Wednesday, January 20, 2010
What Will They Think of Next?
This article was on msnb.com today (source link is at the bottom)
Like Babies, Embryos Like to be Rocked Too.
Like babies that can be lulled to sleep with swaying, embryos also prefer to be rocked.
By gently rocking embryos while they grew during in vitro fertilization, scientists increased pregnancy rates in mice by more than 20 percent. The same rock-a-bye procedure could lead to more success for in vitro fertilization in humans, the researchers say.
"One of our goals for years now has been to modify how we grow embryos in the lab to be more like how they grow in the human body, because we know that the human body grows them most efficiently," said Gary Smith, associate professor of Obstetrics and Gynecology at the University of Michigan, Ann Arbor.
Current IVF procedures involve joining an egg and sperm in a culture that incubates in a petri dish, remaining still, for a few days before the embryo gets placed into the woman's womb. That's nothing like what happens naturally in a woman's body, Smith said, where fluids are flowing and there's always movement.
Even so, that's what's out there, and the technique can help the one in six couples with infertility problems, Smith said. However, not only is IVF costly and often not covered by insurance, the success rate is only about 35 percent, Smith said.
"If we could increase that, even just to 45 percent, that's significant," Smith said. "We're making healthier embryos, which not only can improve pregnancy rates, but also could allow us to transfer fewer embryos per cycle and reduce the incidence of twins and triplets."
Smith and his colleagues built a device that imitates the motion embryos experience in the body as they make their way down a mammal's oviduct (a woman's Fallopian tube) to the uterus.
"By making the cells feel more at home, we get better cells, which is key to having better infertility treatment," said study researcher Shu Takayama, an associate professor of biomedical engineering at the University of Michigan, Ann Arbor.
The device consists of a thimble-sized funnel, and at the bottom of the funnel are tiny channels that allow nutrient-rich fluids to flow in and waste to move out.
The funnel sits on rows of Braille pins programmed to pulse up and down, pushing fluids in and out of the microchannels. The pulsing simulates motion in the body that ultimately pushes fertilized eggs into the uterus and flushes out an egg's waste products.
"It gets this periodic rocking or fluid flow," Takayama said. "The amazing thing is that the embryos seem to notice."
To test out the embryo cradle of sorts, the team incubated early-stage mouse embryos, each about the size of a pencil tip, in either a static dish (similar to current IVF methods) or in the new rocking device. They found the rocked embryos were much healthier and robust after four days compared with the still ones.
(For typical IVF procedures in humans, a woman's egg is fertilized with sperm in a petri dish and three to five days later the embryo is placed into the woman's womb, according to the National Institutes of Health.)
Source: Current IVF procedures involve joining an egg and sperm in a culture that incubates in a petri dish, remaining still, for a few days before the embryo gets placed into the woman's womb. That's nothing like what happens naturally in a woman's body, Smith said, where fluids are flowing and there's always movement.
Even so, that's what's out there, and the technique can help the one in six couples with infertility problems, Smith said. However, not only is IVF costly and often not covered by insurance, the success rate is only about 35 percent, Smith said.
"If we could increase that, even just to 45 percent, that's significant," Smith said. "We're making healthier embryos, which not only can improve pregnancy rates, but also could allow us to transfer fewer embryos per cycle and reduce the incidence of twins and triplets."
Smith and his colleagues built a device that imitates the motion embryos experience in the body as they make their way down a mammal's oviduct (a woman's Fallopian tube) to the uterus.
"By making the cells feel more at home, we get better cells, which is key to having better infertility treatment," said study researcher Shu Takayama, an associate professor of biomedical engineering at the University of Michigan, Ann Arbor.
The device consists of a thimble-sized funnel, and at the bottom of the funnel are tiny channels that allow nutrient-rich fluids to flow in and waste to move out.
The funnel sits on rows of Braille pins programmed to pulse up and down, pushing fluids in and out of the microchannels. The pulsing simulates motion in the body that ultimately pushes fertilized eggs into the uterus and flushes out an egg's waste products.
"It gets this periodic rocking or fluid flow," Takayama said. "The amazing thing is that the embryos seem to notice."
To test out the embryo cradle of sorts, the team incubated early-stage mouse embryos, each about the size of a pencil tip, in either a static dish (similar to current IVF methods) or in the new rocking device. They found the rocked embryos were much healthier and robust after four days compared with the still ones.
(For typical IVF procedures in humans, a woman's egg is fertilized with sperm in a petri dish and three to five days later the embryo is placed into the woman's womb, according to the National Institutes of Health.)
Source
Like Babies, Embryos Like to be Rocked Too.
Like babies that can be lulled to sleep with swaying, embryos also prefer to be rocked.
