|
How can I be sure that the IVF laboratory will not mix up any of my sperm, eggs or embryos with those from another patient?
An error of this type cannot happen in the IVF laboratories of Pacific Fertility Center. This is because we take special precautions and extra care in following following SurTransferSM protocols, and double check every step of each procedure. Petridishes and test tubes containing sperm, eggs or embryos are labeled with identifying information for each patient and color coded to prevent mix-ups. If we receive a sperm sample from John Smith, for example, his ID will be checked when he gives us the sample and he will be assigned a color (red, for example). Any tubes or dishes that are used in the processing of the sample will contain his full name and his partner's full name, another piece of identifying information such as date of birth or social security number, and will be color coded in red. In addition to these labeling procedures, there is a checking system to prevent human errors. Each time a procedure is performed by an Embryologist, a second Embryologist has to witness the event. Even if John Smith was only having a semen analysis, a second member of staff has to verify the results before they are released to a Physician. If the sperm are being used to inseminate his partner's eggs, a second Embryologist has to verify that the correct eggs and sperm have been removed from the incubator (by checking names, ID and color on the dishes, and crosschecking with the medical chart), before the Embryologist performing the procedure can actually proceed with the insemination. At the conclusion of the procedure, both Embryologists sign the patient's chart (which is the legal record of the procedure). These same checks and balances are used during each laboratory procedure and can be seen in action by patients having embryo transfers. At transfer time, the Embryologist performing the transfer will ask the patient their full name, and repeat the name back to the patient to verify what they heard. A photograph of the embryos being transferred is taken with the patients name imprinted on the photograph. The identity of the dish containing the embryos is double checked by a second Embryologist and the embryos are loaded into the transfer catheter. As the catheter is handed over to the Physician, the Embryologist will repeat the patient's name and give details of the contents of the catheter (e.g. "here are 3 embryos for Joyce and John Smith"). The photograph of the embryos is given to the patient and a copy is kept in the medical record.
Surplus embryos being frozen after a transfer are catalogued with full names, ID (usually social security numbers) date of freezing and details of the embryos being frozen. Embryos are usually frozen inside special straws and in addition to careful labeling, color-coding is also used as an added precaution. As with other procedures, a second member of the laboratory staff has to witness the procedure and verify patient and embryo details for any freezing or thawing event.
As with any laboratory procedures, we welcome questions on this subject and would be happy to discuss this topic further.
Can you tell the sex of my embryos?
Yes. It is possible to determine the sex of an embryo by performing a procedure called Preimplantation Genetic Diagnosis (PGD). This involves drilling a small hole in the shell surrounding the embryo and removing one cell. The cell can then be screened in a genetics laboratory to determine if it contains two X chromosomes (embryo would be female) or one X and one Y chromosome (male). This test only takes a few hours and the embryos can be transferred back to the patient later the same day.
The advantage of having embryos sexed is that it allows couples with a sex linked disease to have healthy children (e.g. Muscular Dystrophy is a disease that only affects boys, so a couple with this disease in their family could elect to have only female embryos transferred). The disadvantage of having PGD is that pregnancy rates following the procedure have been lower than for other IVF couples.
My doctor said that all my embryos were "Grade B". What does this mean?
When we look at embryos in the laboratory, notes are taken on the quality and rate of development of each individual embryo. Quality is assessed by examining how well the embryos appear to be developing in the petri dish, and is usually scored on a 3 or 5 point scale. Depending on the scale, perfect embryos are usually graded as "1" or "A". These embryos have round and symmetrical cells, look "textbook" perfect in every way and give high pregnancy rates when transferred. Only about 20% of all embryos get this top (perfect) score. The more common situation is that when the cells of an embryo divide, the resulting cells are not quite even in size or shape. Also, human embryos have a tendency to loose tiny pieces or fragments of their cells during cell division, and the severity of this fragmentation is largely what grades are based on. A grade "2" (or "B") embryo would likely have a small amount of cell fragmentation, but otherwise look relatively normal. Since the embryo is contained within a shell, the fragments remain in close association with the cells and are readily visible under the microscope. A small amount of fragmentation is normal however, and can be expected in most human embryos. If the fragmentation becomes severe, then the cells will likely get smaller and more uneven, and the embryo will get a worse grade. Some grading scales stop at "3" (or "C"), but some laboratories use a 5 point scale. Either way, the highest point on the scale usually represents embryos that have almost entirely disintegrated into fragments and your chances of pregnancy from these embryos will be marginal at best.
