How was test tube baby E born?
Test tube baby E (Egg freezing) is a kind of colonization technology, which can realize the purpose of postponing fertility by collecting and freezing female eggs, thawing and fertilizing them when needed. The birth of test tube baby E involves the following steps:
First, after a series of physical examinations, women receive hormone injections to promote ovarian development. This process usually lasts 10 to 12 days. During this period, the doctor will conduct regular ultrasonic examination and blood examination to ensure that the eggs are mature and the number is appropriate.
When the egg is mature, the doctor will take out the egg through a simple operation. The operation is usually performed in an operating room, using local anesthesia or mild general anesthesia. The doctor inserted a long and thin needle into the ovary, and extracted the eggs through ultrasonic guidance. This process usually takes only a few minutes.
Next, the eggs are sent to the laboratory for freezing. Doctors will add protective agents around the eggs to control the speed of freezing and ensure that the eggs are not damaged. Eggs are usually frozen in liquid nitrogen and can be stored for a long time until the patient is ready to use them.
When the frozen eggs are ready for use, the doctor will thaw them. Thawing is a process of gradually warming up to ensure that eggs are not damaged. Once the eggs are thawed, they can be used for in vitro fertilization (IVF) or other reproductive technologies. After successful fertilization, the doctor will transfer the embryo back to the female uterus. If everything goes well, pregnancy will occur.
What are the suitable populations for IVF E?
IVF E is suitable for the following groups of people:
1. Women who wish to postpone childbearing for career development or personal reasons. With the development of society, more and more women hope to consider childbearing after their career or personal development is stable. Test tube baby E provides a choice for these women.
2. People who are about to receive treatment and affect their fertility. Some women may need to receive radiotherapy, chemotherapy, surgery or other treatment, which will adversely affect their fertility. By freezing eggs, fertility can be preserved before treatment for later use.
3. People with a family history of hereditary diseases. If there is a genetic disease in the family, women can choose to freeze eggs for later gene screening, and select healthy embryos for transplantation to avoid the inheritance of genetic diseases.
4. Women with older childbearing age. The fertility of women decreases with age. Frozen eggs can preserve their healthy eggs when they are young, so that they can be used when they are older to improve the success rate.
Hospital cases adapted to the crowd
A well-known reproductive hospital in China, as one of the clinical implementers of IVF E technology, provides diversified services for the population.
The hospital has an experienced medical team with first-class equipment and professional laboratories. They use advanced technologies and processes to ensure the safe and reliable process of egg collection and freezing, and improve the survival rate and fertilization ability.
At the same time, the hospital also provides personalized diagnosis and treatment programs, tailored to the specific conditions of patients. They communicate comprehensively with patients, answer questions and provide support, and strive to realize their fertility aspirations for each patient.
summary
Test tube baby E technology provides women with more fertility choices by freezing eggs, and is suitable for people who want to postpone fertility, need treatment or have a genetic history, as well as women of older childbearing age. A well-known reproductive hospital has provided comprehensive services for the population, including professional medical teams, advanced equipment and personalized diagnosis and treatment programs. The development of IVF E has enabled more people to realize their reproductive dreams, bringing new breakthroughs to modern reproductive medicine.
