IRstuff:Maybe you can use a thin-film strain gage?
Well I did find this and it looks like it may be ideal, if I knew how it worked. Looks like it may be pretty expensive too.
This brings up another problem which is cost. Insurance companies and Medicare won't pay for this device since it won't have its own procedure code and I'm sure the patients won't pay for it either. Since leaves either I or the patient will have to pay for it I would like for the design to utilize the mose inexpensive components available. I have no plans to profit from or pursue a patent rights on this device, I just want something to help my patients.
Mike2468
oes higher pressure = more frictional heat = skin breakdown? Implanting a few small surface mount thermocouples or RTDs in the artificial limb would be very easy to do.
To be honest I really don't know if this would work.
TurboXS:I vaguely remember years ago in a robotics course that they were experimenting with a pad that was conductive. As the pressure on the pad increased the resistance of the pad decreased.
Yes I have seen that resistance film before and it is pretty cool. It would be wonderful to get that kind of detail regarding pressure distribution within the prosthetic socket but I'm not sure it is practical from a cost standpoint. It would more than likely require some very costly custom work to develop a film that could map the inside of a socket. I was looking for something much more primitive.
itsmoked: Are you talking about the circumferential forces?
The arm growing in circumference?
This would be the easiest force to monitor.
After reading my post I noticed I didn't do a very good job describing what I want and what it should monitor. I mentioned that I wanted something to alarm an insensate prosthesis wearer of high distal socket pressures. What I didn't mention is how the edema and resulting limb volume change leads to the high pressures.
I'll give an example here. Bob is an elderly dysvascular diabetic with neuropathy which is the cause of his below the knee amputation. He gets up one the morning and grabs his prosthetic leg and begins to put it on. The fit of prosthetic sockets is adjusted by adding or removing combinations of thin socks which act as "shims". When applied they tighten the socket evenly over the entire surface within the socket. Bob knows that he usually wears 5 socks, but this morning he can't get his limb down into the prosthesis with all 5 socks(it is swollen)so he tries it without socks. It slips right in and feels comfortable, so Bob gets up and starts his day. As he walks around, his body weight shifting onto and off of the prostheses, generates enough pressure to begin to force the fluid that accumulated in his leg overnight up and out of the socket reducing his volume. Before long, Bob has slipped down into the socket as a result of the volume loss and as a result of this he is now bearing weight on the cut ends of the bones of his leg. The problem is that he doesn't feel any discomfort and may continue to walk on the ill fitting limb until he gets bruising of worse, skin breakdown.
The socket fit must remain tight in order to keep the patient's body weight distributed evenly in a Total Surface Bearing prosthetic socket like Bob's. When the volume of the limb decreases the pressures at the bottom of the socket will skyrocket as the limb slips further and further into it. What I would like to build is a simple, low profile device that could make the patient aware that he/she needs to add a sock to accomodate for this volume loss and prevent injury. Sorry if this doesn't make much sense I'm horrible at expaining this sort of thing.
Thanks everyone for your responses.