Interestingly, embryo grade (or degree of fragmentation) does not appear to be related to maternal age. Patients who are over the age of 40 and who have lower pregnancy rates than younger patients, still average 20% grade 1 embryos. The grade does correlate with the viability of an individual embryo and the better the grade, the more chance you have of pregnancy. Also, if you are having embryos frozen, only embryos with good grades will tolerate the freezing procedure.
I've heard that having embryos transferred at the blastocyst stage gives really high pregnancy rates. Shouldn't every IVF patient have this procedure?
Embryos that have grown successfully in the laboratory for 5 or 6 days are called blastocysts. They have gone beyond the stages where it was possible to count the number of cells that they contain (e.g. 4-cell or 8-cell stage), and have begun to differentiate into 2 different cell types. A normal blastocyst should have developed by day 5 after egg retrieval and the trophectoderm and inner cell mass cells should be clearly visible. These cells give rise to the placenta and fetus respectively. Since the blastocyst now has the first placenta cells, it is ready to hatch from its shell and implant in the uterus.
On average, about 30% of fertilized eggs will develop to the blastocyst stage. This number will be lower in older patients, and higher in young patients. Since older patients also tend to have fewer eggs, blastocyst stage embryo transfer is usually not a good option for them. It is better to get whatever embryos they have returned to the "natural" environment of the uterus as soon as possible. Younger patients, however, tend to have more eggs and therefore embryos, which will give them more chance of having some embryos that develop into blastocysts. Remember that the laboratory is an artificial environment and that the embryos are not likely to do as well in a petri dish as they would in the uterus. However, if you have many good quality embryos, you could consider keeping them in the laboratory for the extra 2 days that it takes to become a blastocyst. This is a way of identifying the embryos with the most potential in the group and giving you the highest chance of pregnancy.
The patients that end up having blastocyst stage embryo transfers tend to be those who are young and have many good quality embryos. It follows therefore, that this select group are going to have a high pregnancy rate. For patients in their late thirties and early forties however, this therapy is not appropriate to maximize their chance of pregnancy. Earlier stage transfers of multiple embryos with assisted hatching is more likely to benefit these patients.
Can you freeze eggs?
Unfortunately, the technology to freeze human eggs is still being developed. Due to the low success rates of this procedure, Pacific Fertility Center does not routinely offer egg freezing. You may have read reports about babies born after freezing of eggs, these children are exceptional and resulted from a hugely ineffective technology. Much effort has been invested in developing methods for egg freezing, but a useful procedure has not yet been devised. At the forefront of this research is a group of scientists in Italy who have been able to create 16 babies as a result of their efforts. However, they had to freeze 1,600 eggs to get these babies.
To survive freezing, a cell needs to be dehydrated, since water expands as it turns to ice and would burst the cell. We replace the water in the cell with an antifreeze or cryoprotectant. Our ability to freeze cells (cryobiology) depends on being able to quickly replace the cell water with cryoprotectant and this is only possible in free living cells such as sperm and embryos. Large groups of cells (tissues) cannot be frozen, as difficulties exist in getting the water out of the cells at the center of the tissue. Even corneas, relatively small pieces of tissue from the eye, cannot be frozen. Some success has been reported with freezing ovaries, but only when the tissue was cut into tiny pieces of about 1mm3.
Eggs present their own unique challenges to cryobiologists because in theory, they should freeze easily. An egg is a single free-living cell and it can be dehydrated quickly. However, when the egg is released from the ovary, it is in a very critical phase of development that is very vulnerable to the freezing process. Since the egg is preparing to welcome a sperm, the DNA (or chromosomes) within the egg is in a very delicate phase of reorganization. The egg is in the process of getting rid of half of its DNA, a process that is not completed until after the sperm has entered the egg. Freezing the egg fatally disrupts the DNA reduction process and leaves the egg non-viable after thawing. Interestingly, the egg can be easily frozen after fertilization, but since the sperm is now inside, the egg has become an embryo.
