- Artificial limb
An artificial limb is a type of
prosthesisthat replaces a missing extremity, such as arms or legs. The type of artificial limb used is determined largely by the extent of an amputationor loss and location of the missing extremity. Artificial limbs may be needed for a variety of reasons, including disease, accidents, and congenital defects. A congenital defect can create the need for an artificial limb when a person is born with a missing or damaged limb. Industrial, vehicular, and war related accidents are the leading cause of amputations in developing areas, such as large portions of Africa. In more developed areas, such as North Americaand Europe, disease is the leading cause of amputations. [http://www.bmj.com/cgi/content/full/323/7315/732#SEC2 "Science, Medicine, and the Future: Artificial Limbs"] , BMJ, 29 September 2001. Retrieved 11 February 2007.] Cancer, infection and circulatory disease are the leading diseases that may lead to amputation. [http://www.uihealthcare.com/depts/medmuseum/wallexhibits/body/histofpros/histofpros.html "History of Prostheses"] , University of Iowa, 5 June 2006. Retrieved 11 February 2007.]
An artificial limb is mythologically referred to in the
Rigveda, the "iron leg" given to Vishpalaby the Ashvins. The first specimen discovered archaeologically, known as the Roman Capua Leg, was found in a tomb in Capua, Italy, dating to 300 BC, and was made of copper and wood. [http://news.bbc.co.uk/2/hi/health/6918687.stm "Cairo toe earliest fake body bit"] , BBC News, 27 July 2007. Retrieved 27 July 2007.] Two artificial toes found on Egyptian mummies are even older, dating to 1295–664 BC; these are being tested (as of July 2007) to determine whether they could have been used in life. Armorers in the 15th and 16th centuries made artificial limbs out of iron for soldiers who lost limbs. Over the next several centuries, craftsmen began to develop artificial limbs from wood instead of metal because of the lighter weight of the material.
In the 19th century, artificial limbs became more widespread due to the large number of amputees from wars such as the
Napoleonic Warsin Europe and the American Civil War. In the latter, a Confederate soldier, J.E. Hanger, who had himself suffered the war's first amputation(see Battle of Philippi) founded what was for a time the world's largest artificial limb factory.
Technology improved primarily for two reasons: the availability of government funding and the discovery of
anesthetics. After World War II, the Artificial Limb Program was started in 1945 by the National Academy of Sciences. This program helped improve artificial limbs by promoting and coordinating scientific research on prosthetic devices.
In recent years, a great deal of emphasis has been placed on developing artificial limbs that look and move more like actual human limbs. Advances in
biomechanicalunderstanding, through the combined work of doctors and engineers, the development of new plastics, and the use of computer aided designand computer aided manufacturinghave all contributed in the development of more realistic artificial limbs. [http://www.madehow.com/Volume-1/Artificial-Limb.html "Artificial Limb"] , How Products are Made, 2007. Retrieved 11 February 2007.]
There are four main types of artificial limbs. These include the transtibial, transfemoral, transradial, and transhumeral prostheses. The type of prosthesis depends on what part of the limb is missing.
transtibial prosthesisis an artificial limb that replaces a leg missing below the knee. Transtibial amputees are usually able to regain normal movement more readily than someone with a transfemoral amputation, due in large part to retaining the knee, which allows for easier movement.
transfemoral prosthesisis an artificial limb that replaces a leg missing above the knee. Transfemoral amputees can have a very difficult time regaining normal movement. In general, a transfemoral amputee must use approximately 80% more energy to walk than a person with two whole legs. [http://www.abc.net.au/science/slab/leg/default.htm "Getting an Artificial Leg Up"] , Australian Broadcasting Corporation, 2000. Retrieved 11 February 2007.] This is due to the complexities in movement associated with the knee.
transradial prosthesisis an artificial limb that replaces an arm missing below the elbow. Two main types of prosthetics are available. Cable operated limbs work by attaching a harness and cable around the opposite shoulder of the damaged arm. The other form of prosthetics available are myoelectricarms. These work by sensing, via electrodes, when the muscles in the upper arm moves, causing an artificial hand to open or close.
transhumeral prosthesisis an artificial limb that replaces an arm missing above the elbow. Transhumeral amputees experience some of the same problems as transfemoral amputees, due to the similar complexities associated with the movement of the elbow. This makes mimicking the correct motion with an artificial limb very difficult.
In recent years there have been significant advancements in artificial limbs. New plastics and other materials, such as
carbon fiber, have allowed artificial limbs to be stronger and lighter, limiting the amount of extra energy necessary to operate the limb. This is especially important for transfemoral amputees. Additional materials have allowed artificial limbs to look much more realistic, which is important to transradial and transhumeral amputees because they are more likely to have the artificial limb exposed. [http://www.madehow.com/Volume-1/Artificial-Limb.html How artificial limb is made - Background, Raw materials, The manufacturing process of artificial limb, Physical therapy, Quality control ] ]
In addition to new materials, the use of electronics has become very common in artificial limbs. Myoelectric limbs, which control the limbs by converting muscle movements to electrical signals, have become much more common than cable operated limbs. Myoelectric limbs allow the amputees to more directly control the artificial limb. Computers are also used extensively in the manufacturing of limbs. Computer Aided Design and Computer Aided Manufacturing are often used to assist in the design and manufacture of artificial limbs.
