Module 2- Prosthetic Limbs

Question 1

What is a prosthesis?

Answer 1

• An artificial device that replaces a missing body part, which may be lost through trauma, disease, or congenital conditions.
• Prosthetics are intended to restore the normal functions of the missing body part.

Question 2

First prosthetic

Answer 2

• The first prosthetic could have been The Cairo Toe
• A prosthetic toe was found by unearthing a mummy in Cairo, Egypt, in the year 2000 and dates back 3000 years — it was made of wood and held on with leather straps

Question 3

The first documented wearer of a prosthetic limb was Marcus Sergius

Answer 3

A Roman general during the Second Punic War (218 to 201 BC), Marcus had a metal hand constructed to allow him to hold his shield in battle.

Question 4

How has surgery advanced to ease the burden of amputations?

Answer 4

• In the Middle ages, there was little progress in the development of prosthetics and our understanding of the limbs.
• Anesthesia was introduced in the 1840s — opening doors to painless surgery.
• By the mid-19th century, we could shape a residual limb that made it receptive to the attachment of a prosthesis.

Question 5

The Hanger Limb

Answer 5

• With the carnage of the Civil War, advances in prosthetics became prominent again.
• The Hanger Limb was made of metal and contained a hinged knee and ankle —becoming the most advanced prosthetic of the time.
• J.E. Hanger’s company continues to be a leader in prosthetics today.

Question 6

Defence Advanced Research Projects Agency

Answer 6

DARPA was formed by the American government in response to Sputnik in 1957. The government pledged that future national research would be the “initiator” and not the “victim” of strategic technological surprises.

Question 7

How many types of prosthetic limbs are there?

Answer 7

4

Question 8

What are the 4 types of prosthetic limbs?

Answer 8

• Below the knee (BK, transtibial) — a prosthetic lower leg attached to an intact upper leg
• Above the knee (AK, transfemoral) — a prosthetic lower and upper leg, including a prosthetic knee
• Below the elbow (BE, transradial) — a prosthetic forearm
• Above the elbow (AE, transhumeral) — prosthetic lower and upper arm, including a prosthetic elbow

Question 9

The Standard Components of a Prosthetic Limb

Answer 9

1. Socket
2. Suspension system and
   attachment Mechanism
3. Joint (if necessary)
4. Pylon
5. Terminal device

Question 10

Fit as a consideration in prosthetics

Answer 10

• A very important consideration is fit — a carefully detailed socket fit
• Fit is measured using laser scanners and CT scans.
• CAD software to begin the process of design, based on the real anatomical data of the specific patient.

Question 11

Design considerations in prosthetics

Answer 11

• Fit — carefully detailed socket fit
• Energy storage and return — storage of energy acquired through ground contact and usage of that energy for propulsion
• Energy absorption — minimizing the effect of impact on the musculoskeletal system
• Rotation — ease of changing direction
• Ground compliance — stability independent of terrain
• Weight — maximizing comfort, balance, and speed
• Patient concerns — cosmetics, costs, and ease of use

Question 12

Attachment of prosthetic limb

Answer 12

• A well-fitting prosthetic is usually secured to a residual limb by straps, harnesses, or even by suction.
• A snug, secure fitting is vital for comfort — and ensures the limb can be properly controlled.

Question 13

What’s wrong with surface-mounted prostheses?

Answer 13

• These prosthetics compress onto the skin and can cause pain and poor fit — leading to slippage and further problems.
• There is a short life to soft mount given volume changes. They are difficult removal and attach.
• Surface-mounted designs induce a loss of load perception through bone.

Question 14

Overview of attachment by osseointegration

Answer 14

Osseointegration alleviates worries about issues such as heat and chafing that prosthetic sockets give — there is increased mobility, comfort, and function.

Question 15

Advantages of attachment by osseointegration

Answer 15

The direct connection between the prosthesis and bone has several advantages:

1. It provides greater stability and control and can reduce the amount of energy expended.
2. It does not require suction for suspension, which makes it easier and more comfortable for the user.
3. The weight‐bearing is brought back to the femur, hip joint, tibia, or other bone, reducing the possibility of degeneration and atrophy that can accompany traditional prostheses.
4. Integral to proprioception

Question 16

Progression in osseointegration

Answer 16

Question 17

Stimulating osteoblast activity

Answer 17

• Metal foams (monetite crystals) may promote and contribute to bone infiltration and the formation and growth of vascular systems within the defined area.
• The porous, bone‐like metal foam allows osteoblast activity to begin.