How are embryos frozen?
Embryos can be frozen at different times after fertilization. Most typically, embryos are frozen 1, 3 or 5 days after the sperm and egg were put together. Freezing is a stressful process for an embryo, and only embryos that are growing well in the laboratory will tolerate the freezing procedure.
Before an embryo can be frozen, all the water that it contains must be removed. Since water expands in size as it turns to ice, water inside the embryo would burst (kill) the embryo if we simply placed it in the freezer.
To prevent the embryo from shriveling as the water is extracted, we replace the water with an antifreeze. Antifreeze is a solution that does not expand in size when it freezes. The embryo is cooled to room temperature as the water is replaced with antifreeze.
When most of the water has been removed the embryo is inserted into a vial, or more typically a small straw, and placed in the cooling chamber of a controlled rate freezer. The embryo is then cooled very slowly at -0.30C per minute. Slow cooling like this allows the embryologist to have precise control over the freezing process, to maximize water extraction from the embryo and to prevent formation of large ice shards that could pierce the embryo.
The entire process takes several hours and the embryo(s) are stored frozen at –1960C in liquid nitrogen. Liquid nitrogen is a safe and effective coolant, which is easy to work with in the laboratory.
How are frozen embryos stored and monitored?
The air that we breathe contains a gas called nitrogen. This gas makes up about 78% of the air around us. If nitrogen gas is cooled, it becomes liquid at –1960C. This liquid is very stable and easy to work with. In the laboratory we have large tanks filled with liquid nitrogen in which we store frozen embryos. Each tank, actually called a DEWAR, is in many ways like a large thermos flask. It is vacuum lined and has a narrow opening to slow the evaporation of the nitrogen. Each patient has a designated storage space within a tank, where his or her embryos are kept. The straws that contain the embryos are color coded and labeled with precise and unique identifying information. At a minimum, this information includes the patients full name, their date of birth, their social security number, the number of embryos in the straw, the stage at which the embryos were frozen and the date on which the freezing was performed.
The tanks that contain frozen embryos are monitored 24 hours a day, 7 days a week, 365 days a year. Each tank gets a physical inspection twice a day, looking for problems or signs of wear. The quantity of nitrogen in the tank is assessed as a means of monitoring for a possible slow leak or an impending tank failure. The nitrogen in the tank is topped up once or twice a week, since it continuously evaporates at a slow rate (if a tank was not filled regularly, the nitrogen would evaporate entirely in about 6 weeks).
Electronic tank monitoring uses 3 different sensors to ensure that tanks perform to specifications. A probe attached to the tank lid, actually sits in the nitrogen with the embryos. The probe will detect a rise in temperature within the tank, or a drop in the level of liquid in the tank. The laboratory also has an oxygen alarm that will detect when nitrogen is evaporating at a high rate and displacing oxygen from the air. All 3 of these sensors are connected to a telephone system that will alert staff to an alarm condition.
The telephone alert system is a complicated monitoring device. It requires that 8 people be contactable at any given time, and calls and recalls each person in turn until somebody enters the laboratory and cancels the alarm. The alarm cannot be canceled remotely, and our protocol requires that an embryologist be in the laboratory no more than 30 minutes (day or night) after the alarm is set off. The alarm system is tested every day and continues to run on battery power in the event of a power failure. The alarm system can also be checked remotely. The status of each individual tank can be ascertained by telephone at any time.
How long can embryos be stored?
No one knows what the maximum storage period might be. Procedures for human embryo freezing were developed in 1984 and only went into widespread use in the late 1980's. This means that the longest time a human embryo has been stored is 12-15 years, and typically, patients that have left embryos in storage for this long are not coming back for them. Some patients have come back after 10-12 years and the embryos have been thawed successfully. Beyond this time frame, we don't know how long an embryo will remain viable.
How are embryos thawed?
The process of embryo freezing has already been explained. Thawing the embryos is simply a reversal of the freezing procedure.
