Those usually aren’t nerve controlled. If you have a stump left of the lower arm, sensors can detect muscle movement, and clenching your hand does move some muscles in your lower arm close to the elbow.
Source: My dad had a prosthetic left arm. His stump was similar to the ones in this video.
I don’t know if these are or aren’t nerve controlled, I suspect it’s going by the muscle movement you described
But let’s assume they are in fact controlled by nerves
Most of the movement of your fingers actually comes from muscles in your forearm pulling on tendons that go into your fingers.
So assuming you wanted to hook a prosthetic up to the same nerves and such you’d have used for your real fingers, you’d still probably end up flexing your forearm muscles because that’s where those nerves go
Technically all prosthetics are “nerve controlled”, but what you are describing is called nerve integration. Which is possible, but very rare and mostly experimental when it comes to prosthetics.
What she is wearing is called a myoelectric prosthetic, and they have been around since the late 70s. The myoelectric sensors require a healthy muscle group that the user can activate by flexing. This is a problem with a lot of amputees, as some may be missing from traumatic amputations, and the rest tend to attrify over time.
Myoelectric prosthetic are not reflexive, and you do have to consciously flex the individual muscles to make the terminal end device function in a specific way, and it does take a lot of concentration and practice.
Those usually aren’t nerve controlled. If you have a stump left of the lower arm, sensors can detect muscle movement, and clenching your hand does move some muscles in your lower arm close to the elbow.
Source: My dad had a prosthetic left arm. His stump was similar to the ones in this video.
I don’t know if these are or aren’t nerve controlled, I suspect it’s going by the muscle movement you described
But let’s assume they are in fact controlled by nerves
Most of the movement of your fingers actually comes from muscles in your forearm pulling on tendons that go into your fingers.
So assuming you wanted to hook a prosthetic up to the same nerves and such you’d have used for your real fingers, you’d still probably end up flexing your forearm muscles because that’s where those nerves go
Technically all prosthetics are “nerve controlled”, but what you are describing is called nerve integration. Which is possible, but very rare and mostly experimental when it comes to prosthetics.
What she is wearing is called a myoelectric prosthetic, and they have been around since the late 70s. The myoelectric sensors require a healthy muscle group that the user can activate by flexing. This is a problem with a lot of amputees, as some may be missing from traumatic amputations, and the rest tend to attrify over time.
Myoelectric prosthetic are not reflexive, and you do have to consciously flex the individual muscles to make the terminal end device function in a specific way, and it does take a lot of concentration and practice.
Yeah, you can see her arm moving as she flexes the muscles.