Max-Planck-Institut für Dynamik komplexer technischer Systeme

Abstract

Electrical nerve-stimulation of paralyzed muscles can be used to generate muscle contractions. In combination with appropriate sensor technology and feedback control, this can be exploited to elicit functional movements, such as walking ^[1] ^[2] ^[3] ^[4] ^[5] ^[6], cycling ^[7] ^[8], reaching and grasping ^[9] ^[10], and even swallowing ^[11] ^[12]. Depending on the degree of disability, the goal may be temporary assistance, e.g., during re-learning of gait, or permanent replacement of lost motor functions (neuro-prostheses). In the context of control, the most challenging aspects are the complex interaction between FES, robotic support ^[13] and residual motor function of the patients, and the fact that for certain tasks as, e.g., walking or grasping, control has to cope with discrete changes of otherwise continuous dynamics caused by interaction with the environment. In order to realize feedback control schemes, a number of sensor technologies are investigated such as inertial measurement units (IMUs) ^[3], bioimpedance ^[14] and electromyography ^[15] ^[16] for monitoring human movement.

Subprojects

Bioimpedance-Controlled Neuro-Prosthesis to Support Swallowing

People involved

Cooperation

Unfallkrankenhaus Berlin - Trauma Hospital Berlin (R. O. Seidl, C. Schultheiss)

Funding

Federal Ministry of Education and Research (BMBF), Innovation Award 2009 for Medical Technology

Iterative Learning Control of FES-Assisted Gait Training/Drop Foot Stimulator

People involved

Thomas Seel (TU Berlin)
Thomas Schauer (TU Berlin)
Holger Nahrstaedt (TU Berlin)
Jörg Raisch

Cooperation

Charité-Universitätsmedizin (S. Hesse, C. Werner)
HASOMED GmbH, Magdeburg

Funding

TU Berlin, Federal Ministry of Education and Research (BMBF), Max Planck Society

Control of Endeffector-Based Rehabilitation Robotics in Combination with Electrical Stimulation for Gait Training after Stroke

People involved

Thomas Schauer (TU Berlin)
Holger Nahrstaedt (TU Berlin)
Raafat Shalaby
Jörg Raisch

Cooperation

Fraunhofer Institute for Production Systems and Design Technology (J. Krüger, H. Schmidt)
Charité-Universitätsmedizin (S. Hesse, C. Werner)
HASOMED GmbH, Magdeburg
Politecnico di Milano (E. Ambrosini, S. Ferrante)

Funding

Federal Ministry of Education and Research (BMBF), TU Berlin, Egyptian Government (scholarship)

Development of a Portable Endeffector-Based Hand/Arm Rehabilitation Robot combined with Functional Electrical Stimulation

People involved

Thomas Schauer (TU Berlin)
Luo Dongfeng

Cooperation

Charité-Universitätsmedizin (S. Hesse, C. Werner)

Funding

TU Berlin, Chinese Academy of Sciences, Max Planck Society

Prospective Study on Breathing Synchronized Electrical Stimulation of the Abdominal Muscles in Patients with Acute and Chronic Tetraplegia

People involved

Thomas Schauer (TU Berlin)
Ralph Stephan (TU Berlin)

Cooperation

Unfallkrankenhaus Berlin - Trauma Hospital Berlin (R. O. Seidl, A. Niedeggen)

Funding

DGUV (Deutsche Gesetzliche Unfallversicherung), TU Berlin

Multimodal Neuro-Prosthesis for Daily Upper Limb Support

People involved

Christian Klauer (TU Berlin)
Thomas Schauer (TU Berlin)

Cooperation

Politecnico di Milano (coordinator) (G. Ferrigno)
ETH Zurich (S. Micera)
TU Wien (M. Gföhler)
Machine Learning Group at TU Berlin (K.-R. Müller)
Hocoma AG
Ab.Acus S.r.l.
Valduce Hospital - Villa Beretta - Rehabilitation Centre
Fraunhofer Institute for Experimental Software Engineering IESE

Funding

EU-MUNDUS (Strep FP7)

Description

The overall theme of this project is to investigate the application of controlled functional electrical stimulation (FES) for the rehabilitation of stroke patients and persons with spinal cord injuries. It is well-known that electrical nerve stimulation can be used to generate contractions of paralyzed muscles. In combination with appropriate sensor technology and feedback control, this can be exploited to elicit functional movements, such as walking and cycling, and hence to restore certain motor functions. Depending on the degree of disability, the intention may be temporary assistance, e.g., during relearning of gait, or permanent replacement of lost motor functions (neuro-prosthesis). Beside these functional effects, FES has several secondary therapeutic benefits: it improves muscle size and strength, increases the range of joint motion and improves cardiopulmonary fitness by providing significant training effects. FES is therefore potentially more attractive for rehabilitation purposes than conventional methods such as passive bracing of the joints. Fig. 1 explains the principle of controlled FES for a specific problem, the control of the knee joint angle by quadriceps stimulation. The knee joint angle is measured and fed back to the controller, which generates a suitable stimulation pattern to achieve tracking of a reference trajectory.

