How are the 123 generations of IVF different from the previous generations of IVF? How to further explore?

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The Difference between the 123 Generation of IVF and the Previous IVF

The 123rd generation of IVF refers to the IVF using a new generation of artificial pregnancy technology. Compared with the previous IVF, it is different in many aspects.

1. Accurately locate and select embryos

The traditional IVF can only screen embryos with specific genetic disease risks through genetic testing before embryo implantation, while the 123 generations of IVF have more advanced technology, which can conduct genetic screening on multiple potential embryos before embryo transfer, and select the best embryo for transfer. This increases the success rate of surgery and reduces the risk of abnormalities after embryo transfer.

The further exploration direction can be to use more advanced genetic technology, such as single cell genetic diagnosis, to conduct more accurate gene screening on embryos, so as to further improve the quality and success rate of embryo transfer.

2. Improve the success rate of in vitro fertilization

In vitro fertilization (IVF) is an important part of IVF. The traditional IVF technology has a certain risk of failure in the process of IVF. The 123 generations of IVF babies introduced a new generation of IVF technologies, such as minimally invasive embryo retrieval, frozen eggs and embryos, which effectively improved the success rate of IVF.

The future direction of exploration can be to further optimize the operation methods and environmental conditions of IVF, develop new culture media and enhance embryo development technology, so as to further improve the success rate of IVF.

3. Increase the ability to predict pregnancy complications

The 123 generations of IVF can not only carry out genetic screening for embryos, but also comprehensively and systematically evaluate the mother, thus increasing the ability to predict potential pregnancy complications. For example, the risk of gestational diabetes, pregnancy induced hypertension and other diseases can be detected early through serum biomarker monitoring, endocrine level determination, ultrasound and other technologies.

The further exploration direction can be to integrate multiple detection technologies and methods and establish a more reliable prediction model to improve the accuracy of early detection of pregnancy complications and the effect of timely intervention.

4. Promote gene repair of genetic diseases

In vitro baby 123 generation technology can also cure or prevent embryos carrying genetic disease risk through gene repair technology. For example, gene editing techniques such as CRISPR-Cas9 can accurately repair genetic defects in embryos.

The future exploration direction can be to further improve gene editing technology, improve repair efficiency and accuracy, and conduct in-depth research on its long-term safety.

In conclusion, compared with traditional IVF, the 123 generations of IVF have advanced technologies and methods in embryo selection, in vitro fertilization, prediction of pregnancy complications and gene repair of genetic diseases. The future direction of exploration can be to further optimize and improve these technologies to improve the success rate and quality of IVF.