Program Booklet 130815

International Neurorehabilitation Symposium 2013September 11 - 13, 2013ETH Zurich, Science City

Zurich, Switzerland

Table of contentsWelcome letter 3

About INRS 2013 4 Scientific Committee 4 Co-Organizers 5 Sponsors 5

Conference Location 7About Zurich 7Further information 7Congress venue: Science City 8Address 8Getting around 9

Congress Information 11 Exhibitor list 11Important to know 11Exhibition area and posters plan 12

Social Event 16

Keynote Speakers 18

Event Program 23 Wednesday, September 11 23 Thursday, September 12 24 Friday, September 13 26

Workshops 28

Poster Overview 36 Poster presentation 41

Notes 42

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Welcome to the INRS 2013Dear INRS participants,

We are pleased to welcome you to the fifth edition of the International Neurorehabilitation Sympo-sium in Zurich, Switzerland. Especially the interdisciplinary nature of the INRS has made this event a valuable platform and a one-of-a-kind experience for participants around the world.

For the next three days, experts in clinical and technological aspects of rehabilitation will meet at the leading interdisciplinary gathering to discuss new technologies and their efficient integration into daily practice.

The INRS 2013 with its international and interdisciplinary reputation is facilitated by a great number of co-organizers from renowned institutions and research groups that enjoy valuable support from various EU projects, science and industry. Thanks to this support as well as a large and active clinical network, it was possible to arrange the INRS once again with a great variety of speakers, workshops and topics. The symposium therefore offers a unique opportunity for continuous education and knowledge exchange in all fields of neurorehabilitation.

With the outstanding research records of its universities and a great support for putting new findings directly into practice, Zurich represents an ideal venue for the INRS2013. As one of the leading science centers in this field, it offers an inspiring research environment and an excellent education to an international audience.

The city of Zurich is also the perfect place to linger and enjoy. Whether you are looking for new culinary experiences, cultural highlights or just a night out with colleagues and friends - Zurich has it all. So if you have some spare time before or after the symposium, take the chance to experience the lifestyle city on the lake or the beautiful nature waiting right on your doorstep.

We are looking forward to sharing this educational and valuable experience with you and wish all participants fruitful knowledge exchanges, lively discussions and rewarding interactions that will last long beyond the symposium.

Best regards, The INRS 2013 Organization Committee

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About INRS 2013INRS 2013 Scientific Committee

Javier BlancoZürcher Höhenklinik Wald, Switzerland

Marc BolligerUniversity Hospital Balgrist, SCI Center, University of Zurich, Switzerland

Gery ColomboHocoma AG, Switzerland

Armin CurtUniversity Hospital Balgrist, SCI Center, University of Zurich, Switzerland

Roger GassertInstitute of Robotics and Intelligent Systems, ETH Zurich, Switzerland

Thierry KellerTECNALIA Research & Innovation, Spain

Andreas LuftDepartment of Neurology, University of Zurich, Switzerland

Irin MaierHocoma AG, Switzerland

Andreas Meyer-HeimUniversitäts Kinderspital Zürich – Eleonorenstiftung, Rehabilitationszentrum, Switzerland

Robert RienerInstitute of Robotics and Intelligent Systems, ETH Zurich, Switzerland

Michael UrbanRehaklinik Zihlschlacht, Switzerland

Huub van HedelUniversitäts Kinderspital Zürich – Eleonorenstiftung, Rehabilitationszentrum, Switzerland

Daniel ZutterRehaklinik Zihlschlacht, Switzerland

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Co-Organizers

Sponsors

FOR A BETTER LIFE

Allergan AG, SwitzerlandBioness, NetherlandsStiftung Cerebral, SwitzerlandDePuy Synthes CMF, a division of Johnson & Johnson AG, SwitzerlandHocoma, Switzerlandh/p/cosmos sports & medical GmbH, GermanyIdrogenet Srl, ItalyMindmaze SA, SwitzerlandMoog B.V., NetherlandsNeuroelectrics, SpainRehaklinik Zihlschlacht, SwitzerlandReha Technology AG, SwitzerlandSigg AG, SwitzerlandTyromotion GmbH, AustriaYouRehab, Switzerlandzebris Medical GmbH, Germany

Dominic, Frederico und Giorgina brauchen Ihre Hilfe. Bitte spenden Sie.

Dominic, 16Frederico, 13

Giorgina, 15

Schweizerische Stiftung für das cerebral gelähmte KindErlachstrasse 14, Postfach 8262, 3001 Bern

Telefon 031 308 15 15, Postkonto 80-48-4, www.cerebral.ch

rz_Inserate Cerebral_2012_210x297_4f_d.indd 1 29.05.12 10:19

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Conference LocationAbout Zurich

Zurich is a cosmopolitan city in the heart of Europe and is located on a clear lake surrounded by beautiful mountains. It embraces history, heritage, culture and art with rich cultural influences and diversity. Zurich offers culinary highlights, unlimited shopping pleasure, over 50 museums and more than 100 art galleries and Switzerland’s liveliest nightlife.

Further informationWeatherZurich has a humid continental climate with four distinct seasons. One of the best times of the year for visiting Zurich is between June and September. During these summer months the average day-time temperature is around 22°C. Rainfall is spread throughout the year, with slightly higher levels of rainfall during summer than during winter.

