Fairfield ∙ Norwalk ∙ Trumbull
In Vitro Fertilization (IVF) was developed in the United Kingdom by Doctors Patrick Steptoe and Robert Edwards.
The first so-called "test-tube baby", Louise Brown, was born as a result of IVF on July 25, 1978.
The first successful In Vitro Fertilization treatment in the United States (producing Elizabeth Jordan Carr) occurred three years later, in 1981. Since then, IVF has become a successful treatment for infertility, with more than 1% of all births now being conceived as a result of IVF.
Initially In Vitro Fertilization was developed to overcome infertility due to problems of the fallopian tube (such as blockages or scar tissue), but it has evolved into a successful treatment for almost all causes of infertility. With the introduction of intracytoplasmic sperm injection or ICSI (injecting a single sperm into the egg), virtually all causes of male infertility can be overcome. IVF can be successful as long as healthy eggs and sperm can be obtained from couples.
Treatment cycles are typically started on the third day of menstruation and consist of a regimen of fertility medications to stimulate the development of multiple follicles (that contain eggs) of the ovaries. Patient usually first start birth control pills to “rest” the ovaries prior to taking stimulatory medications. Shortly thereafter, patients start taking injectable fertililty medications (containing follicle stimulating hormone [FSH] and/or luteinizing hormone [LH]), and are subsequently closely monitored. Monitoring ia accomplished by both blood work (to check hormone levels) and by ultrasound (to monitor the growth of the follicles that contain the eggs). Approximately 10-12 days of stimulatory injections are needed to achieve optimal follicular growth and development.
Oocyte (egg) retrieval
When egg maturation is judged to be adequate by ultrasound and blood work, human chorionic gonadotropin (hCG) is adminsitered by injection. hCG matures the eggs prior to removing them from the ovaries; thus, without this last injection, all eggs retrieved would be immature and incapable of being fertilized.
Oocyte (egg) retrieval
When egg maturation is judged to be adequate by ultrasound and blood work, human chorionic gonadotropin (hCG) is adminsitered by injection. hCG matures the eggs prior to removing them from the ovaries; thus, without this last injection, all eggs retrieved would be immature and incapable of being fertilized. The eggs are retrieved from the patient transvaginally. In this way, using ultrasound guidance, a needle is carefully introduced through the vaginal wall and into the ovaries. Gentle suction is applied, and the fluid from each ovarian follicle is removed as is the egg as well.
This fluid (with the eggs) is transferred to the embryologist in the IVF laboratory, who then identifies the eggs and transfers them to incubators. The egg retrieval procedure takes about 15-20 minutes and is performed under local anesthesia and light sedation.
The In Vitro Fertilization laboratory
In the IVF laboratory, the eggs are stripped of surrounding cells (which initially are there to support the growth of the egg) and prepared for fertilization. In the meantime, semen provided by the male partner is prepared for fertilization by removing inactive cells and seminal fluid, thus isolating healthy, motile (moving) sperm. The sperm and the egg are then incubated together (about 75,000 – 100,000 sperm are incubated with each egg) in the culture media (a very neutral solution similar to that found in the fallopian tube) for approxiamtely 18 hours. Fertilization can then be ascertained by that time. In situations where the sperm count is too low to place thousands of sperm with the egg, a single sperm is injected directly into the egg by a technique called Intracytoplasmic Sperm Injection (ICSI). ICSI CT.
With ICSI, if there are ten eggs, then only a total of ten healthy sperm are needed to achieve fertilization.
Fertilized eggs are now termed embryos.
Oocyte is injected during ICSI
8-cell embryo for transfer
Blastocyst for transfer
Typically, embryos are transferred three days after retrieval (at the 6-8 cells stage). In some situations, embryos are further incubated for two more days, resulting in embryos called blastocysts, containing over 200 cells. In cetain instances, patients may benefit from transferring back blastocysts rather than embryos containing fewer cells.
The highest quality embryos are then transferred to the patient's uterus using a thin, soft catheter which is passed through the cervix and into the uterus. This is performed by speculum exam. No anesthesia is needed at the time of embryo transfer. Usually, two embryos are recommended for transfer, which maximizes the patient’s chances of conceiving without placing them at risk for higher order multiple pregnancy. In some instances (based on a patient’s age and history), more than two embryos may be recommended for transfer. Immediately after the embryo transfer, the patient will lie down for approximately 20 minutes before being discharged home.
A pregnancy test is checked 14 days after the egg retrieval (14 days from when fertilization occurred, which corresponds to 9-11 days after the embryo transfer). During this time period, patients take progesterone—a hormone that maintains the uterine lining and helps to make it suitable for implantation – either by injection or by vaginal suppository. If a patient becomes pregnant, she continues progesterone supplementation through 8-10 weeks of pregnancy. Women undergoing In Vitro Fertilization must take some form of progesterone supplementation since both the medications during stimulation and the egg retrieval procedure itself prevent her body from making adequate amounts of progesterone. Pregnancy rates from IVF vary – they are dependent upon the patient’s age, reproducitve history, and diagnosis.
In general, younger patients have a higher rate of success from In Vitro Fertilization compared to older patients. Rates of success are also determined by the quality of the eggs and sperm and resultant embryo quality observed. Once pregnancy is achieved, the chances of having a live birth is the same as that compared to a pregnancy achieved in a spontaneous pregnancy.
Pregnancies achieved from In Vitro Fertilization are not considered to be high-risk. Miscarriage rates are similar to that observed among patients who conceived without undergoing In Vitro Fertilization (IVF-Connecticut).