Most modern artificial limbs are attached to the stump of the amputee by belts and cuffs or by
suction. The stump usually fits into a socket on the prosthetic. The socket is custom made to create a better fit between the leg and the artificial limb, which helps reduce wear on the stump. The custom socket is created by taking a plaster cast of the stump and then making a mold from the plaster cast. Newer methods include laser guided measuring which can be input directly to a computer allowing for a more sophisticated design.
One of the biggest problems with the stump and socket attachment is that there is a large amount of rubbing between the stump and socket. This can be painful and can cause breakdown of tissue. [http://www.abc.net.au/science/slab/leg/default.htm Getting an artificial leg up - Cathy Johnson ] ]
Artificial limbs are typically manufactured using the following steps:
#Measurement of the stump
#Measurement of the body to determine the size required for the artificial limb
#Creation of a model of the stump
thermoplasticsheet around the model of the stump – This is then used to test the fit of the prosthetic
#Formation of permanent socket
#Formation of plastic parts of the artificial limb – Different methods are used, including
vacuum formingand injection molding
#Creation of metal parts of the artificial limb using
#Assembly of entire limb
There are several areas of technology that have advanced significantly in recent years and are showing considerable potential. Robotic limbs and direct bone attachment are two new technologies that have made tremendous gains recently.
Advancements in the processors used in myoelectric arms has allowed for artificial limbs to make gains in fine tuned control of the prosthetic. The Boston Digital Arm is a recent artificial limb that has taken advantage of these more advanced processors. The arm allows movement in five axes and allows the arm to be programmed for a more customized feel. Recently the i-Limb hand, invented in Edinburgh, Scotland, by David Gow has become the first commercially available hand prosthesis with five individually powered digits. The hand also possesses a manually rotatable thumb which is operated passively by the user and allows the hand to grip in precision, power and key grip modes. [http://www.sigmorobot.com/technology/news/boston_digital_arm.htm "Advanced Signal Processing Dramatically Improves Capability of Artificial Limbs"] , SIGMO Technology, 2005. Retrieved 11 February 2007. ]
Recently the i-Limb hand, invented in Edinburgh, Scotland, by David Gow has become the first commercially available hand prosthesis with five individually powered digits. The hand also possesses a manually rotatable thumb which is operated passively by the user and allows the hand to grip in precision, power and key grip modes. Raymond Edwards,
Limbless AssociationActing CEO, is the first amputee to be fitted with the i-LIMB by the National Health Service in the UK. [ [http://news.bbc.co.uk/1/hi/sci/tech/7443866.stm BBC NEWS | Science/Nature | Bionic hand wins top tech prize ] ] The hand, manufactured by [http://www.touchbionics.com/professionals.php?section=5 "Touch Bionics"] of Scotland, went on sale on 18th July 2007 in Britain for £8,500 (U.S. $17,454) [ [http://news.nationalgeographic.com/news/2007/07/070719-bionic-hand.html Photo in the News: Bionic Hand Unveiled in Britain ] ] .
Targeted muscle reinnervation (TMR) is a technique in which
motor nerves which previously controlled muscles on an amputated limb are surgically rerouted such that they reinnervate a small region of a large, intact muscle, such as the pectoralis major. As a result, when a patient thinks about moving the thumb of his missing hand, a small area of muscle on his chest will contract instead. By placing sensors over the reinervated muscle, these contractions can be made to control movement of an appropriate part of the robotic prosthesis.cite journal |author=Kuiken TA, Miller LA, Lipschutz RD, Lock BA, Stubblefield K, Marasco PD, Zhou P, Dumanian GA |title=Targeted reinnervation for enhanced prosthetic arm function in a woman with a proximal amputation: a case study |journal=Lancet |year=2007 |month=Feb |day=3 |volume=369 |issue=9559 |pages=371–80 |pmid=17276777 |doi=10.1016/S0140-6736(07)60193-7]
An emerging variant of this technique is called targeted sensory reinnervation (TSR). This procedure is similar to TMR, except that
sensory nerves are surgically rerouted to skinon the chest, rather than motor nerves rerouted to muscle. The patient then feels any sensory stimulus on that area of the chest, such as pressure or temperature, as if it were occurring on the area of the amputated limb which the nerve originally innervated. In the future, artificial limbs could be built with sensors on fingertips or other important areas. When a stimulus, such as pressure or temperature, activated these sensors, an electrical signal would be sent to an actuator, which would produce a similar stimulus on the "rewired" area of chest skin. The user would then feel that stimulus as if it were occurring on an appropriate part of the artificial limb.
Recently, robotic limbs have improved in their ability to take signals from the human brain and translate those signals into motion in the artificial limb.
