The maths of collective behavior has provided a new technique for selecting the best semen for artificial insemination in livestock.
In the world of artificial insemination, it is well known that the most active semen samples indicate strongly swimming sperm, and the most fertile males. The activity of the semen is currently ranked on a scale between one and five, but this is based on the subjective views of observers down a microscope.
Now, in an effort to quantify the ranking, researchers from Imperial College London, the University of Toulouse and the French National Institute for Agricultural Research, have developed a method that measures the speed of rotating semen.
The technique, and results of the study of semen motion, are published this month in the Journal of the Royal Society Interface.
Semen samples are usually ranked on the mass motility (MM) scale, based on how turbulent the churning of semen is in a drop on a microscope slide. The motion of sperm in the semen drop appears random, and observers assign the activity of this motion a number from one (lowest) to five (highest).
The team studied the motion of ram's semen to see if they could determine patterns that could be quickly mapped by computer, providing a more objective ranking. What they found was that if the semen was confined to a ring of plastic on the microscope slide, at a certain sperm concentration it would start to collectively rotate in one direction.
The spinning is faster according to the MM score, providing a simple measure that can be automatically assessed by computer.
It was not known previously that highly concentrated semen would behave this way, but there were clues from the animal kingdom. Professor Pierre Degond, from the Department of Mathematics at Imperial, studies the maths of mobs and collective behavior.
He said: "Experiments with locusts have shown that if you have just a few locusts, they will jump in random directions. But confine them and add enough locusts, then they will start to move coherently in the same direction, just like the sperm in our experiment."
Below a certain concentration threshold, the semen will behave in a more random way again, even when confined. Ram's semen is 50-100 times more concentrated than human semen, but Professor Degond thinks the same pattern would be observed if human semen were concentrated first. However, his next work is in how sperm swim once they are inside the female.
He said: "Fertility is a factor not just of how well the sperm swim, but how they interact with the female environment. They have to swim through a mucus rich in proteins that form a sort of mesh maze for them, and we want to study how they do this."
I've recently found this information. Was quite useful to read. Sharing~ Home sperm tests require a man to ejaculate into a collection cup. While procedures vary for transferring semen and completing the test, results are typically available in as soon as 10 minutes. The tests work by detecting a protein found only in sperm. If a home sperm test indicates that your sperm concentration is below 20 million sperm per milliliter (negative), you'll likely want to consult a doctor for a complete fertility evaluation. If the test indicates that your sperm count is above 20 million sperm per milliliter of semen, your sperm concentration is considered normal. A normal sperm count, however, doesn't indicate if you are fertile or not. Home sperm tests only determine sperm concentration. They don't measure any other factors. Many common causes of male infertility are missed by at-home sperm tests. A typical semen analysis performed by an infertility specialist assesses: Semen volume. Total sperm number. Sperm concentration. Vitality (percent alive). Movement (motility). Shape (morphology).
ReplyDeleteTaking all this into consideration, it's obvious that relying on a home sperm test might lead to delays in seeking appropriate fertility evaluation and treatment.
Nice post of yours, really. Thank you. Dh had also been tested on shape, motility, count. But I didn't know about the peculiarities of those testings. BioTexCom docs were awesome at explaining things. Thankfully dh was ok. That was a great begining of the journey.
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