Reproductomics The -Omics Revolution and Its Impact on Human Reproductive Medicine
Coordonnateurs : Horcajadas José A., Gosálvez Jaime
Recent advances in genomic and omics analysis have triggered a revolution affecting nearly every field of medicine, including reproductive medicine, obstetrics, gynecology, andrology, and infertility treatment. Reproductomics: The ?Omics Revolution and Its Impact on Human Reproductive Medicine demonstrates how various omics technologies are already aiding fertility specialists and clinicians in characterizing patients, counseling couples towards pregnancy success, informing embryo selection, and supporting many other positive outcomes. A diverse range of chapters from international experts examine the complex relationship between genomics, transcriptomics, proteomics, and metabolomics and their role in human reproduction, identifying molecular factors of clinical significance.
With this book Editors Jaime Gosálvez and José A. Horcajadas have provided researchers and clinicians with a strong foundation for a new era of personalized reproductive medicine.
2. Genetics variations and male infertility
3. Genetic Variations and Male Infertility
4. Carrier Screening for Inherited Genetic Disorders: A Review of Current Practices
5. TELOMERES IN GERMLINE AND EARLY EMBRYO- AN OVERVIEW
6. Human Protamine Genes’ Polymorphisms As A Possible Cause Underlying Male Infertility
7. Small RNAs present in semen and their role in reproduction
8. ALTERED TRANSCRIPTOMIC PROFILES ASSOCIATED WITH MALE INFERTILITY
9. Proteomics and metabolomics studies and clinical outcomes
10. Epigenetics, spermatogenesis and male infertility
11. Changes in DNA methylation related to male infertility
12. Non-invasive methods of embryo selection
13. Genetic selection of the human embryos: from FISH to NGS, past and future
14. Unraveling the causes of failed fertilization after intracytoplasmic sperm injection due to oocyte activation deficiency
15. The molecular signature of the endometrial receptivity: research and clinical application
16. The acquisition of the human endometrial receptivity phenotype: lessons from proteomic studies
17. Stem Cell Derived Spermatozoa
18. Computational approaches in Reproductomics
19. Year 2020: The “-Omics Technologies and Personalized Assisted Reproduction
Active researchers, clinicians, and students in the areas of human genetics, genomics, gynecology, obstetrics, andrology, embryology, endocrinology, and bioinformatics
Professor Jaime Gosalvez is a permanent member of the Department of Genetics at the Universidad Autonoma of Madrid in Spain. He received his Ph.D. in Biology with specialization in Genetics in 1979. He teaches courses on Molecular Cytogenetics, Models and Evolutive Processes and Advanced Technologies for Biology. His research interests are in the areas of molecular cytogenetics with special emphasis on DNA structure and function. He is deeply involved in the analysis of different aspects of the DNA molecule in the sperm and their possible implications in male infertility, with special emphasis in human, other mammalian species and fish, as well as those clinical aspects of the male factor to achieve pregnancy. Dr. Gosálvez has published more than 250 original articles and 190 abstracts have been presented in different national and international meetings. He has published 15 book chapters in the area of cytogenetics and sperm quality assessment and has edited two books. He has been the Principal Investigator of more than 30 national and international competitive research applications, and he is co-author of two patents with world-wide protection.
- Thoroughly discusses how genomics and other omics approaches aid clinicians in various areas of reproductive medicine
- Identifies specific genomic and molecular factors of translational value in treating infertility and analyzing patient data
- Features chapter contributions by leading international experts
Date de parution : 07-2018
Ouvrage de 425 p.
19x23.3 cm
Thèmes de Reproductomics :
Mots-clés :
< P> Human Genome Project; spermiogram; human infertility; preconceptional analysis; monogenic diseases; human embryos; NGS; infertility; point mutations; male infertility; telomere length; idiopathic infertility; endometrial receptivity; gene expression; oocyte quality; embryo viability; trophoblast; prostasomes; embryo selection; proteomics; metabolomics; epigenetics; epigenomics; spermatogenesis; DNA methylation; artificial spermatozoa; assisted reproduction; chromosomes; chromosomal abnormality; omics technologies; omics; genomics; supra-genic regulation; precision medicine; personalized medicine; prenatal diagnosis; genetic testing; functional genomics< /P>