 |
|
How IVF could be causing genetic errors in embryos
June 19, 2006Prague, Czech Republic: The conditions in which embryos are cultured in the laboratory during in vitro fertilisation could be causing genetic errors that are associated with certain developmental syndromes and other abnormalities in growth and development, such as low birth weight.
Researchers told the 22nd annual conference of the European Society of Human Reproduction and Embryology today (Monday) that preliminary work investigating genetic imprinting in mouse embryos had shown that certain culture media and concentrations of oxygen altered the expression of several imprinted genes.
Imprinting is the process by which some genes are activated or inactivated depending on whether they have been inherited in chromosomes from the mother or the father.
Professor Paolo F Rinaudo, a scientist at the Center for Reproductive Sciences, University of California, San Francisco, USA, said: "We found that the culture of mouse embryos in the laboratory is sufficient to alter the expression of several imprinted genes and that this effect can be modified by the composition of the culture medium and oxygen concentration.
"Interestingly, the expression of one gene, H19, was reduced regardless of the culture conditions, and as H19 is associated with Beckwith Wiedeman syndrome, this finding needs to be investigated further."
However, he cautioned against reading too much into his results at this stage. "These studies are important for better directing future resources and studies in humans. But we must remember that these are preliminary results in a mouse model, and they need to be repeated and confirmed in other strains of mice before translating to studies in humans."
Other research has suggested that culturing embryos in the laboratory during IVF could be affecting embryos adversely. "Emerging new evidence shows that some neurological and behavioural abnormalities are associated with assisted reproductive techniques. Cases of Angelman and Beckwith Wiedeman syndromes in humans, which are due to aberrant genomic imprinting, and other abnormalities in growth and development in mice have been described after culture in vitro," said Professor Rinaudo. Angelman syndrome is characterised by severe mental retardation, speech impairment, balance disorder and a happy, excitable demeanour; it occurs in about one in 10,000 to 30,000 of the population. Beckwith Wiedeman syndrome is characterised by overgrowth, with an abnormally large tongue, umbilical hernia, neonatal hypoglycaemia and a predisposition to certain tumours, in particular, Wilms tumour and hepatoblastoma; it is rare, occurring in one in 36,000 of the population.
Professor Rinaudo and his colleagues cultured mouse embryos in four media with 5% oxygen. Two of the four media were also used with 20% oxygen, making six different cultures in total. As a control, some embryos were left to mature in the mice (in vivo).
"We identified 38 imprinted genes, most of which showed no difference in expression after in vitro culture compared to the in vivo embryos. Five genes showed a statistical difference compared to the in vivo control, depending on the culture conditions," he said.
The five genes were:
- Cd81— expresses a membrane protein with unknown function during embryogenesis. It is involved in T cell development (part of the immune system) and the hepatitis C virus binds to it to gain entry to cells.
- H19 — a developmentally regulated gene, thought to be a tumour suppressor and associated with Beckwith Wiedeman syndrome.
- Slc38a4 — plays a role in amino acid transport to cells.
- Copg2 — plays a role in transport of proteins within cells and is associated with Silver-Russell syndrome, a growth disorder occurring in 1 in 75,000 births (involves intrauterine growth restriction and subsequent poor growth).
- Gnas — plays a role in cell signalling and is associated with McCune-Albright syndrome (involves bone, hormone and skin abnormalities), pseudohypoparathyroidism Ib (involves inadequate levels of calcium and excessive levels of phosphates in the blood), and GH-secreting adenomas (type of tumour).
Of these, the greatest changes in gene expression were seen in Cd81 (consistently over-expressed in all media) and H19 (consistently under-expressed in all media), but Professor Rinaudo said the significance of these findings was unclear at present.