When an embryologist removes embryos from the freezer, a second embryologist is required to witness the act, and verify the identity of the embryos before they can be thawed. Under no circumstances can a lone embryologist remove embryos from the freezer.
The embryos coming out of the freezer (at –1960C) are warmed to room temperature in 35 seconds. This rapid thaw method minimizes damage to the embryo from ice shards. The embryologist has to remove the antifreeze from the embryo and replace the water that was removed at the time of freezing. This is done by incubating the embryo in decreasing concentrations of the antifreeze, and increasing concentrations of water. Over a period of 30 minutes, the embryo is stepped through 4 different solutions, until finally the antifreeze is gone and all the water has been replaced.
The thawing procedure is performed at room temperature, and once complete, the embryo is warmed up to body temperature (370C). It can be ready for transfer in as little as 40 minutes after leaving the freezer.
Can freezing damage my embryos?
Yes, physical damage may result to individual embryos due to the stress of freezing and thawing. The damage can arise in 2 ways. First, despite our best efforts, it is possible that ice shards will form within the vial or straw, and pierce or kill one or more cells within the embryo. Second, during thawing, water rushes back into the embryo at a faster rate than the antifreeze leaves. This causes swelling of the cells, and occasionally individual cells will not tolerate this swelling and burst.
The first baby resulting from a frozen-thawed embryo was born in Australia in 1984. The embryo had 8 cells when frozen, but 2 cells died during thawing. Even though the transferred embryo had only 6 living cells, it was still capable of developing into a normal baby.
We consider that any embryo that survives thawing, even with only one cell intact, has the potential to establish a pregnancy. However, the chance for pregnancy will depend on how well the embryo survives. If an embryo survives with all cells intact, it will have a better chance for pregnancy than an embryo that loses half of its cells. Embryos with less than half of their cells remaining will have significantly lower chances of developing.
Am I more likely to have a child with a genetic or congenital abnormality because I'm pregnant after a frozen embryo transfer?
Even after 20 years, there are few studies in the scientific and medical literature concerning outcomes after embryo cryopreservation. However, the few studies that have been published are thus far reassuring.. Children born from frozen embryos do not seem different from children born from embryos that had not been frozen. Even if an embryo loses one or more of its cells during thawing, (see section above) this does not cause any abnormalities. Freezing does not cause or introduce genetic abnormalities. Go to FertilityFlashSM Volume 2 Issue 3 for more information.
The only risk associated with freezing, is that the embryo might not tolerate the procedure, and could lose so many cells that it is no longer strong enough to implant and establish a pregnancy.
What are the costs for keeping embryos in frozen storage?
The costs to Pacific Fertility Center are significant. Most of the cost is accounted for by the manpower required to maintain the tanks. Embryologists receive special training in handling liquid nitrogen and maintaining the frozen embryo bank. Although nitrogen liquid is relatively stable, it can cause severe frostbite, rapid suffocation and death if mishandled. We even have a special permit from the city just to have the liquid in the building and the emergency services have to be kept informed of our activities.
We buy several hundred liters of nitrogen each week to keep the tanks filled and to use for freezing of new embryos. Tanks are serviced, replaced and maintained according to a strict schedule and alarm systems are also maintained to a very high standard. Ask any embryologist, and they'll tell you that the real cost is in having to race to the lab at 4.00 am on a Saturday morning only to find a false alarm.
Would the storage tanks survive a major earthquake or other disaster?
Probably not. While the tanks are secure and robust, they could be crushed or severely damaged by falling masonry. Any catastrophe that would collapse the building would almost certainly destroy the tanks.
The storage tanks require no power and would not be impacted by a power failure or blackout. They are made of metal and would probably survive a small or moderate fire. If the tanks were not physically damaged or knocked over in a disaster, they should survive intact. Even if no one was able to physically check the tanks, or if we were unable to obtain liquid nitrogen, the tanks should still hold their temperature for several weeks.
What are my options for using the embryos?
We hope that most couples will be able to use the embryos to have a healthy baby. Patients having frozen embryos transferred, make up about one fourth of the patients visiting our office. Some are thawing embryos after failing to become pregnant during their IVF cycle, and some are using the embryos years after a successful IVF cycle, to have a second or third child.
