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The Future of the Oocyte
Since the first successful transfer of an in vitro fertilised human egg in 1976, modern endocrinology, genetics, and assisted reproductive technologies have opened new frontiers of research with the aim to treat infertile women. In this workshop we set out to promote an interdisciplinary discussion between experts from various fields of basic, company-based and clinical research related to folliculogenesis and oocyte development. The aim of this workshop was to present, discuss and assess novel approaches in mammalian folliculogenesis and oocyte development that may have an impact on fertility/ infertility in the near or distant future. Key issues were the understanding of new modulators of folliculogenesis and regulators of cytoplasmic as well as meiotic oocyte maturation, modern technologies, the aging oocyte and pathogenetic mechanisms of infertility.
Preservation of Human Oocytes
Oocyte cryopreservation entails important potential advantages for humanIVF, offering a less ethically disputable alternative to embryo cryopreservation,simplifying and making safer oocyte donation, and giving an opportunity forfertility preservation to women at risk of premature ovarian failure as an effectof genetic factors or chemo- or radiother
Ovarian Cell Interactions
Due to the introduction of molecular and cellular biology approaches, our understanding of ovarian physiology has reached a new level during the last few years. The present volume provides a new perspective on the ovary from molecular and cellular to whole organ levels, from non-mammalian and rodent to human levels and from paracrine, neuroendocrine and endocrine levels as well. These papers represent the proceedings of the Ninth Ovarian Workshop sponsored by Serono Symposia, USA, July 9-11, 1992 in Chapel Hill, North Carolina.
Fertility Preservation
A synthesis of the most up-to-date research and technologies in fertility preservation, written by leading experts in the field.
Proto-Oncogenes in Cell Development
Presented here are the most up-to-date research findings of leading international scientists in the field of aging. The collected data explores the biological, medical, and chemical implications and the latest thinking on the role of proto-oncogenes and their relationship to cell development and deterioration in amphibians, the role of the eukaryotic cell cycle, and the role of proto-oncogenes in differentiation and development.
Germ Cell Development, Division, Disruption and Death
An exploration of germ cell development, division, disruption and death, designed for reproductive endocrinologists, microbiologists and physiologists. Topics covered include: cloning and characterization of genes expressed in germ cell lines; spermatological transplantation; and testicular ageing.
Guide to Techniques in Mouse Development, Part B
This volume comprehensively covers new technologies and methodologies that have appeared for the study of mouse development - Update of volume 225, Guide to Techniques in Mouse Development, edited by P.M. Wassarman and M.L. DePamphilis and published in 1993 - Comprehensively covers: - new techniques for the cryopreservation of gametes and embryos - production of transgenic and null (knockout) animals (use of ES cells) - generation of conditional/inducible mutant animals, use of gene-trap mutagenesis - analysis of allele-specific expression, use of new reporter constructs - humanizing of transgenic animals - transcript profiling of mouse development - imaging of mouse development - rederivation of animals and use of mouse genomics
The Human Embryo Research Debates
Research on the early human embryo has long been recognized as essential to progress in a host of biomedical areas from reproductive medicine to the treatment of pediatric cancers. Now, with the possibility of stem cell research and cell replacement therapies, embryo research holds out the promise of cures for many serious disease conditions such as diabetes and Alzheimer's disease. Despite its importance, however, human embryo research has met powerful opposition. Drawing on his experience as a member of the NIH's Human Embryo Research Panel, Green offers a first-hand account of the embryo research debates. In telling this story, he periodically pauses to reflect on some of the leading phil...
Play Up! Play Up! And Play the Game!
In August 1956 at 3 o’clock in the morning a 15-year old aspiring hockey player boarded a Greyhound bus in Yorkton, Saskatchewan to begin a journey that first took him to Maple Leaf Gardens where he achieved his childhood dream of playing in the NHL and then the journey unexpectantly led him down a path where he was able to build a 45-year career as a scientist in modern molecular medicine. Leslie Kozak explores his early life to determine how the environment created his intense competitive spirit. This exploration of life takes the reader through Leslie’s years at St. Michael’s College School, a short interlude as a Trappist monk, success as a Toronto Maple Leaf, then followed within days by a depressed fracture of his skull that ended his hockey career. Out of this journey emerges a molecular geneticist who dedicates himself in a 45-year research career to the exploration of body heat production and energy metabolism in response to a cold environment and how they could provide solutions to obesity and type 2 diabetes.
