed by students on confidence in performing steps of a SVD (secondary outcome).
Objective
The objective of the study was to evaluate the effectiveness of a high-fidelity birth simulator (Noelle; Gaumard Scientific, Coral Gables, FL) compared with a lower-cost, low-tech, birth simulator (MamaNatalie; Laerdal Medical, Stavanger, Norway) in teaching medical students how to perform a spontaneous vaginal delivery (SVD).
Study Design
Prior to the obstetrics-gynecology clerkship, students were randomly assigned to 2 groups. The MamaNatalie group (MG) completed 45 minutes of SVD simulation using an obstetrical abdominal-pelvic model worn by an obstetrics-gynecology faculty member. The Noelle group (NG) completed 45 minutes of SVD simulation using a high-fidelity, computer-controlled mannequin facilitated by an obstetrics-gynecology faculty member. The primary outcome was student performance during his or her first SVD as rated by supervising preceptors. Surveys were also completed by students on confidence in performing steps of a SVD (secondary outcome).
Objective
The objective of the study was to evaluate the effectiveness of a high-fidelity birth simulator (Noelle; Gaumard Scientific, Coral Gables, FL) compared with a lower-cost, low-tech, birth simulator (MamaNatalie; Laerdal Medical, Stavanger, Norway) in teaching medical students how to perform a spontaneous vaginal delivery (SVD).
Study Design
Prior to the obstetrics-gynecology clerkship, students were randomly assigned to 2 groups. The MamaNatalie group (MG) completed 45 minutes of SVD simulation using an obstetrical abdominal-pelvic model worn by an obstetrics-gynecology faculty member. The Noelle group (NG) completed 45 minutes of SVD simulation using a high-fidelity, computer-controlled mannequin facilitated by an obstetrics-gynecology faculty member. The primary outcome was student performance during his or her first SVD as rated by supervising preceptors. Surveys were also completed by students on confidence in performing steps of a SVD (secondary outcome).