Hugh M Herr1, Tyler R Clites1, Shriya Srinivasan1, Simon G Talbot2, Gregory A Dumanian3, Paul S Cederna4, Matthew J Carty1,2. 1. Massachusetts Institute of Technology, Center for Extreme Bionics, Cambridge, MA. 2. Division of Plastic Surgery, Brigham and Women's Hospital, Boston, MA. 3. Division of Plastic Surgery, Northwestern Memorial Hospital, Chicago, IL. 4. Section of Plastic Surgery, University of Michigan, Ann Arbor, MI.
Abstract
BACKGROUND: Recent progress in biomechatronics and vascularized composite allotransplantation have occurred in the absence of congruent advancements in the surgical approaches generally utilized for limb amputation. Consideration of these advances, as well as of both novel and time-honored reconstructive surgical techniques, argues for a fundamental reframing of the way in which amputation procedures should be performed. METHODS: We review sentinel developments in external prosthetic limb technology and limb transplantation, in addition to standard and emerging reconstructive surgical techniques relevant to limb modification, and then propose a new paradigm for limb amputation. RESULTS: An approach to limb amputation based on the availability of native tissues is proposed, with the intent of maximizing limb function, limiting neuropathic pain, restoring limb perception/proprioception and mitigating limb atrophy. CONCLUSIONS: We propose a reinvention of the manner in which limb amputations are performed, framed in the context of time-tested reconstructive techniques, as well as novel, state-of-the-art surgical procedures. Implementation of the proposed techniques in the acute setting has the potential to elevate advanced limb replacement strategies to a clinical solution that perhaps exceeds what is possible through traditional surgical approaches to limb salvage. We therefore argue that amputation, performed with the intent of optimizing the residuum for interaction with either a bionic or a transplanted limb, should be viewed not as a surgical failure, but as an alternative form of limb reconstruction.
BACKGROUND: Recent progress in biomechatronics and vascularized composite allotransplantation have occurred in the absence of congruent advancements in the surgical approaches generally utilized for limb amputation. Consideration of these advances, as well as of both novel and time-honored reconstructive surgical techniques, argues for a fundamental reframing of the way in which amputation procedures should be performed. METHODS: We review sentinel developments in external prosthetic limb technology and limb transplantation, in addition to standard and emerging reconstructive surgical techniques relevant to limb modification, and then propose a new paradigm for limb amputation. RESULTS: An approach to limb amputation based on the availability of native tissues is proposed, with the intent of maximizing limb function, limiting neuropathic pain, restoring limb perception/proprioception and mitigating limb atrophy. CONCLUSIONS: We propose a reinvention of the manner in which limb amputations are performed, framed in the context of time-tested reconstructive techniques, as well as novel, state-of-the-art surgical procedures. Implementation of the proposed techniques in the acute setting has the potential to elevate advanced limb replacement strategies to a clinical solution that perhaps exceeds what is possible through traditional surgical approaches to limb salvage. We therefore argue that amputation, performed with the intent of optimizing the residuum for interaction with either a bionic or a transplanted limb, should be viewed not as a surgical failure, but as an alternative form of limb reconstruction.
Authors: Shriya S Srinivasan; Greta Tuckute; Jasmine Zou; Samantha Gutierrez-Arango; Hyungeun Song; Robert L Barry; Hugh M Herr Journal: Sci Transl Med Date: 2020-12-09 Impact factor: 17.956
Authors: Shriya S Srinivasan; Samantha Gutierrez-Arango; Ashley Chia-En Teng; Erica Israel; Hyungeun Song; Zachary Keith Bailey; Matthew J Carty; Lisa E Freed; Hugh M Herr Journal: Proc Natl Acad Sci U S A Date: 2021-03-02 Impact factor: 11.205
Authors: Matthias Luft; Johanna Klepetko; Silvia Muceli; Jaime Ibáñez; Vlad Tereshenko; Christopher Festin; Gregor Laengle; Olga Politikou; Udo Maierhofer; Dario Farina; Oskar C Aszmann; Konstantin Davide Bergmeister Journal: Elife Date: 2021-10-01 Impact factor: 8.140
Authors: Alison M Karczewski; Weifeng Zeng; Lindsay M Stratchko; Kent N Bachus; Samuel O Poore; Aaron M Dingle Journal: Front Neurosci Date: 2022-04-12 Impact factor: 5.152
Authors: Hyungeun Song; Erica A Israel; Samantha Gutierrez-Arango; Ashley C Teng; Shriya S Srinivasan; Lisa E Freed; Hugh M Herr Journal: Commun Med (Lond) Date: 2022-08-05