Figure 1: Functional Electrical Stimulation (FES) for knee-joint angle control.

Stimulation can either be applied directly to the peripheral motor nerves (as shown in Fig. 1) or, if the reflex arcs in the lower spinal cord are still intact, to the sensory nerves (neuro-modulation). The latter causes an indirect stimulation of motor nerves while ensuring the natural inhibition of antagonistic muscles. A general problem with FES is rapid muscle fatigue. External stimuli, which replace the missing commands from the central nervous system, tend to invert the recruitment order of muscle fibres: motorneurons with larger diameter are activated first as they have a lower threshold; they recruit the faster and more powerful (type 2 or white) fibres, which fatigue more quickly than the slower and less powerful (type 1 or red) muscle fibres. Electrical stimulation is realized by attaching surface electrodes to the skin, because the alternative, implanting electrodes, is much less convenient and carries a serious risk of infection. The project is currently organized within six subprojects (see above), addressing fundamental questions as well as aiming at transferring results into medical and therapeutical practice.

For two of these subprojects a detailed description can be found here:

Bioimpedance-Controlled Neuro-Prosthesis to Support Swallowing

Iterative Learning Control of FES-Assisted Gait Training/Drop Foot Stimulator

Publications

↑ Nahrstaedt, H., Schauer, T., Shalaby, R., Hesse, S., Raisch, J. - Automatic Control of a Drop-Foot Stimulator Based on Angle Measurement Using Bioimpedance
Artificial Organs 32:649–654,2008
Bibtex
Author : Nahrstaedt, H., Schauer, T., Shalaby, R., Hesse, S., Raisch, J.
Title : Automatic Control of a Drop-Foot Stimulator Based on Angle Measurement Using Bioimpedance
In : Artificial Organs -
Address :
Date : 2008
| PDF | DOI
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↑ Nahrstaedt, H., Schauer, T., Hesse, S., Raisch, J. - Iterative Learning Control of a Gait Neuroprosthesis (Article in German)
at - Automatisierungstechnik 56(9):494–501,2008
Bibtex
Author : Nahrstaedt, H., Schauer, T., Hesse, S., Raisch, J.
Title : Iterative Learning Control of a Gait Neuroprosthesis (Article in German)
In : at - Automatisierungstechnik -
Address :
Date : 2008
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↑ ^3.0 ^3.1 Negard, N.-O. - Controlled FES-assisted gait training for hemiplegic stroke patients based on inertial sensors
Ph.D. Thesis, TU Berlin ,2009
Bibtex
Author : Negard, N.-O.
Title : Controlled FES-assisted gait training for hemiplegic stroke patients based on inertial sensors
In : Ph.D. Thesis, TU Berlin -
Address :
Date : 2009
| PDF | Link
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↑ Schauer, T., Negaard, N.-O., Nahrstaedt, H., Raisch, J. - Control of Drop Foot Stimulation Devices for Compensation of Insufficient Dorsiflexion after Stroke
ORTHOPÄDIETECHNIK 60(2):78–83,2009
Bibtex
Author : Schauer, T., Negaard, N.-O., Nahrstaedt, H., Raisch, J.
Title : Control of Drop Foot Stimulation Devices for Compensation of Insufficient Dorsiflexion after Stroke
In : ORTHOPÄDIETECHNIK -
Address :
Date : 2009
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↑ Schauer, T., Negaard, N.-O., Liedecke, W., Hömberg, V., Raisch, J. - Real-time gait analysis by means of inertial sensors for the control of functional electrical stimulation assisted gait training after stroke (Article in German)
Medizinisch-Orthopädische Technik 130(3):31–37,2010
Bibtex
Author : Schauer, T., Negaard, N.-O., Liedecke, W., Hömberg, V., Raisch, J.
Title : Real-time gait analysis by means of inertial sensors
for the control of functional electrical stimulation
assisted gait training after stroke (Article in German)
In : Medizinisch-Orthopädische Technik -
Address :
Date : 2010
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↑ Seel, T., Schauer, T., Raisch, J. - Iterative Learning Control for Variable Pass Length Systems
Preprints of the 18th IFAC World Congress pp. 4880–4885, Milan, Italy,2011
Bibtex
Author : Seel, T., Schauer, T., Raisch, J.
Title : Iterative Learning Control for Variable Pass Length Systems
In : Preprints of the 18th IFAC World Congress -
Address : Milan, Italy
Date : 2011
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↑ Ferrante, S., Schauer, T., Ferrigno, G., Raisch, J., Molteni, F. - The effect of using variable frequency trains during functional electrical stimulation cycling
Neuromodulation 11(3):216–226,2008
Bibtex
Author : Ferrante, S., Schauer, T., Ferrigno, G., Raisch, J., Molteni, F.
Title : The effect of using variable frequency trains during functional electrical stimulation cycling
In : Neuromodulation -
Address :
Date : 2008
