Open Access. Powered by Scholars. Published by Universities.®
- Institution
- Keyword
-
- Adult (1)
- Base Sequence (1)
- Childbirth (1)
- Female (1)
- Gene Library (1)
-
- Humans (1)
- Instructed pushing (1)
- Labor (1)
- Lacerations (1)
- Molecular Sequence Data (1)
- Mutation, Missense (1)
- Ovarian Hyperstimulation Syndrome (1)
- Ovarian Hyperstimulation Syndrome--genetics (1)
- Perineal tears (1)
- Perineal trauma (1)
- Pushing (1)
- Pushing methods (1)
- Receptors, LH (1)
- Second stage (1)
- Sequence Analysis, DNA (1)
- Sequence Analysis, DNA--methods (1)
- Spontaneous pushing (1)
Articles 1 - 2 of 2
Full-Text Articles in Obstetrics and Gynecology
Reducing Perineal Tears: The Effect Of Pushing Methods And Length Of 2nd Stage Of Labor, Kristen A. Mohre, Jessica A. Wall, Chien-Yueh Lee
Reducing Perineal Tears: The Effect Of Pushing Methods And Length Of 2nd Stage Of Labor, Kristen A. Mohre, Jessica A. Wall, Chien-Yueh Lee
Pharmacy and Nursing Student Research and Evidence-Based Medicine Poster Session
Objective: To evaluate the current literature evidence for the effects of either instructed or spontaneous pushing on perineal laceration incidence during delivery and the duration of second stage of labor.
Background: Lacerations (tears) of the perineum are common among women during delivery, increasing pain, infection risk, and other problems for women. Furthermore, prolonged second stage of labor has been shown a risk factor for lacerations. Pushing methods could have an effect on the incidence of lacerations and duration of second stage of labor.
Methods: Thorough search of online databases for the highest levels of evidence relating to the topic within …
Targeted Single Molecule Sequencing Methodology For Ovarian Hyperstimulation Syndrome., Funda Orkunoglu-Suer, Arthur F. Harralson, David Frankfurter, Paul Gindoff, Travis J. O'Brien
Targeted Single Molecule Sequencing Methodology For Ovarian Hyperstimulation Syndrome., Funda Orkunoglu-Suer, Arthur F. Harralson, David Frankfurter, Paul Gindoff, Travis J. O'Brien
Genomics and Precision Medicine Faculty Publications
BACKGROUND: One of the most significant issues surrounding next generation sequencing is the cost and the difficulty assembling short read lengths. Targeted capture enrichment of longer fragments using single molecule sequencing (SMS) is expected to improve both sequence assembly and base-call accuracy but, at present, there are very few examples of successful application of these technologic advances in translational research and clinical testing. We developed a targeted single molecule sequencing (T-SMS) panel for genes implicated in ovarian response to controlled ovarian hyperstimulation (COH) for infertility.
RESULTS: Target enrichment was carried out using droplet-base multiplex polymerase chain reaction (PCR) technology (RainDance®) …