Question 18

Body- vs. external-controlled prosthetics

Answer 18

• With body-controlled prosthetics, there is a cable attached to a ring harness, which controls opening and closing of the hook.
• A microprocessor receives inputs from the sensors and allows adjustments to approximate natural gait.

Question 19

Prosthetics Controlled by Myoelectricity

Answer 19

Myoelectric refers to the electrical signals produced by muscles — these are typically difficult to control and have limited function.

Question 20

iLimb, Touch Bionics, and Myoelectric

Answer 20

• The hand uses a rotating thumb and individually powered fingers to form various grips. In each of the fingers, a sensor recognizes the level of resistance on an object and tells them to stop grasping.
• The five individually powered fingers grips around objects and locks when enough force has been used.
• The skin covering is convincingly life-like, with knuckles and fingernails.

Question 21

Targeted Muscle Reinnervation (TMR)

Answer 21

• Neurons that are typically bundled into the residual limb can reinnervate nearby muscle and electrodes record those signals
• TMR is meant to improve upon, but not replace, myoelectric control by amplifying the signal

Question 22

DEKA Arm

Answer 22

• The first TMR controlled FDA approved device (2014), it’s still controlled by myoelectricity.
• Costs between 50,000 USD to 80,000 USD and requires replacement every 3-4 years.

Question 23

Modular Prosthetic Limbs- features

Answer 23

A modular prosthetic limb features…
● Anthropomorphic (lifelike) form factor and appearance
● Human-like strength and dexterity
● High-resolution tactile and
position sensing
● Neural interface for intuitive and
natural closed-loop control

Question 24

Modular prosthetic limb- function

Answer 24

• At the individual joints, sensors measure angle, velocity, and torque.
• Additional sensors at the fingertip measure force, vibration, fine point contact, and temperature/heat flux.

Question 25

Modular prosthetic limbs- video

Answer 25

https://www.youtube.com/watch?v=F_brnKz_2tI

Question 26

Phantom limb pain treatment

Answer 26

- PLP is a neuropathic condition manifested by pain felt as a result of a patient's enduring psychological perception of the amputated limb, and it occurs in up to 87 percent of amputation cases. - No medications exist specifically for phantom limb pain. - Medications used to treat phantom limb pain include OTC pain medication, Antidepressants, and N-methyl-d-aspartate (NMDA) receptor antagonists (anesthetics that block glutamate).

Question 27

Experimental therapies for phantom limb pain

Answer 27

- Mirror box therapy is used to create a reflective illusion of an affected limb to trick the brain into thinking movement has occurred without pain - Repetitive transcranial magnetic stimulation (rTMS) is FDA-approved for depression and certain psychotic disorders

Question 28

Three challenges of prosthetic limbs in the developing world

Answer 28

1. The necessary technology does not exist 2. The technology exists but is not accessible 3. The accessible technology is not adopted

Question 29

Frugal technologies

Answer 29

- When sophisticated methods become inaccessible to a majority of the world population, how can we achieve more with fewer resources? - The goal is to develop a good enough product that meets basic needs at a low cost — regardless of their limited functionality.

Question 30

Lower-limb amputees in India

Answer 30

- Professor P. K. Sethi observed that lower limb amputees in India would prefer to go along in crutches over using a solid ankle-cushion heel — the prosthetic was too rigid and broke too easily. - A suitable prosthetic was needed for amputees.

Question 31

Jaipur Foot

Answer 31

- Consisting of 3 blocks (rubber hind foot, rubber forefoot, and laminate wood for ankle block), this prosthetic can bear weight, and withstand pressure while providing a proper range of motion and attaching securely to the stump. - The rubber forefront allows for multidirectional movement and allows for movement on uneven grounds.

Question 32

Developing the socket for the Jaipur foot

Answer 32

- The socket was designed with high-density polyethylene — a light-weight material with high impact resistance and tensile strength. - Already formed pipes mean a short fabrication time, ideal for the high demand of prosthetics.

Question 33

Success rate of Jaipur foot

Answer 33

Jaipur is an extraordinary success with a 97% acceptance rate and a duration of 3 to 4 years

Question 34

Jaipur foot video

Answer 34

https://www.youtube.com/watch?v=u1vcwYEFObc