This month, a team from the California Institute of Technology unveiled a system to 3D print tissues inside the body—no surgery needed. Dubbed deep tissue in vivo sound printing (DISP), the system uses an injectable bioink that’s liquid at body temperature but solidifies into structures when blasted with ultrasound. A monitoring molecule, also sensitive to ultrasound, tracks tissue printing in real time. Excess bioink is safely broken down by the body.
The ink is injected to the target site or shuttled there using catheters. To test the approach, the team 3D printed shapes—stars, pinwheels, teardrops, and lattices—in a variety of tissues, such as thick pork chops and chicken.
In mice with bladder cancer, the team 3D printed a kind of depot that slowly released anticancer drugs to stave off cancer growth. Today’s bladder cancer drugs are often flushed away within hours. A bioink patch would concentrate the drugs at the tumor for longer.
In another test, the researchers printed artificial tissue inches below the skin in rabbits’ leg muscles and bellies, showcasing the technology’s ability to restructure tissues in larger animals.
MedonSirius on
Woah what? Need to read that. If true than that’s a step towards nano machines
fozzedout on
Okay, this is *really* amazing and awesome news! The possibilities are endless!
mmmmmmham on
Cool hopefully they can do intervertebral discs soon. I could use a couple new ones. That would be great.
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This month, a team from the California Institute of Technology unveiled a system to 3D print tissues inside the body—no surgery needed. Dubbed deep tissue in vivo sound printing (DISP), the system uses an injectable bioink that’s liquid at body temperature but solidifies into structures when blasted with ultrasound. A monitoring molecule, also sensitive to ultrasound, tracks tissue printing in real time. Excess bioink is safely broken down by the body.
The ink is injected to the target site or shuttled there using catheters. To test the approach, the team 3D printed shapes—stars, pinwheels, teardrops, and lattices—in a variety of tissues, such as thick pork chops and chicken.
In mice with bladder cancer, the team 3D printed a kind of depot that slowly released anticancer drugs to stave off cancer growth. Today’s bladder cancer drugs are often flushed away within hours. A bioink patch would concentrate the drugs at the tumor for longer.
In another test, the researchers printed artificial tissue inches below the skin in rabbits’ leg muscles and bellies, showcasing the technology’s ability to restructure tissues in larger animals.
Woah what? Need to read that. If true than that’s a step towards nano machines
Okay, this is *really* amazing and awesome news! The possibilities are endless!
Cool hopefully they can do intervertebral discs soon. I could use a couple new ones. That would be great.