"The next stage of our research is to examine further the effects of IVF and ICSI on the genetic make-up and the form and function of cells from mouse embryos. We want to understand why these techniques appear to be affecting the imprinting of these genes. We hope this understanding will enable the scientific community to make better culture media for IVF in humans.\\\
European Society for Human Reproduction and Embryology
Professor Paolo F Rinaudo, a scientist at the Center for Reproductive Sciences, University of California, San Francisco, USA, said: "We found that the culture of mouse embryos in the laboratory is sufficient to alter the expression of several imprinted genes and that this effect can be modified by the composition of the culture medium and oxygen concentration.
"Interestingly, the expression of one gene, H19, was reduced regardless of the culture conditions, and as H19 is associated with Beckwith Wiedeman syndrome, this finding needs to be investigated further."
However, he cautioned against reading too much into his results at this stage. "These studies are important for better directing future resources and studies in humans. But we must remember that these are preliminary results in a mouse model, and they need to be repeated and confirmed in other strains of mice before translating to studies in humans."
Other research has suggested that culturing embryos in the laboratory during IVF could be affecting embryos adversely. "Emerging new evidence shows that some neurological and behavioural abnormalities are associated with assisted reproductive techniques. Cases of Angelman and Beckwith Wiedeman syndromes in humans, which are due to aberrant genomic imprinting, and other abnormalities in growth and development in mice have been described after culture in vitro," said Professor Rinaudo. Angelman syndrome is characterised by severe mental retardation, speech impairment, balance disorder and a happy, excitable demeanour; it occurs in about one in 10,000 to 30,000 of the population. Beckwith Wiedeman syndrome is characterised by overgrowth, with an abnormally large tongue, umbilical hernia, neonatal hypoglycaemia and a predisposition to certain tumours, in particular, Wilms tumour and hepatoblastoma; it is rare, occurring in one in 36,000 of the population.
Professor Rinaudo and his colleagues cultured mouse embryos in four media with 5% oxygen. Two of the four media were also used with 20% oxygen, making six different cultures in total. As a control, some embryos were left to mature in the mice (in vivo).
"We identified 38 imprinted genes, most of which showed no difference in expression after in vitro culture compared to the in vivo embryos. Five genes showed a statistical difference compared to the in vivo control, depending on the culture conditions," he said.
The five genes were:
- Cd81— expresses a membrane protein with unknown function during embryogenesis. It is involved in T cell development (part of the immune system) and the hepatitis C virus binds to it to gain entry to cells.
- H19 — a developmentally regulated gene, thought to be a tumour suppressor and associated with Beckwith Wiedeman syndrome.
- Slc38a4 — plays a role in amino acid transport to cells.
- Copg2 — plays a role in transport of proteins within cells and is associated with Silver-Russell syndrome, a growth disorder occurring in 1 in 75,000 births (involves intrauterine growth restriction and subsequent poor growth).
- Gnas — plays a role in cell signalling and is associated with McCune-Albright syndrome (involves bone, hormone and skin abnormalities), pseudohypoparathyroidism Ib (involves inadequate levels of calcium and excessive levels of phosphates in the blood), and GH-secreting adenomas (type of tumour).
Of these, the greatest changes in gene expression were seen in Cd81 (consistently over-expressed in all media) and H19 (consistently under-expressed in all media), but Professor Rinaudo said the significance of these findings was unclear at present.
"The next stage of our research is to examine further the effects of IVF and ICSI on the genetic make-up and the form and function of cells from mouse embryos. We want to understand why these techniques appear to be affecting the imprinting of these genes. We hope this understanding will enable the scientific community to make better culture media for IVF in humans.\\\
European Society for Human Reproduction and Embryology
Embryology Current Events and Embryology News RSSA research work carried out in mice will contribute to the study of hereditary diseases that lead to blindness
Noticias UGR Researchers of the University of Granada (Spain) have used a technique consisting of the induction of neuronal degeneration neuronal for intense light exposure in the mouse's retina that will be helpful for the study of retinitis pigmentosa (RP), a group of hereditary diseases which lead to blindness and affect more than one million persons a year all over the world.
Will IVF work for a particular patient? The answer may be found in her blood
For the first time, researchers have been able to identify genetic predictors of the potential success or failure of IVF treatment in blood.
