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Apply These Secret Techniques To Improve Pregnancy Loss And Chromosome Testing For Miscarriages

Although most couples are blissfully unacquainted with the statistics surrounding miscarriage, pregnancy loss is actually quite common, with 10-25% of recognized pregnancies ending in miscarriage. Assuming you have suffered a pregnancy loss or are currently in the process of having a miscarriage, you might be wondering what caused losing and worry about whether it will happen again. This short article aims to answer the next questions:

What causes miscarriage?
pregnancy How common is pregnancy loss?
Which kind of genetic testing is available for miscarriage tissue?
How can chromosome testing help?
Causes of Miscarriage

There are many different reasons why miscarriage occurs, but the most typical cause for first trimester miscarriage is a chromosome abnormality. Chromosome abnormalities – extra or missing whole chromosomes, also known as “aneuploidy” – occur because of a mis-division of the chromosomes in the egg or sperm involved with a conception. Typically, humans have 46 chromosomes that come in 23 pairs (22 pairs numbered from 1 to 22 and then the sex chromosomes, X and Y). For a baby to develop normally it is necessary that it have exactly the right level of chromosome material; missing or extra material during conception or within an embryo or fetus can cause a female to either not become pregnant, miscarry, or have a child with a chromosome syndrome such as Down syndrome.

Over 50% of most first trimester miscarriages are due to chromosome abnormalities. This number could be closer to 75% or more for women aged 35 years and over who have experienced recurrent pregnancy loss. Overall, the rate of chromosome abnormalities and the rate of miscarriage both increase with maternal age, with a steep increase in women older than 35.

Pregnancy Loss – How Common could it be?

Miscarriage is a lot more common than most people think. Up to one atlanta divorce attorneys four recognized pregnancies is lost in first trimester miscarriage. The chance of having a miscarriage also increases as a mother ages.

Most women who experience a miscarriage go on to possess a healthy pregnancy rather than miscarry again. However, some women appear to be more susceptible to miscarriage than others. About five percent of fertile couples will experience two or more miscarriages.

Of note, the rate of miscarriage appears to be increasing. One reason for this may be awareness – more women know they’re having a miscarriage because home pregnancy tests have improved early pregnancy detection rates in the last decade, whereas during the past the miscarriage would have appeared to be just an unusual period. Another reason could be that more women are conceiving at older ages.

Types of Genetic Testing Ideal for Miscarriages

Genetic testing actually identifies many different types of testing that you can do on the DNA in a cell. For miscarriage tissue, also known as products of conception (POC), probably the most useful type of test to perform is a chromosome analysis. A chromosome analysis (also known as chromosome testing) can examine all 23 pairs of chromosomes for the presence of extra or missing chromosome material (aneuploidy). Because so many miscarriages are caused by aneuploidy, chromosome analysis on the miscarriage tissue can often identify the reason for the pregnancy loss.

The most common approach to chromosome analysis is called karyotyping. Newer methods include advanced technologies such as microarrays.

Karyotyping analyzes all 23 pairs of chromosome but requires cells from the miscarriage tissue to first be grown in the laboratory, an activity called “cell culture”. Due to this requirement, tissue that’s passed at home is often unable to be tested with this particular method. About 20% or even more of miscarriage samples neglect to grow and thus no results are available. Additionally, karyotyping is unable to tell the difference between cells from the mother (maternal cells) and cells from the fetus. In case a normal female result is available, it may be the right result for the fetus or it can be maternal cell contamination (MCC) where the result actually originates from testing the mother’s cells within the pregnancy tissue instead of the fetal cells. MCC appears to occur in about 30% or more of the samples tested by traditional karyotype. Results from karyotyping usually have a few weeks to months to come back from the laboratory.

Microarray testing is really a new kind of genetic testing done on miscarriage samples; both most common forms of microarray testing are array CGH (comparative genomic hybridization) and chromosome SNP (single-nucleotide polymorphism) microarray. Microarray testing is also able to test all 23 pairs of chromosomes for aneuploidy, but will not require cell culture. Therefore, you’re more prone to receive results and the results are typically returned faster when microarray testing is used. Additionally, some laboratories are collecting a sample of the mother’s blood concurrently the miscarriage tissue is sent to enable immediate detection of maternal cell contamination (MCC).

Chromosome Testing – How do it help?

If a chromosome abnormality is identified, the sort of abnormality found could be assessed to help answer fully the question: “Will this eventually me again?”. More often than not, chromosome abnormalities within an embryo or fetus aren’t inherited and have a low chance to occur in future pregnancies. Sometimes, a particular chromosome finding in a miscarriage alerts your doctor to do further studies to research the chance of an underlying genetic or chromosome problem in your family that predisposes you to have miscarriages.

Furthermore, in case a chromosome abnormality is identified it can prevent the dependence on other, sometimes quite costly, studies your doctor might consider to investigate the reason for the miscarriage.

Lastly, knowing the reason behind a pregnancy loss might help a couple of start the emotional healing process, moving past the question of “Why did this eventually me?”.

Chromosome testing could be especially very important to patients with repeated miscarriages, as it could either give clues to an underlying chromosomal cause for the miscarriages or eliminate chromosome errors as the reason for the miscarriages and allow their doctor to pursue other types of testing. For couples with multiple miscarriages determined to have a chromosomal cause, in vitro fertilization (IVF) with preimplantation genetic diagnosis (PGD) testing may be able to help increase their likelihood of having a successful healthy pregnancy.