By gently rocking embryos while they grew during in vitro fertilization, scientists increased pregnancy rates in mice by more than 20 percent. The same rock-a-bye procedure could lead to more success for in vitro fertilization in humans, the researchers say.
"One of our goals for years now has been to modify how we grow embryos in the lab to be more like how they grow in the human body, because we know that the human body grows them most efficiently," said Gary Smith, associate professor of Obstetrics and Gynecology at the University of Michigan, Ann Arbor.
Current IVF procedures involve joining an egg and sperm in a culture that incubates in a petri dish, remaining still, for a few days before the embryo gets placed into the woman's womb. That's nothing like what happens naturally in a woman's body, Smith said, where fluids are flowing and there's always movement.
Even so, that's what's out there, and the technique can help the one in six couples with infertility problems, Smith said. However, not only is IVF costly and often not covered by insurance, the success rate is only about 35 percent, Smith said.
"If we could increase that, even just to 45 percent, that's significant," Smith said. "We're making healthier embryos, which not only can improve pregnancy rates, but also could allow us to transfer fewer embryos per cycle and reduce the incidence of twins and triplets."
Smith and his colleagues built a device that imitates the motion embryos experience in the body as they make their way down a mammal's oviduct (a woman's Fallopian tube) to the uterus.
"By making the cells feel more at home, we get better cells, which is key to having better infertility treatment," said study researcher Shu Takayama, an associate professor of biomedical engineering at the University of Michigan, Ann Arbor.
The device consists of a thimble-sized funnel, and at the bottom of the funnel are tiny channels that allow nutrient-rich fluids to flow in and waste to move out.
The funnel sits on rows of Braille pins programmed to pulse up and down, pushing fluids in and out of the microchannels. The pulsing simulates motion in the body that ultimately pushes fertilized eggs into the uterus and flushes out an egg's waste products.
"It gets this periodic rocking or fluid flow," Takayama said. "The amazing thing is that the embryos seem to notice."
To test out the embryo cradle of sorts, the team incubated early-stage mouse embryos, each about the size of a pencil tip, in either a static dish (similar to current IVF methods) or in the new rocking device. They found the rocked embryos were much healthier and robust after four days compared with the still ones.
(For typical IVF procedures in humans, a woman's egg is fertilized with sperm in a petri dish and three to five days later the embryo is placed into the woman's womb, according to the National Institutes of Health.)
Source: Current IVF procedures involve joining an egg and sperm in a culture that incubates in a petri dish, remaining still, for a few days before the embryo gets placed into the woman's womb. That's nothing like what happens naturally in a woman's body, Smith said, where fluids are flowing and there's always movement.
Even so, that's what's out there, and the technique can help the one in six couples with infertility problems, Smith said. However, not only is IVF costly and often not covered by insurance, the success rate is only about 35 percent, Smith said.
"If we could increase that, even just to 45 percent, that's significant," Smith said. "We're making healthier embryos, which not only can improve pregnancy rates, but also could allow us to transfer fewer embryos per cycle and reduce the incidence of twins and triplets."
Smith and his colleagues built a device that imitates the motion embryos experience in the body as they make their way down a mammal's oviduct (a woman's Fallopian tube) to the uterus.
"By making the cells feel more at home, we get better cells, which is key to having better infertility treatment," said study researcher Shu Takayama, an associate professor of biomedical engineering at the University of Michigan, Ann Arbor.
The device consists of a thimble-sized funnel, and at the bottom of the funnel are tiny channels that allow nutrient-rich fluids to flow in and waste to move out.
The funnel sits on rows of Braille pins programmed to pulse up and down, pushing fluids in and out of the microchannels. The pulsing simulates motion in the body that ultimately pushes fertilized eggs into the uterus and flushes out an egg's waste products.
"It gets this periodic rocking or fluid flow," Takayama said. "The amazing thing is that the embryos seem to notice."
To test out the embryo cradle of sorts, the team incubated early-stage mouse embryos, each about the size of a pencil tip, in either a static dish (similar to current IVF methods) or in the new rocking device. They found the rocked embryos were much healthier and robust after four days compared with the still ones.
(For typical IVF procedures in humans, a woman's egg is fertilized with sperm in a petri dish and three to five days later the embryo is placed into the woman's womb, according to the National Institutes of Health.)
Source
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4 comments:
Wow! ths sounds like the ultimate inventon ever! No sure what they'll invent next, but I'll ask my embryologist about it. Love, Fran
That is truly amazing! And it makes total sense! I wonder if the lab techinicians sang to them, too? ;-) Thanks for sharing this!
Love,
Maddy
This makes me sad and happy all in one punch...sad that my embryos didn't get to experience it and happy that it somehow makes the IVF process a little bit warmer.
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