New technologies and concepts for rehabilitation in the acute phase of stroke: A collaborative matrix

E. M. Siekierka; K. Eng; C. Bassetti; A. Blickenstorfer; M. S. Cameirao; V. Dietz; A. Duff; F. Erol; T. Ettlin; D. M. Hermann; T. Keller; B. Keisker; J. Kesselring; R. Kleiser; S. Kollias; J. P. Kool; A. Kurre; S. Mangold; T. Nef; P. Pyk; R. Riener; C. Schuster; F. Tosi; P. F.M.J. Verschure; L. Zimmerli

doi:10.1159/000100360

New technologies and concepts for rehabilitation in the acute phase of stroke: A collaborative matrix

E. M. Siekierka^*
, K. Eng
, C. Bassetti
, A. Blickenstorfer
, M. S. Cameirao
, V. Dietz
, A. Duff
, F. Erol
, T. Ettlin
, D. M. Hermann
, T. Keller
, B. Keisker
, J. Kesselring
, R. Kleiser
, S. Kollias
, J. P. Kool
, A. Kurre
, S. Mangold
, T. Nef
, P. Pyk

R. Riener, C. Schuster, F. Tosi, P. F.M.J. Verschure, L. Zimmerli

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

21 Citations (Scopus)

Abstract

The process of developing a successful stroke rehabilitation methodology requires four key components: a good understanding of the pathophysiological mechanisms underlying this brain disease, clear neuroscientific hypotheses to guide therapy, adequate clinical assessments of its efficacy on multiple timescales, and a systematic approach to the application of modern technologies to assist in the everyday work of therapists. Achieving this goal requires collaboration between neuroscientists, technologists and clinicians to develop well-founded systems and clinical protocols that are able to provide quantitatively validated improvements in patient rehabilitation outcomes. In this article we present three new applications of complementary technologies developed in an interdisciplinary matrix for acute-phase upper limb stroke rehabilitation - functional electrical stimulation, arm robot-assisted therapy and virtual reality-based cognitive therapy. We also outline the neuroscientific basis of our approach, present our detailed clinical assessment protocol and provide preliminary results from patient testing of each of the three systems showing their viability for patient use.

Original language	English
Pages (from-to)	57-69
Number of pages	13
Journal	Neurodegenerative Diseases
Volume	4
Issue number	1
DOIs	https://doi.org/10.1159/000100360
Publication status	Published - Apr 2007
Externally published	Yes

Keywords

Arm robot-assisted therapy
Functional electrical stimulation
Mirror neuron
Rehabilitation
Stroke
Virtual reality

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1159/000100360

Cite this

Siekierka, E. M., Eng, K., Bassetti, C., Blickenstorfer, A., Cameirao, M. S., Dietz, V., Duff, A., Erol, F., Ettlin, T., Hermann, D. M., Keller, T., Keisker, B., Kesselring, J., Kleiser, R., Kollias, S., Kool, J. P., Kurre, A., Mangold, S., Nef, T., ... Zimmerli, L. (2007). New technologies and concepts for rehabilitation in the acute phase of stroke: A collaborative matrix. Neurodegenerative Diseases, 4(1), 57-69. https://doi.org/10.1159/000100360

@article{99cc4adfffd84d15b7bde0d19751ad8d,

title = "New technologies and concepts for rehabilitation in the acute phase of stroke: A collaborative matrix",

abstract = "The process of developing a successful stroke rehabilitation methodology requires four key components: a good understanding of the pathophysiological mechanisms underlying this brain disease, clear neuroscientific hypotheses to guide therapy, adequate clinical assessments of its efficacy on multiple timescales, and a systematic approach to the application of modern technologies to assist in the everyday work of therapists. Achieving this goal requires collaboration between neuroscientists, technologists and clinicians to develop well-founded systems and clinical protocols that are able to provide quantitatively validated improvements in patient rehabilitation outcomes. In this article we present three new applications of complementary technologies developed in an interdisciplinary matrix for acute-phase upper limb stroke rehabilitation - functional electrical stimulation, arm robot-assisted therapy and virtual reality-based cognitive therapy. We also outline the neuroscientific basis of our approach, present our detailed clinical assessment protocol and provide preliminary results from patient testing of each of the three systems showing their viability for patient use.",

keywords = "Arm robot-assisted therapy, Functional electrical stimulation, Mirror neuron, Rehabilitation, Stroke, Virtual reality",

