Head Development: Genetic Determinants And Tissue Potency
Funder
National Health and Medical Research Council
Funding Amount
$947,116.00
Summary
Congenital malformations involving major defects of brain (anencephalus and related anomalies) and facial structures (ear, face and neck) are encountered in 3.4 and 1.4 per 10000 births respectively (Congenital Malformations Australia 1981-1996, National Perinatal Statistics Unit) and they constitute a substantial clinical burden. It is believed that these major structural defects usually result from abnormal development in the first trimester, which coincides with the time frame for the formati ....Congenital malformations involving major defects of brain (anencephalus and related anomalies) and facial structures (ear, face and neck) are encountered in 3.4 and 1.4 per 10000 births respectively (Congenital Malformations Australia 1981-1996, National Perinatal Statistics Unit) and they constitute a substantial clinical burden. It is believed that these major structural defects usually result from abnormal development in the first trimester, which coincides with the time frame for the formation of the basic components of the embryonic head in the mouse. Knowledge of the formation of the head in the mouse model is therefore relevant to the understanding of related developmental processes in early human development. This project which involves the application of sophisticated embryological and molecular analyses on mouse embryos generated by transgenesis and genetic manipulation provides a detailed studies of craniofacial morphogenesis in a mammalian model for early human development. The micro-manipulation procedures, embryo culture, fluorescence microscopy and the in situ hybridization are routinely performed in our laboratory, and most of the mouse lines are well established in my laboratory. Experiments proposed for this project that focus on the embryological and molecular analysis of normal and mutant embryos should discover new information on the cellular and molecular mechanisms that regulate head development. The knowledge will also offer insight into the pathogenesis of similar craniofacial malformations in other mutant embryos.Read moreRead less
Metabolic And Molecular Basis Of Embryo Signalling
Funder
National Health and Medical Research Council
Funding Amount
$409,836.00
Summary
Cells in the body are powered by mitochondria that essentially generate the energy required for development. This grant will determine how the environment affects the mitochondria in the developing embryo and determine the impacts to the embryo and pregnancy if a mitochondria is partially shut down.
It is clear that the health and disease burden of offspring can be programmed by events before birth. This project will answer questions as to how this programming occurs. My focus is to understand how the environment affects the oocyte, sperm and embryo and how this impacts on the offspring. We will specifically study the effects of obesity and nutritional status of the parents but also the in vitro environment with a view to improving IVF outcomes.
Identifying Genes Required For Vertebral Column And Heart Formation
Funder
National Health and Medical Research Council
Funding Amount
$950,418.00
Summary
Birth defects occur in about 3% of live births. These originate as the embryo forms, and we have previously shown that some of these are caused by gene mutation and/or environmental factors during gestation. However, the origins of many such defects remain unexplained. We will examine the DNA of patients to find gene mutations causing such defects. We will also test if mutations in these genes increase the likelihood of the embryo developing a defect if it is exposed to environmental stressors.
Three percent of children born in Australia are from IVF. It is typical in IVF to replace 2 or more embryos in order to attain an acceptable pregnancy rate. However, twin pregnancies are common as a result, with 25% of all twins coming from IVF. Twins represent a real medical issue for mother and infants. Therefore, this research will use new highly innovative technologies to determine the health of an individual embryo in the culture dish prior to transfer, making the selection and transfer of ....Three percent of children born in Australia are from IVF. It is typical in IVF to replace 2 or more embryos in order to attain an acceptable pregnancy rate. However, twin pregnancies are common as a result, with 25% of all twins coming from IVF. Twins represent a real medical issue for mother and infants. Therefore, this research will use new highly innovative technologies to determine the health of an individual embryo in the culture dish prior to transfer, making the selection and transfer of an individual embryo a reality.Read moreRead less