Women with endometriosis need special care during pregnancy to avoid risk of premature birth
The largest study to date of endometriosis in pregnant women has found that the condition is a major risk factor for premature birth.
Cancer survivors at greater risk of birth complications; special monitoring needed
Survivors of childhood cancer run particular risks when pregnant and should be closely monitored.
Chromosomal problems affect nearly all human embryos
For the first time, scientists have shown that chromosomal abnormalities are present in more than 90% of IVF embryos, even those produced by young, fertile couples.
Daily sex helps to reduce sperm DNA damage and improve fertility
Daily sex (or ejaculating daily) for seven days improves men's sperm quality by reducing the amount of DNA damage.
Who goes abroad for fertility treatment and why?
A substantial number of European patients travel to other countries for fertility treatment, both because they think that they will receive better quality care abroad and in order to undergo procedures that are banned in their home country.
Female human embryos adjust the balance of X chromosomes before implantation
Dutch researchers have found the first evidence that a process of inactivating the X chromosome during embryo development and implantation, which was known to occur in mice but unknown in humans, does, in fact, take place in human female embryos prior to implantation in the womb.
High levels of cycling training damage triathletes' sperm
The high-intensity training undertaken by triathletes has a significant impact on the quality of their sperm.
New, less invasive genetic test greatly improves pregnancy rates in older women with poor prognosis
A new test examining chromosomes in human eggs a few hours after fertilisation can identify those that are capable of forming a healthy baby.
More Embryology Current Events and Embryology News Articles
 |
Langman's Medical Embryology: North American Edition by Thomas W Sadler (Author) Widely acclaimed for its scientific authority, pedagogy, clinical relevance, and clear, concise writing, this classic text covers all aspects of embryology of interest to medical, nursing, and health professions students. It features outstanding full-color illustrations and clinical images and photographs, end-of-chapter summaries and Problems to Solve, and Clinical Correlates boxes that provide information on birth defects and other clinical entities directly related to embryologic concepts. This Eleventh Edition has additional images in the birth defects chapters, many new full-color clinical photographs, and recolorized drawings. Other highlights include a glossary, new and updated Problems to Solve, and updated molecular genetics information. A companion Website will include the fully... |
 |
Larsen's Human Embryology: With STUDENT CONSULT Online Access (Schoenwolf,Larsen's Human Embryology) by Gary C. Schoenwolf PhD (Author), Steven B. Bleyl MD PhD (Author), Philip R. Brauer BS PhD (Author), Philippa H. Francis-West PhD (Author) This book presents in-depth coverage of both the clinical and molecular biological aspects of human development. It examines the relationship between basic science and embryology, and describes potential clinical disorders arising out of embryologic problems. A strong clinical focus, practical design, and superb artwork-with more than 150 images new to this edition-allow for quick comprehension and easy application of the latest knowledge in this rapidly advancing field. A user-friendly design enables you to review the material in several ways, and online access to Student Consult enhances your study of the subject and exponentially boosts your reference power. Follows a user-friendly design allowing students to review material in flexible ways and instructors to tailor the book to... |
 |
BRS Embryology (Board Review Series) by Ronald W Dudek (Author) BRS Embryology, Fourth Edition is a succinct outline-format review for USMLE and course exams, with USMLE-style questions at the end of each chapter and a comprehensive USMLE-style examination at the end of the book. The book also includes radiographs, sonograms, computed tomography scans, and photographs of various congenital malformations. This updated edition has a new organization: prefertilization through the embryonic period; system by system; genetic abnormalities; and teratology. The chapter on structural chromosomal abnormalities has been substantially revised. This edition's review questions are in the clinical vignette-based format of the current USMLE. A companion Website offers the fully searchable online text and an interactive question bank. |
