- cross-posted to:
- [email protected]
- cross-posted to:
- [email protected]
In short:
A mechanical heart has been implanted in a New South Wales man who was experiencing severe heart failure.
He has become the first person in the world to be discharged from hospital with the titanium heart.
What’s next?
Doctors say the invention will likely be an alternative for donor heart transplants in the future.
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Fascinating, and awesome for people in need, but a whole new level of battery anxiety.
Just one step closer to:
Should be using Australium
Found the tf2 player
I wonder if the pump runs at a constant rate instead of pulsing… Imagine playing tricks on people because you’ve got no heartbeat!
Old artificial hearts used to do that. It works but pulsing is better for your long term health IIRC.
Can’t wait for the day when I’ll be able to get a titanium pancreas!
From the article…
It is powered by an external rechargeable battery that connects to the heart via a wire in the patient’s chest.
The battery lasts four hours and then alerts the patient that a new battery is needed.
I’m imagining some sort of an Iron Man situation
Sounds like actual hell.
The alternative is death, so a lot people would choose this instead.
Exposed wires? Does this mean I could overclock my heart with a bench power supply?
Hopefully it can just run off wall power while at home. It would suck to change in the middle of each night.
God the fear of accidentally sleeping through the alarm would probably keep me from sleeping at all
“When you hear the beeping you need to swap out the battery because if you don’t you’ll die. Goodnight.”
Isn’t that the plot from Crank 2 (kind of)?
Chev Chelios ❤️
Memories awoken.
At least if that happens, you’ll simply sleep for the rest of your life.
Why only 4 hours though? How is the capacity of that battery? Also, how does thies heart react to increased demand like a normal heart does?
I actually know this! I used to work on an LVAD controller about 10 years ago. The technology is largely similar.
The pumps are centrifugal, they have to maintain blood pressure, and are largely waterproof.
The pumps spin with a brushless DC motor controlled by PWM. Depending on the specifics of the motor the RPM can be between 8,000 and 22,000. Because of the limitations of battery technology, you’re stuck with using a LiPo battery. LiPos are annoying as all shit to deal with. You have to charge them carefully, discharge them carefully, and they’re pretty big.
To give you an idea - FPV drone batteries can last several minutes: https://www.getfpv.com/batteries/mini-quad-batteries/auline-21700-4000mah-14-8v-a45-4s-li-ion-battery-xt60.html (if you need help with scale - the yellow connector is called an xt60). On a really carefully tuned racer, you can get maybe 5 minutes out of a quad that would use that battery.
Calling bullshit on that battery info RE: FPV drones matey.
That’s a 4000mAh 4s Li-Ion pack. No racers use Lithium Ion, and definitely not 4AH.
That’s a long range FPV pack, and it’ll go for about half an hour to an hour on an appropriate LR quad.
A typical racing machine will run on 6s 1300-1500mAh Li-Po packs which are significantly lighter and smaller than your provided link, as well as higher voltage.
Interesting, What about the change of heart rate a normal heart does in response to exertion? I assume this heart only runs at a single speed?
