One success story involves a couple who had a family history of a gender - linked genetic disorder. Through IVF and PGD for gender selection, they were able to have a healthy baby girl. The process involved creating embryos in the lab, screening them for genetic health and gender, and then implanting the desired female embryo. This not only ensured the baby's health but also allowed them to have the family composition they desired.
The main benefit is that it can help families with gender - linked genetic disorders avoid passing on the disease. For example, if a disorder is more likely to affect males, a family can choose to have a female child through IVF PGD gender selection.
One success story could be a couple at high risk of having a child with a gender - linked genetic disorder. Through PGD, they were able to select an embryo of a particular gender that did not carry the faulty gene. This allowed them to have a healthy baby and start a family without the constant worry of their child having a serious, life - altering condition related to the gender - linked gene.
In some European countries, there have been cases where PGD was used for gender selection in the context of preventing gender - linked genetic disorders. For example, in the UK, certain clinics have helped couples who carry genes for disorders that predominantly affect one gender. By using PGD to select embryos of the other gender, they have had successful pregnancies and healthy babies, which is a great achievement.
One success story could be a couple who had a strong family history of a certain genetic disorder that was more prevalent in one gender. Through pre - implantation genetic diagnosis (PGD) during in - vitro fertilization (IVF), they were able to select the gender of their embryo to avoid passing on the disorder. Another example might be a family in a culture where having a male heir is highly valued. They used advanced reproductive technologies and were successful in having a male child. However, it's important to note that gender selection for non - medical reasons is controversial in many parts of the world.
Timing of intercourse is a key factor. As in the Shettles Method, having intercourse closer to ovulation may increase the likelihood of having a boy as male sperm are faster but die quicker, while female sperm are slower but more resilient. So if you time it right, it can influence gender.
One success story is the Smith family. They had been trying for a baby boy for years. Through IVF gender selection, they were able to conceive a healthy baby boy. Another example is the Johnsons. They already had two daughters and desired a son. IVF gender selection made their dream come true and they now have a happy family with a son.
There are also success stories in cases where PGD was used for sex - linked genetic disorders. For instance, if a family has a history of a disorder that predominantly affects males. PGD can be used to select female embryos. This has enabled many families to have healthy children without the fear of their child being affected by the disorder, thus significantly improving the family's quality of life.
One success story could be a couple who used the Shettles Method. They carefully timed intercourse based on the woman's ovulation cycle. They aimed for intercourse closer to ovulation for a boy and further from ovulation for a girl. In their case, they got the gender they desired. However, it's important to note that this method is not 100% accurate but it worked for them.
IVF gender selection success stories have brought great happiness to families. For example, some families had a strong preference for a certain gender due to cultural or personal reasons. Success in gender selection means they can have the family they envisioned.