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↑ Ambrosini, E., Ferrante, S., Schauer, T., Ferrigno, G., Molteni, F., Pedrocchi, A. - Design of a symmetry controller for cycling induced by electrical stimulation: preliminary results on post-acute stroke patients
Artificial Organs 34(8):663–667,2010
Bibtex
Author : Ambrosini, E., Ferrante, S., Schauer, T., Ferrigno, G., Molteni, F., Pedrocchi, A.
Title : Design of a symmetry controller for cycling induced by electrical stimulation: preliminary results on post-acute stroke patients
In : Artificial Organs -
Address :
Date : 2010
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↑ Klauer, C., Schauer, T., Raisch, J. - High Performance Motion Control by Neuro-Muscular Electrical Stimulation applied to the Upper-Limb
Proc. of 15th Annual International FES Society Conference and 10th Vienna Int. Workshop on FES pp. 318–320, Vienna, Austria,2010
Bibtex
Author : Klauer, C., Schauer, T., Raisch, J.
Title : High Performance Motion Control by Neuro-Muscular Electrical Stimulation applied
to the Upper-Limb
In : Proc. of 15th Annual International FES Society Conference and 10th
Vienna Int. Workshop on FES -
Address : Vienna, Austria
Date : 2010
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↑ Klauer, C., Schauer, T., Raisch, J. - Joint-angle control by electrical stimulation of antagonistic muscles (Article in German)
at - Automatisierungstechnik 59(10),2011
Bibtex
Author : Klauer, C., Schauer, T., Raisch, J.
Title : Joint-angle control by electrical stimulation of antagonistic muscles (Article in German)
In : at - Automatisierungstechnik -
Address :
Date : 2011
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↑ Nahrstaedt, H., Schauer, T., Seidl, R. O. - Bioimpedance based measurement system for a controlled swallowing neuro-prosthesis
Proc. of 15th Annual International FES Society Conference and 10th Vienna Int. Workshop on FES pp. 49–51, Vienna, Austria,2010
Bibtex
Author : Nahrstaedt, H., Schauer, T., Seidl, R. O.
Title : Bioimpedance based measurement system for a controlled swallowing neuro-prosthesis
In : Proc. of 15th Annual International FES Society Conference and 10th Vienna Int. Workshop on FES -
Address : Vienna, Austria
Date : 2010
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↑ Seidl, R. O., Nahrstaedt, H., Schauer, T. - Electric stimulation in dysphagia therapy – a review (Article in German)
Laryngo-Rhino-Otologie 88(12):768–774,2009
Bibtex
Author : Seidl, R. O., Nahrstaedt, H., Schauer, T.
Title : Electric stimulation in dysphagia therapy – a review (Article in German)
In : Laryngo-Rhino-Otologie -
Address :
Date : 2009
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↑ Luo, D., Carstens, J. H. H., Schauer, T., Raisch, J. - Haptic control of a table-placed mobile robot for arm/shoulder rehabilitation
Proc. of the 3rd European Conference Technically Assisted Rehabilitation - TAR 2011 ,2011
Bibtex
Author : Luo, D., Carstens, J. H. H., Schauer, T., Raisch, J.
Title : Haptic control of a table-placed mobile robot for arm/shoulder rehabilitation
In : Proc. of the 3rd European Conference Technically Assisted Rehabilitation - TAR 2011 -
Address :
Date : 2011
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↑ Nahrstaedt, H., Schauer, T. - A bioimpedance measurement device for sensing force and position in neuroprosthetic systems
4th European Conference of the International Federation for Medical and Biological Engineering pp. 1642-1645, Antwerp, Belgium,2008
Bibtex
Author : Nahrstaedt, H., Schauer, T.
Title : A bioimpedance measurement device for sensing force and position in neuroprosthetic systems
In : 4th European Conference of the International Federation for Medical and Biological Engineering -
Address : Antwerp, Belgium
Date : 2008
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↑ Shalaby, R., Schauer, T., Liedecke, W., Raisch, J. - Amplifier design for EMG recording from stimulation electrodes during functional electrical stimulation leg cycling ergometry
Biomedizinische Technik. Biomedical Engineering 56(1):23–33,2011
Bibtex
Author : Shalaby, R., Schauer, T., Liedecke, W., Raisch, J.
Title : Amplifier design for EMG recording from stimulation
electrodes during functional electrical stimulation
leg cycling ergometry
In : Biomedizinische Technik. Biomedical Engineering -
Address :
Date : 2011
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↑ Shalaby, R. - Development of an Electromyography Detection System for the Control of Functional Electrical Stimulation in Neurological Rehabilitation
Ph.D. Thesis, TU Berlin ,2011
Bibtex
Author : Shalaby, R.
Title : Development of an Electromyography Detection System for the Control of Functional Electrical Stimulation in Neurological Rehabilitation
In : Ph.D. Thesis, TU Berlin -
Address :
Date : 2011
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