In vitro fertilization (IVF) is a treatment option for women diagnosed with infertility, whether due to blocked or damaged Fallopian tubes, endometriosis, immunological infertility, cervical factor infertility, male factor infertility, or an unexplained cause. In vitro fertilization involves mixing egg cells with sperm cells in vitro - that is, in a laboratory rather than in the body. Once fertilization occurs, the embryos are transferred into the mother's uterus, creating a pregnancy that will be carried to term and delivered normally.
During in vitro fertilization, oocytes are retrieved from the patient and inseminated four to six hours later with sperm. After 16-20 hours, the oocytes are examined to see if fertilization has occurred. If it has, the embryo is cultured for an additional 48 to 96 hours and selected embryos are transferred to the patient's uterus during an embryo transfer procedure either on Day Three or Day Five after egg retrieval. During the transfer procedure, a small-bore catheter is passed through the cervical canal into the patient's uterus.
For a woman undergoing in vitro fertilization, each step of this process has been fine-tuned to increase her chance of pregnancy.
In vitro fertilization is the most effective therapy for patients who have been diagnosed with infertility. The treatment was originally designed for women with Fallopian tubes that are either blocked, severely damaged, or absent. In vitro fertilization is now also a therapy for patients with endometriosis, uterine factor infertility, anovulatory factor infertility and unexplained infertility.
In addition, IVF is an excellent choice for couples with mild to moderate male factor infertility. One of the advantages to selecting IVF is that fertilization of the egg can be identified, and embryo quality can be assessed in the IVF laboratory. Such assessment may provide insight regarding possible causes of infertility and the direction of any future treatment.In Vitro Fertilization success rates. Many factors may influence a couple's chance for success, including the age of the woman, the couple’s diagnosis, the quality of the sperm and the response of the woman's ovaries to medication. In addition, each phase of the in vitro fertilization cycle may or may not be successful. For example, if the ovaries have a poor response to medication, few or no eggs may develop resulting in cancellation of the cycle. There is also a small chance that fertilization may not occur due to either sperm and/or egg defects.
Furthermore, eggs may be retrieved and embryos obtained, but the embryos may be of poor quality and lack the ability to develop. Finally, embryo transfer may be technically difficult or impossible (extremely rare). The most common reason for failure in an in vitro fertilization cycle is failure of the embryo(s) to implant within the uterus, usually associated with embryo quality issues.
Most patients want to know the chance of taking home a baby after their in vitro fertilization treatment. While this is an important statistic, it is also relevant to look at the number of pregnancies that involve triplets or more (high order multiple birth rate). Since these pregnancies involve risks to both the mother and the fetuses, IVF clinics strive to maximize pregnancy rates while minimizing the number of high order multiple pregnancies established.
Therefore, when reviewing program statistics, the most important figures to assess are the percent of live-births per treatment cycle and the percentage of pregnancies with triplets or more.
We are a member of the Society for Assisted Reproductive Technology (SART) and report our success rates to the Centers for Disease Control and Prevention (CDC) on an annual basis. View our SART statistics.
For couples with severe male factor infertility, in vitro fertilization with intracytoplasmic sperm injection (ICSI) provides the best chances for a successful outcome.
Assisted hatching (AH) improves success rates for special populations.
Special Treatment for Genetic and Inherited Disorders