DARPA, the Pentagon’s research division, is working to make even more advancements in this area. Their desire is to create an artificial limb that ties directly into the nervous system. [http://www.darpa.mil/dso/solicitations/sn07-43.htm Defense Sciences Office ] ]
Direct Bone Attachment
Direct bone attachment is a new method of attaching the artificial limb to the body. The stump and socket method can cause significant pain in the amputee, which is why the direct bone attachment has been explored extensively. The method works by inserting a titanium bolt into the bone at the end of the stump. After several months the bone attaches itself to the titanium bolt and an abutment is attached to the titanium bolt. The abutment extends out of the stump and the artificial limb is then attached to the abutment. Some of the benefits of this method include:
*Better muscle control of the prosthetic.
*The ability to wear the prosthetic for an extended period of time; with the stump and socket method this is not possible.
*The ability for transfemoral amputees to drive a car.The main disadvantage of this method is that amputees with the direct bone attachment cannot have large impacts on the limb, such as those experienced during jogging, because of the potential for the bone to break. [http://www.abc.net.au/science/slab/leg/default.htm Getting an artificial leg up - Cathy Johnson ] ]
Transradial and transtibial prostheses typically cost between US $6,000 and $8,000. Transfemoral and transhumeral prosthetics cost approximately twice as much with a range of $10,000 to $15,000 and can sometimes reach costs of $35,000. The cost of an artificial limb does recur because artificial limbs are usually replaced every 3-4 years due to
wear and tear. In addition, if the artificial limb has fit issues, the limb must be replaced within several months. [http://www.boston.com/business/globe/articles/2005/07/05/cost_of_prosthetics_stirs_debate/ "Cost of Prosthetics Stirs Debate"] , The Boston Globe, 5 July 2005. Retrieved 11 February 2007.] The i-Limb hand, manufactured by Touch Bionics of Scotland, went on sale on 18th July 2007 in Britain for £8,500 (U.S. $17,454) [  ] .
"Jaipur Foot", an artificial limb from
Jaipur, India, costs about US$ 40.
There is currently an open Prosthetics design forum known as the "Open Prosthetics Project". The group employs collaborators and volunteers to advance Prosthetics technology while attempting to lower the costs of these necessary devices. Visit their site at http://OpenProsthetics.org.
A plan for a low-cost artificial leg, designed by Sébastien Dubois, featured at the 2007 Indernational Design Exhibition award show in Copenhagen, Denmark. It plans to be able to create an energy-return prosthetic leg for US 8 dollars, composed primarily of
fiberglass. [ [http://www.indexaward.dk/2007/default.asp?id=706&show=nomination&nominationid=163&playmovie=wmv INDEX:2007 INDEX: AWARD ] ]
* [http://www.chardmuseum.co.uk/Pioneers_in_Artifical_Limbs/ Chard Museum] Display of James Gillingham's work on post WW1 artificial limbs.
* [http://www.oandpcare.org/public/glossary.asp OandPCare.org] has an extensive glossary of terms relating to artificial limbs, prostheses and the field of prosthetics
* [http://www.mtb-amputee.com/ProstheticSuppliers&Manufacturers.htm Prosthetic Suppliers and Manufacturers]
* [http://openprosthetics.org The Open Prosthetics Project]
Wikimedia Foundation. 2010.
Look at other dictionaries:
artificial limb — A limb of cork, wood, or other composition fitted and attached to the body in place of an amputated arm or leg … Ballentine's law dictionary
Artificial Limb & Appliance Service — The Artificial Limb Appliance Service (ALAS) is an NHS Wales organisation providing support, equipment and rehabilitation to people with permanent or long term impairment. It is commissioned by Health Commission Wales (an executive agency of the… … Wikipedia
Artificial — is something which is not natural. Its original sense, related to artifact and artifice , refers to a product of human endeavor; a more English but gendered synonym is man made . It is also used to mean false , a substitute for the real thing, as … Wikipedia
limb — [ lım ] noun count ** 1. ) an arm or a leg: She rested her tired, aching limbs. an artificial limb 2. ) a large branch on a tree 3. ) a part of something that sticks out out on a limb in a position where you have no support from other people… … Usage of the words and phrases in modern English
limb — n. 1) an artificial limb 2) the lower; upper limbs 3) (misc.) out on a limb ( in a precarious position ) * * * [lɪm] upper limbs an artificial limb the lower (misc.) out on a limb ( in a precarious position ) … Combinatory dictionary
Artificial organ — An artificial organ is a man made device that is implanted into, or integrated onto, a human to replace a natural organ, for the purpose of restoring a specific function or a group of related functions so the patient may return to as normal a… … Wikipedia
limb */*/ — UK [lɪm] / US noun [countable] Word forms limb : singular limb plural limbs 1) an arm, or a leg She rested her tired, aching limbs. an artificial limb 2) a large branch on a tree 3) a part of something that sticks out • tear/rip someone limb from … English dictionary
artificial — adjective Date: 14th century 1. humanly contrived often on a natural model ; man made < an artificial limb > < artificial diamonds > 2. a. having existence in legal, economic, or … New Collegiate Dictionary
artificial — ar·ti·fi·cial .ärt ə fish əl adj 1) humanly contrived often on a natural model <an artificial limb> 2) based on differential morphological characters not necessarily indicative of natural relationships <an artificial key for… … Medical dictionary
artificial member — An artificial limb … Ballentine's law dictionary