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Finding the fastest sperm to help increase IVF success

Is male infertility partly a simple fluid mechanics problem?

Is male infertility partly a simple fluid mechanics problem?

Physicist Erkan Tuzel works in a field that seems just about as far removed as possible from delicate questions about human reproduction; his lab at Worcester Polytechnic Institute develops algorithms to describe the behavior of complex fluids. But after he heard a talk by Harvard Medical School bioengineer Utkan Demirci, who carves microscopically small channels and then allows fluids to flow through them, the two began to talk about collaborating. Their common ground? Designing technology that could cull the healthiest, fastest-moving sperm from the slowpokes.

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Doctors trying to help couples reproduce through in vitro fertilization would like to have an easy way to identify and isolate the sperm most likely to result in a baby. Figuring out how to reliably do that, however, may have as much to do with physics as it does with biology.

In real-world experiments, sperm can swim through tiny channels created by Demirci at Brigham and Women’s Hospital. Computer modeling by Tuzel could be used to understand how to design those channels so that they select the right sperm.

“Sperm cells interact with each other when in confined geometries,” Tuzel said. “Just like birds when they fly in formation like a flock, similarly through the fluid, the sperm cells interact with each other and they synchronize their tails -- they start beating in phase. ... How can we use this information to learn from it and utilize it?”

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Tuzel was recently awarded a $300,000 grant from the National Science Foundation to build computational tools that could help design systems that sort sperm in real life. The work will be informed by how sperm behave in the laboratory, and already the researchers are interacting, meeting over Skype, and using the experimental results to tweak the computer model.

Research that straddles two different disciplines has become a vogue in research, with institutions doing everything they can to seed interactions between scientists who may, unbeknownst to one another, have complementary approaches that could help solve tough problems.

Carolyn Y. Johnson can be reached at cjohnson@globe.com. Follow her on Twitter @carolynyjohnson.
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