You may be surprised to learn that there are a significant number of people who do not want to use their frozen embryos to become pregnant. These are typically people that have completed their families and are not interested in having any more children. Having embryos remaining creates a very difficult situation for these families. The embryos can be discarded as medical waste, but the decision to destroy the embryos is not made easily. Couples with children resulting from IVF treatment often view the frozen embryos as potential children and siblings for their existing children. Coming to terms with destroying the embryos can be impossible, and many couples avoid taking this decision by simply leaving the embryos frozen indefinitely. In the UK, the government has taken action against these couples by ordering the destruction of all embryos in frozen storage for more than 5 years.
Frozen embryos can also be donated for research studies. Embryos donated for research will be thawed and used in a scientific study, and discarded after a few days. A research study might look at new ways of freezing or thawing embryos, new ways of growing embryos in the laboratory or at the genetic make up of the embryos. The studies will not benefit the patient that donates the embryos, but the research may benefit other IVF couples in the future.
How are embryos destroyed when patients request disposition?
A formal request to destroy the embryos must be received in writing from the patients. The request must be signed by both partners and notarized or witnessed by a member of our staff. Once the laboratory has received the disposition notice no action is taken for 30 days. This gives the couple a cooling off period and an opportunity to change their decision.
When the 30-day waiting period has passed, two Embryologists take responsibility for carrying out the patients' wishes. They fill out a form indicating that they have checked the disposition request and are in agreement that the patient wants the embryos discarded. They locate the embryos in the storage tank and double check the identity with the paperwork. The embryos are then thawed and discarded as medical waste. The paperwork is complete when both embryologists sign, attesting that they performed and witnessed the destruction according to the patients' wishes. The paperwork is kept in the laboratory files and a copy filed in the medical record of the patient.
Can I donate my embryos to another infertile couple?
Yes, it is possible to donate embryos. This process is sometimes referred to as embryo adoption.
There are many advantages to embryo donation, including giving another couple the chance to have a child and avoiding having to discard the embryos that took so much effort to create. However, the process resembles adoption in many ways, as there are a series of requirements that need to be satisfied before the donation can be completed. These include legal contracts between the parties and psychological counseling. Also, matching donors and recipients can be very difficult as each couple will have specific demands and these can be difficult to satisfy. You might want to donate your embryos anonymously or you might ask that your children be allowed to have contact with any children that result from use of the embryos. The recipient couple may or may not want contact with you. However, they might insist on medical tests on you or information on your family that you won't necessarily want to give out. They may want a clause in the contract that gives them access to you if the child becomes severely ill. They could ask that you adopt the child if anything happens to them.
Since the matching of couples for embryo donation is complicated, Pacific Fertility Center do not typically get involved. Patients are required to find their own donor or recipient and if the legal contracts and psychological testing can be completed, we can help with medical tests and treatment. Often, the embryos will have to be moved to another part of the country, since you won't necessarily find a recipient in San Francisco. In this situation, shipping the embryos is the responsibility of the donating couple, and we can provide information on getting embryos sent to another IVF clinic.
Couples considering embryo donation can find information on this subject on the Internet at www.snowflakes.org and from RESOLVE, a national organization for childless couples at www.resolve.org.
Why have I not been receiving bills for the cost of storing my embryos?
A very precise inventory is kept of all embryos in storage by the laboratory staff. Every day, embryos are being frozen and thawed, so the inventory changes daily. In the past, the billing office have not been interested in trying to track the inventory and send out storage bills.
However, a decision has been taken to begin contacting patients annually about their embryos. This will allow us to keep in regular contact with patients and minimize the number of patients that we loose contact with. It will also allow us to recoup some of the costs associated with maintaining the tanks and it will allow patients to give us regular updates on their wishes for storage or use of the embryos.
I had embryos frozen 6 years ago and I signed a contract that allowed for my embryos to be stored for a maximum of 5 years. Since then, I have had no contact with PFC. Are my embryos still there?
Yes, your embryos are still frozen and being maintained. Unless you and your partner sent us signed instructions to use or destroy the embryos, we would not thaw or dispose of them. Nothing can happen to your embryos without your permission.
| 
