The embryo move is the last move toward any fruitfulness cycle before knowing whether you are pregnant. It’s the perfection of long stretches of planning and medications, expectations and dreams, it’s the final thing you want to can before the treatment cycle finishes, and you say whether you’ve been effective.
This guide will give data on the transportation of undeveloped organisms or gametes to another clinic.
Sometimes it’s concluded that the incipient organisms from one office should be moved to another. Perhaps you’re not content with one center, moving, or perhaps the High Court overrules early termination freedoms, and you’re stressed over the eventual fate of your undeveloped organisms or gametes.
Typical motivations behind why you could have to send your undeveloped organisms to include the following:
- Exchanging fertility hospitals
- Moving and expecting to take them to any place you’re migrating to
- Sending them to your gestational substitute’s clinic for her exchange date
You can transfer embryos with the help of https://arkcryo.com/blog/how-to-move-embryos-from-one-clinic-to-another.html.
How big is an embryo, and how much space does it take up?
An embryo occupies a tiny space. The embryos measure less than 1 mm in diameter and cannot survive beyond seven days in culture; this is why it is necessary to cryopreserve them to be able to preserve them. Cryopreservation is the most common way of cooling and putting away organs, tissues or cells at shallow temperatures to protect them for some time later.
How are embryos stored?
After cryopreservation, the embryos are kept in cryogenic tanks without being manipulated until their use.
Is it dangerous to freeze them?
No. Although this may seem very complex, with the techniques currently used, most cryopreserved embryos survive thawing (>95%) and are suitable for transfer as if they had not undergone this process.
How are they frozen?
They are frozen using an ultra-fast technique called vitrification. They are exposed to a cryoprotectant solution which protects them from the temperature drop, thus preventing ice formation. After this preliminary step, the embryos are directly immersed in liquid nitrogen.
Where are they stored?
After being immersed in liquid nitrogen, the media containing the cryopreserved embryos are placed inside an elongated cylindrical tube which will be “their home” while they remain frozen. These cylinders containing the embryos are called straws. They are placed in a predetermined place inside circular steel containers immersed in liquid nitrogen to maintain the embryos at temperatures below –180°C. Each of these containers holds thousands of embryos — up to 10,000 embryos!
Do the embryos have “their own room”, like in a hotel?
Yes, the nitrogen tanks contain several compartments, and each straw is placed in a specific place as if the embryos had a reserved parking space. It is, therefore, straightforward to locate them. Two biologists check their new location when the embryos are placed in the tank.
How is the data recorded to avoid errors?
The straws are identified by the patient’s first and last name and by a barcode that identifies the patient and indicates the corresponding IVF cycle. In addition, data regarding the location of different embryos is recorded in two digital sources for greater security.
How long can they be stored in liquid nitrogen?
They can be stored for many years. Embryos that have been vitrified for over ten years have been thawed out and resulted in perfectly healthy pregnancies and babies. Only now has it been imaginable to lay out a breaking point as long as necessary.
If something is wrong, how do you detect it?
A management system controls the tanks and allows them to be filled automatically. Moreover, in case of error or deviation from the set parameters like pressure, temperature, etc. The hospital’s security service and the various laboratory managers receive alarms immediately. These alarms do not stop sending messages to recipients until the error is resolved.