author = "Siekierka, \{E. M.\} and K. Eng and C. Bassetti and A. Blickenstorfer and Cameirao, \{M. S.\} and V. Dietz and A. Duff and F. Erol and T. Ettlin and Hermann, \{D. M.\} and T. Keller and B. Keisker and J. Kesselring and R. Kleiser and S. Kollias and Kool, \{J. P.\} and A. Kurre and S. Mangold and T. Nef and P. Pyk and R. Riener and C. Schuster and F. Tosi and Verschure, \{P. F.M.J.\} and L. Zimmerli",

year = "2007",

month = apr,

doi = "10.1159/000100360",

language = "English",

volume = "4",

pages = "57--69",

journal = "Neurodegenerative Diseases",

issn = "1660-2854",

publisher = "S. Karger AG",

number = "1",

}

Siekierka, EM, Eng, K, Bassetti, C, Blickenstorfer, A, Cameirao, MS, Dietz, V, Duff, A, Erol, F, Ettlin, T, Hermann, DM, Keller, T, Keisker, B, Kesselring, J, Kleiser, R, Kollias, S, Kool, JP, Kurre, A, Mangold, S, Nef, T, Pyk, P, Riener, R, Schuster, C, Tosi, F, Verschure, PFMJ & Zimmerli, L 2007, 'New technologies and concepts for rehabilitation in the acute phase of stroke: A collaborative matrix', Neurodegenerative Diseases, vol. 4, no. 1, pp. 57-69. https://doi.org/10.1159/000100360

TY - JOUR

T1 - New technologies and concepts for rehabilitation in the acute phase of stroke

T2 - A collaborative matrix

AU - Siekierka, E. M.

AU - Eng, K.

AU - Bassetti, C.

AU - Blickenstorfer, A.

AU - Cameirao, M. S.

AU - Dietz, V.

AU - Duff, A.

AU - Erol, F.

AU - Ettlin, T.

AU - Hermann, D. M.

AU - Keller, T.

AU - Keisker, B.

AU - Kesselring, J.

AU - Kleiser, R.

AU - Kollias, S.

AU - Kool, J. P.

AU - Kurre, A.

AU - Mangold, S.

AU - Nef, T.

AU - Pyk, P.

AU - Riener, R.

AU - Schuster, C.

AU - Tosi, F.

AU - Verschure, P. F.M.J.

AU - Zimmerli, L.

PY - 2007/4

Y1 - 2007/4

N2 - The process of developing a successful stroke rehabilitation methodology requires four key components: a good understanding of the pathophysiological mechanisms underlying this brain disease, clear neuroscientific hypotheses to guide therapy, adequate clinical assessments of its efficacy on multiple timescales, and a systematic approach to the application of modern technologies to assist in the everyday work of therapists. Achieving this goal requires collaboration between neuroscientists, technologists and clinicians to develop well-founded systems and clinical protocols that are able to provide quantitatively validated improvements in patient rehabilitation outcomes. In this article we present three new applications of complementary technologies developed in an interdisciplinary matrix for acute-phase upper limb stroke rehabilitation - functional electrical stimulation, arm robot-assisted therapy and virtual reality-based cognitive therapy. We also outline the neuroscientific basis of our approach, present our detailed clinical assessment protocol and provide preliminary results from patient testing of each of the three systems showing their viability for patient use.

AB - The process of developing a successful stroke rehabilitation methodology requires four key components: a good understanding of the pathophysiological mechanisms underlying this brain disease, clear neuroscientific hypotheses to guide therapy, adequate clinical assessments of its efficacy on multiple timescales, and a systematic approach to the application of modern technologies to assist in the everyday work of therapists. Achieving this goal requires collaboration between neuroscientists, technologists and clinicians to develop well-founded systems and clinical protocols that are able to provide quantitatively validated improvements in patient rehabilitation outcomes. In this article we present three new applications of complementary technologies developed in an interdisciplinary matrix for acute-phase upper limb stroke rehabilitation - functional electrical stimulation, arm robot-assisted therapy and virtual reality-based cognitive therapy. We also outline the neuroscientific basis of our approach, present our detailed clinical assessment protocol and provide preliminary results from patient testing of each of the three systems showing their viability for patient use.

KW - Arm robot-assisted therapy

KW - Functional electrical stimulation

KW - Mirror neuron

KW - Rehabilitation

KW - Stroke

KW - Virtual reality

UR - https://www.scopus.com/pages/publications/34247155714

U2 - 10.1159/000100360

DO - 10.1159/000100360

M3 - Review article

C2 - 17429220

AN - SCOPUS:34247155714

SN - 1660-2854

VL - 4

SP - 57

EP - 69

JO - Neurodegenerative Diseases

JF - Neurodegenerative Diseases

IS - 1

ER -

New technologies and concepts for rehabilitation in the acute phase of stroke: A collaborative matrix

Abstract

Keywords

UN SDGs

Access to Document

Other files and links

Fingerprint

Cite this