Boston Arm prototype (Gerard Arm)

Archived Site

Welcome to the archived version of the MIT Museum's online collections portal! This site was used to test features and content for the newly redesigned MIT Museum Collections site, which has now launched with over 150,000 objects. Please use the new MIT Museum Collections site for further research and discovery. This site remains online during the transition period but will not receive new updates or content.

Object Number: 2012.034.003

Please note zoom and rotate functionality is temporarily unavailable.

Date Made

Unknown

Description

MIT Professor Norbert Wiener broke his hip in 1961. During his recovery, he shared his speculations that servomechanisms could be used to link the brain to an artificial limb. Wiener's orthopedist Dr. Melvin Glimcher at Massachusetts General Hospital was intrigued. Glimcher also headed the amputee clinic at the Liberty Mutual Insurance Company and had been struggling with designs that would help above-elbow amputees. Shortly thereafter, Weiner connected Glimcher with two MIT faculty: Electrical Engineering Professor Amar Bose and Mechanical Engineering Professor Robert Mann. Mann was recruited to provide advice on the design of a small, lightweight power system similar to the ones he had developed for the Sparrow missile. Soon, Mann and his graduate students became the principal investigators on this project along with Glimcher and Liberty Mutual. In 1968, they demonstrated the "Boston Elbow -- Version I," the first artificial limb that used electrical signals from the brain to control its movement. It took engineers at Liberty Mutual Insurance Company many more years of development to create a viable prosthesis. The museum display included one of the earliest experiments and two working prototypes, including one developed by EG&G for Liberty Mutual. The research on the control systems for artificial arms by Stephen Jacobsen, Robert Mann's doctoral student, would become the basis for the development of an equally famous prosthesis, the Utah Arm. Today, above- elbow amputees, whether they use an LTI Boston Digital Arm System or a Motion Control, Inc. Utah Arm 3+, still benefit from the pioneering research at MIT. [MIT 150 exhibition label text]

Major Collection

Technology

More Details

Additional information

MIT Professor Norbert Wiener broke his hip in 1962. During his recovery, he shared his speculations that servomechanisms could be used to link the brain to an artificial limb. The Massachusetts General Hospital doctors were intrigued. Shortly thereafter, MIT Mechanical Engineering Professor Robert Mann was recruited to provide advice on the design of a small, lightweight power system similar to the ones he had developed for the Sparrow missile. Soon Mann was completely engaged with orthopedic surgeon Melvin Glimcher. In 1968, they demonstrated the "Boston Arm," the first artificial limb that used electrical signals from the brain to control its movement. It took engineers at Liberty Mutual Insurance Company many more years of development to create a viable prosthesis. This display shows one of the earliest experiments and two working prototypes, one developed by EG&G for Liberty Mutual. The research on the control systems for artificial arms by Stephen Jacobsen, Robert Mann's doctoral student, would become the basis for the development of an equally famous prosthesis, the Utah Arm.

Measurements

15.25" x 5" x 4"

Item Count

Cite This Item

"Boston Arm prototype (Gerard Arm)", Prosthetic, Unknown. MIT Museum, Cambridge MA. https://collections.mitmuseum.org/object/2012-034-003/

Some restrictions on use. Please contact MIT Museum.

Leave us a note if you enjoyed this object or have details to share