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| Select Sperm With Care: The Normal-looking Ones May Be Damaged |
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| Science - Biological Sciences | |||
| TS-Si News Service | |||
| Sunday, 03 August 2008 17:00 | |||
  Sperm is the name for male reproductive cells (Gr. σπέρμα, sperma or "seed"). A cell that is motile is also referred to as spermatozoon (uniflagellar sperm). The male gonads (testicles) produce spermatozoa through meiosis (spermatogenesis).
Sperm cells cannot divide and have a limited life span, but they can fuse with egg cells during fertilization to form a zygote with the potential to develop into a new organism. The human sperm cell has one-half of the genetic material necessary for fertilization. It is a haploid, providing a single set of 23 chromosomes that can join the 23 chromosomes of the female egg to form a diploid cell.
A healthy sperm cell consists of a head, a midpiece and a tail.
• The head is the nucleus with densely coiled contents that contain enzymes for penetrating the female egg.
• The midpiece has a central filamentous core with many mitochondria spiralled around it, suitable for transit through the female cervix, uterus and uterine tubes.
• The tail (flagellum) propels the spermatocyte with lashing movements. It consists of microtubules in an extension of the cell membrane.
Mammalian sperm cells can live inside the female for a limited time (often cited as 3 days) unless it is exposed to air or is mixed with another liquid.The ability of semen, the ejaculate that carries sperm, to accomplish fertilization is measured by semen quality. It combines both sperm quantity and quality onto one measurement.
Note however, that this metric does not speak to the inherent genetic viability of the sperm. High qualitysemen can result in fertilization, but with the poential for various birth conditions and diseases.
Denmark leads a global market for sperm, with a well-developed system of export that advertises high sperm quality and anonymity. Worldwide, more than 50 countries import sperm, including Hong Kong, Kenya, Paraguay, and the United States. In fact, much of what we know about sperm has arrived via the research done to improve a couple's prospects for conception. This in turn hs provided biochemists and cell biologists with new data to work with in their studies of human development.
O-187 Oral DNA fragmentation in morphologically normal human spermatozoa from teratozoospermic patients. C. Avendaño, A. Franchi, S. Taylor,M. Morshedi, S. Bocca1, S. Oehninger. Human Reproduction 23(8) Supplement 1: Abstracts of the 24th Annual Meeting of the European Society of Human Reproduction and Embryology (ESHRE), Barcelona, Spain (7–9 July, 2008). Session 49: Male fertility. doi:10.1093 [ Download PDF ]
One of the techniques increasingly used to help infertile men father children is called Intracytoplasmic sperm injection (ICSI), where a single sperm is injected into an egg for fertilization. Now, researchers in the United States have discovered that while the sperm chosen for the procedure may appear quite normal, many of them have DNA damage.
From the point of view of a fertility clinic, DNA dmage can decrease the chances of a pregnancy. However, other research has shown that damaged spermatozoa can affect normal embryonic development. The result can be chromosomal abnormalities, a variety of birth conditions, minor or major birth defects, and even childhood deseases, such as cancer.
Conrado Avendaño, from The Jones Institute for Reproductive Medicine, and his colleagues studied a group of infertile men with moderate and severe teratozoospermia. This ia a condition where most of the sperm looks abnormal. He says that in this group of men, the embryologist would normally select the best looking sperm for injection. "This would typically be done by analysing the sperm's shape under a microscope," he said. "A 'good' sperm by this criterion would have a regular oval head and a long straight tail. However, our research has shown that appearances can be deceptive."
Avendaño delivered his remarks on 8 July 2008 at the 24th annual conference of the European Society of Human Reproduction and Embryology (ESHRE). Avendaño's research team studied sperm from ten infertile men who had sperm that appeared normal, but many of them had DNA damage. Specific observation noted DNA fragmentation, a precursor of cell death.
"In routine ICSI procedure, the embryologist chooses the best-looking sperm under the microscope, but it could be damaged," he said. "DNA-damaged sperm has a highly deleterious effect on the ability to achieve a pregnancy. Even if damaged sperm are used and the woman becomes pregnant, the chances of miscarrying are significantly higher."
The researchers compared levels of DNA fragmentation in sperm from the infertile group with that from fertile men.
"The origin of DNA fragmentation can be multi factorial," said Mr. Avendaño.
"Oxidative stress (mainly due to reproductive tract infections) and apoptosis are the most studied, but other factors as age, smoking, exposure to air pollution and abnormal testicular warming are believed to increase the proportion of sperm DNA fragmentation."
The researchers are now applying DNA fragmentation evaluation to couples with male factor infertility. "Our preliminary results using this new evaluation method show a clear negative correlation between the percentage of DNA fragmented sperm and the embryo quality and pregnancy outcome," said Mr. Avendaño.
"Different research groups have shown that in addition to affecting normal embryonic development, fertilisation with damaged spermatozoa resulting in a live-born infant can be associated with increased chromosomal abnormalities, minor or major birth defects, and even childhood cancer," said Mr. Avendaño. "Our work has shown that normal sperm morphology alone should not be used as the unique attribute for the selection of sperm for ICSI. New methods that allow an accurate separation of sperm with intact DNA should be sought."
Sperm biology has received less attention since the introduction and success of the ICSI technique, say the researchers. "While the ICSI procedure bypasses the natural sperm selection, we believe that the deleterious effects of injecting a DNA-fragmented sperm should and can be avoided. Further research into sperm biology is essential if we are to avoid problems in the future," said Mr. Avendaño.
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