Puk Sandager , Niels Uldbjerg , Christine Rohr Thomsen (Antonsen) & Mogens Hinge
Aim
The aim of this study is to:
• Assess the intra- and interobserver reliability of elastography of the cervix with a cap of a water-based material as reference material
• Assess the correlation between compressibility of the uterine cervical tissue evaluated by quantitative elastography and the success of induction of labor
Hypothesis
Evaluation of the cervical tissue by quantitative elastography in post-term pregnant women can predict the success of induction of labor.
Description
01/02-2020 → 31/01-2021
Christine Rohr Thomsen (Antonsen) , Isil Pinar Bor , Niels Uldbjerg , Puk Sandager & Mogens Hinge
The overall aim of the study is to develop in vitro and to assess in women a clinical useful method for assessment of the biomechanical properties of the uterine cervix. The technique is based on elastography combined with a reference cap, already developed in collaboration with Mogens Hinge and his group at the Department of Engineering, Aarhus University. Description
01/03-2017 → 10/03-2021
Michal Kazimierz Budzik , Simon Heide-Jørgensen & Mogens Hinge
Adhesives are used throughout industry, but many contain toxics and others are not reliable or durable. But what if you could merge two materials together using clean molecular bonding? That is exactly what scientists are working on right now.Description
01/01-2016 → 31/03-2019
Lars Ditlev Mørck Ottosen , Mogens Hinge , Rune Brincker , Jørgen Skibsted & O.R. Clausen
01/04-2014 → 31/03-2024
