A Dynamic Compliance Cervix Phantom Robot for Latent Labor Simulation.

Journal: Soft robotics

PMID: 29741988

Abstract

Physical simulation systems are commonly used in training of midwifery and obstetrics students, but none of these systems offers a dynamic compliance aspect that would make them more truly representative of cervix ripening. In this study, we introduce a unique soft robot phantom that simulates the cervix softening during the latent labor phase of birth. This proof-of-concept robotic phantom can be dilated by 1 cm and effaced by 35% through the application of a Foley catheter-like loading mechanism. Furthermore, psychophysics trials demonstrate how untrained subjects can identify hard and soft states of the phantom with specificities of 91% and 87%, respectively. Both results indicated the appropriateness for application of this soft robot technology to birth training simulators.

Authors

Michelle Jennifer Luk

1 Faculty of Medicine, University of Toronto , Toronto, Canada .
Derek Lobb

2 Department of Obstetrics and Gynecology, McMaster University , Hamilton, Canada .
James Andrew Smith

3 Department of Electrical Engineering and Computer Science, York University , Toronto, Canada .

Keywords

Cervical Ripening Cervix Uteri Female Gynecology Humans Labor, Induced Pregnancy Robotics

External Resources

View on PubMed Access via DOI PubMed (29741988)

A Dynamic Compliance Cervix Phantom Robot for Latent Labor Simulation.

Abstract

Authors

Keywords

External Resources

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