TY - JOUR
T1 - Collaborative approach in the development of high-performance brain-computer interfaces for a neuroprosthetic arm
T2 - Translation from animal models to human control
AU - Collinger, Jennifer L.
AU - Kryger, Michael A.
AU - Barbara, Richard
AU - Betler, Timothy
AU - Bowsher, Kristen
AU - Brown, Elke H.P.
AU - Clanton, Samuel T.
AU - Degenhart, Alan D.
AU - Foldes, Stephen T.
AU - Gaunt, Robert A.
AU - Gyulai, Ferenc E.
AU - Harchick, Elizabeth A.
AU - Harrington, Deborah
AU - Helder, John B.
AU - Hemmes, Timothy
AU - Johannes, Matthew S.
AU - Katyal, Kapil D.
AU - Ling, Geoffrey S.F.
AU - Mcmorland, Angus J.C.
AU - Palko, Karina
AU - Para, Matthew P.
AU - Scheuermann, Janet
AU - Schwartz, Andrew B.
AU - Skidmore, Elizabeth R.
AU - Solzbacher, Florian
AU - Srikameswaran, Anita V.
AU - Swanson, Dennis P.
AU - Swetz, Scott
AU - Tyler-Kabara, Elizabeth C.
AU - Velliste, Meel
AU - Wang, Wei
AU - Weber, Douglas J.
AU - Wodlinger, Brian
AU - Boninger, Michael L.
PY - 2014/2
Y1 - 2014/2
N2 - Our research group recently demonstrated that a person with tetraplegia could use a brain-computer interface (BCI) to control a sophisticated anthropomorphic robotic arm with skill and speed approaching that of an able-bodied person. This multiyear study exemplifies important principles in translating research from foundational theory and animal experiments into a clinical study. We present a roadmap that may serve as an example for other areas of clinical device research as well as an update on study results. Prior to conducting a multiyear clinical trial, years of animal research preceded BCI testing in an epilepsy monitoring unit, and then in a short-term (28 days) clinical investigation. Scientists and engineers developed the necessary robotic and surgical hardware, software environment, data analysis techniques, and training paradigms. Coordination among researchers, funding institutes, and regulatory bodies ensured that the study would provide valuable scientific information in a safe environment for the study participant. Finally, clinicians from neurosurgery, anesthesiology, physiatry, psychology, and occupational therapy all worked in a multidisciplinary team along with the other researchers to conduct a multiyear BCI clinical study. This teamwork and coordination can be used as a model for others attempting to translate basic science into real-world clinical situations. This article is a U.S. Government work and is in the public domain in the USA.
AB - Our research group recently demonstrated that a person with tetraplegia could use a brain-computer interface (BCI) to control a sophisticated anthropomorphic robotic arm with skill and speed approaching that of an able-bodied person. This multiyear study exemplifies important principles in translating research from foundational theory and animal experiments into a clinical study. We present a roadmap that may serve as an example for other areas of clinical device research as well as an update on study results. Prior to conducting a multiyear clinical trial, years of animal research preceded BCI testing in an epilepsy monitoring unit, and then in a short-term (28 days) clinical investigation. Scientists and engineers developed the necessary robotic and surgical hardware, software environment, data analysis techniques, and training paradigms. Coordination among researchers, funding institutes, and regulatory bodies ensured that the study would provide valuable scientific information in a safe environment for the study participant. Finally, clinicians from neurosurgery, anesthesiology, physiatry, psychology, and occupational therapy all worked in a multidisciplinary team along with the other researchers to conduct a multiyear BCI clinical study. This teamwork and coordination can be used as a model for others attempting to translate basic science into real-world clinical situations. This article is a U.S. Government work and is in the public domain in the USA.
KW - Brain
KW - Clinical trials
KW - Methodology
KW - Translational research
UR - http://www.scopus.com/inward/record.url?scp=84894071006&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=84894071006&partnerID=8YFLogxK
U2 - 10.1111/cts.12086
DO - 10.1111/cts.12086
M3 - Article
C2 - 24528900
AN - SCOPUS:84894071006
SN - 1752-8054
VL - 7
SP - 52
EP - 59
JO - Clinical and translational science
JF - Clinical and translational science
IS - 1
ER -