 |
The Developing Human: Clinically Oriented Embryology With STUDENT CONSULT Online Access by Keith L. Moore BA MSc PhD FIAC FRSM (Author), T. V. N. Persaud MD PhD DSc FRC Path(Lond) (Author) This popular text makes it surprisingly easy to gain an in-depth understanding of human embryology. Engaging and richly illustrated, it examines all aspects of human development, emphasizing both basic concepts and relevant clinical problems. The book presents a week-by-week and stage-by-stage view of how fetal organs and systems develop, why and when birth defects occur, and what roles the placenta and fetal membranes play in development. The comprehensively updated 8th edition comes with access to the complete contents online via Student Consult, plus 18 phenomenal embryology animations, additional review questions and answers, and more. Editor Keith L. Moore, BA, MSc, PhD, FIAC, FRSM is the recipient of the first (2007) "Henry Gray/Elsevier Distinguished Educator Award"-the... |
 |
Basic Concepts in Embryology: A Student's Survival Guide by Lauren Sweeney (Author) This Basic Concepts title sheds light on the most elusive concepts in embryology and does so in a concise, lively manner. The level of detail is geared directly to that which is required by students in a way which esily accesses the most relevant information. The book utilizes jargon-free language and innovative teaching techniques to promote an understanding of concepts--not just the rote memorization of facts. To further enhance comprehension, text and illustrations accompany each other on the same or facing pages. |
 |
High-Yield Embryology (High-Yield Series) by Ronald W Dudek (Author) High-Yield Embryology, Fourth Edition provides a concise, focused review of the most important embryology information needed for the USMLE Step 1. Chapters cover prefertilization events and the embryonic period, embryologic development of each organ system, chromosomal abnormalities, inherited diseases, teratology and more. To prepare students for the clinical vignettes on the USMLE, the book includes numerous clinical cases with words and phrases that patients use. A mini-atlas at the end of each chapter presents photographs, MRIs, CT scans, and radiographs of various congenital malformations. |
 |
Before We Are Born: Essentials of Embryology and Birth Defects With STUDENT CONSULT Online Access (Before We Are Born: Essentials of Embryology & Birth Defects) by Keith L. Moore BA MSc PhD FIAC FRSM (Author), T. V. N. Persaud MD PhD DSc FRC Path(Lond) (Author) Zero in on the most essential concepts in human embryology and development! Concise and richly illustrated, this popular book delivers the embryology knowledge you need in a highly efficient, reader-friendly format. The comprehensively updated 7th edition comes with access to the complete contents online via Student Consult, plus 18 phenomenal embryology animations, additional review questions and answers, and more Editor Keith L. Moore, BA, MSc, PhD, FIAC, FRSM is the recipient of the first (2007) "Henry Gray/Elsevier Distinguished Educator Award"-the American Association of Anatomists' highest award for excellence in human anatomy education at the medical/dental, graduate, and undergraduate level of teaching-a testament to his masterful teaching abilities, which help make this... |
 |
Essentials of Human Embryology by William James Larsen (Author) Univ. of Cincinnati, OH. Textbook for health sciences students needing a condensed resource. Includes full-color and halftone illustrations, suggested readings and a glossary. Based on the first edition of Human Embryology, c1993. Softcover. DNLM: Embryology. |
 |
Human Embryology by William J. Larsen (Author), Lawrence S. Sherman (Author), S. Steven Potter (Author), William J. Scott (Author) This basic textbook of human embryology covers both clinical and molecular biological aspects of human development. It offers in-depth, thorough coverage of the latest information, including separate sections in each chapter on clinical relevance and experimental studies. Human Embryology also features a first rate, four-color art program with superb photographs and electronmicrographs. |
 |
Netter's Atlas of Human Embryology (Netter Basic Science) by Larry R. Cochard PhD (Author) Northwestern Univ., Chicago, IL. Atlas is an ideal companion to any embryology text and a source for USMLE review. Includes abundant color hand-drawn illustrations taken from Dr. Frank H. Netter's series of systematic monographs. Also includes 40 new illustrations, descriptive image captions, and appendix summary of major congenital anomalies. Softcover. |
| © 2009 BrightSurf.com |