Unlike conventional single daily observations, time lapse technology provides hundreds of images, which allows pinpointing of key events in the embryo’s in vitro development as well as the detection of brief but significant critical changes. This information is beneficial in selecting the most viable embryos from a cohort and increases the chances of a positive outcome.
The Atlas of Time Lapse Embryology describes in detail the technology and techniques surrounding time lapse embryology.The book also covers the clinical aspects of time lapse imaging, morphokinetic timings, implantation data, fertilization, compaction, blastulation, irregular cleavages, multinucleation, vacuolation, zona defects, and other topics.
The book is easy to read, practical, and illustrated with dozens of images and video clips to help explain a variety of concepts. It will help practitioners to better understand how time lapse monitoring may dramatically increase flexibility in the IVF clinic, and most importantly, enhance clinical outcomes.
"A very impressive addition to the library of books and resources available for embryologists in training and in practice… The combined format of the text, pictures, and the online supplements in a simple accessible format make this a great book… A very useful book for trainers on and students training in clinical embryology." - (Highly Commended, Obstetrics & Gynecology, BMA Medical Book Awards 2016)
Equipment Required for Time Lapse Observations in In Vitro Fertilization
Clinical Aspects of Time Lapse Imaging
Time Lapse, the Cell Cycle, Distribution of Morphokinetic Timings, and Known Implantation Data
Gender and Morphokinetics Correlation
Colleen Lynch and Mercedes Reguiera
Fertilization: Pronuclear Formation and Fading
Louise Kellam and Laina Murphy
Clinical Results: Dynamic Aspects—Fragmentation
Number of Pronuclei and Ploidy in IVF /ICSI—Derived Embryos
Abigail A. Burchill
Dynamic Aspects: Compaction
Hatching of the Human Blastocyst
Kathryn Berrisford and Ellen Cater
Reverse Cleavage/Blastomere Fusion
Smooth Endoplasmic Reticulum Clusters
The Patient Perspective