CurrencyThe official currency is the Swiss Franc (CHF). Most banks are open from Monday to Friday between 09h00 and 16h30. On Saturdays and Sundays banks are closed.

Time zoneZurich is located in the Central European Time Zone (GMT + 1 during wintertime, GMT +2 during summertime).

ShoppingMost shops are open from Monday to Friday between 9h00 and 20h00 and on Saturday between 9h00 and 17h00. International and luxury brands are located on the Bahnhofstrasse and trendy and traditional stores are located in the Old Town, on both sides of the Limmat river.

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Congress Venue: Science CityETH Zurich is one of the most prestigious scientific and technical universities in the world. It provides an ideal environment for education and research. Since 2003, ETH has been steadily developing its Science City university campus on the Hönggerberg site. Science City is a model university for the 21st century and sees itself as a place where science, business and the general public come together. A city district for a “Thinkers’ Culture” is being created, where students, researchers and visitors can meet and realise new ideas. The congress will take place in the building HCI of Science City, ETH campus Hönggerberg.

AddressETH Science City HönggerbergBuilding HCIWolfgang-Pauli Strasse 148093 Zürich

Glaubtenstrasse

Wolf

gang

-Pau

li-St

rass

e

P

Schafmattstrasse

Einsteinstrasse

37/69/80

Regular bus stop, „ETH Hönggerberg“,lines 37 69 80Parking garage HCI accessible via „Emil-Klöti-Strasse“

to the airport

to the city

P HCI

Emil-Klöti-Strasse

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Getting aroundFrom Zurich main station to the congress venueThere are several options to get from the Zurich main station to the congress venue:• S-Bahn (lines 2, 5, 6, 7, 8, 14, 16) to “Bahnhof Oerlikon”; bus 80 (direction “Triemlispital”) from

“Bahnhof Oerlikon Nord” to bus stop “ETH Hönggerberg”. Journey time: about 25 minutes.

• Tram 11 (direction “Auzelg”) to “Bucheggplatz”, from there by bus 69 (direction “ETH Höngger-berg”) to the terminal stop. Journey time: about 25 minutes.

• Tram 14 (direction “Seebach”) to “Milchbuck”, from there by bus 69 (direction “ETH Höngger-berg”) to the terminal stop. Journey time: about 25 minutes.

You need a valid ticket for Zone 10 (“Stadt Zürich”). Depending on your needs, you can buy a day ticket (“Tageskarte”) valid for 24 hours for all trams and buses.

From station “ETH Zentrum” to the congress venue• Tram 9 (direction “Hirzenbach”) or Tram 10 (direction “Zürich Flughafen”) to “Milchbuck”, from

there by Bus 69 to the terminal stop. Journey time: about 25 minutes.

You need a valid ticket for zone 10 (“Stadt Zürich”). Depending on your needs, you can buy a day ticket (“Tageskarte”) valid for 24 hours for all trams and buses.

From Zurich airport to the congress venue• S-Bahn S2 (direction “Ziegelbrücke”) or S16 (direction “Meilen”) to “Bahnhof Oerlikon”, from

“Bahnhof Oerlikon Nord” by bus 80 (direction “Triemlispital”) to the bus stop “ETH Hönggerberg”. Journey time: about 20 minutes.

You need a valid ticket for 3 zones. If you need to return to the airport the same day we recommend buying a day ticket (“Tageskarte”) valid for 24 hours for all trams and buses.

Selection of Zurich taxisZüritaxi: +41 44 222 22 22Taxi 444: +41 44 444 44 44Alpha Taxi: +41 44 777 77 77

Please note that travelling by taxi is very expensive in Zurich. A taxi from the congress venue to the main station costs between CHF 40-50 depending on the traffic situation.

zebris Medical GmbH · Max-Eyth-Weg 43 · 88316 · Isny im Allgäu · Germany Phone +49 7562 97260 · Fax +49 7562 972650 · [email protected] · www.zebris.de

• learning to walk again through dynamic visual stimulation• fun & motivation in rehabilitation• optimal integration in existing therapy surroundings• targeted training control & monitoring• use of Rehawalk® documented in scientific studies• high-quality technology “Made in Germany”

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Rehawalk® – learning to walk again!

Supporting your clinical routine!The innovative gait training concept Rehawalk® opens up completely new possibilities in neuro-rehabilitation for both patient and therapist:

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Congress Information

Exhibitor listmotek medical Floor E Booth E.B1 www.motekmedical.comNeuroelectrics Floor E Booth E.B2 www.neuroelectrics.comIdrogenet Floor F Booth F.B1 www.gloreha.itTyromotion Floor F Booth F.B2 www.tyromotion.comh/p/cosmos Floor F Booth F.B3 www.h-p-cosmos.comZebris Medical Floor F Booth F.B4 www.zebris.deDePuy Synthes Floor F Booth F.B5 www.depuysynthes.comEkso Bionics Floor F Booth F.B6 www.eksobionics.comMindMaze Floor F Booth F.B7 www.mindmaze.chYouRehab Floor F Booth F.B8 www.yourehab.comHocoma Floor G Booth G.B1 www.hocoma.comBioness Floor G Booth G.B2 www.bioness.comMoog Floor G Booth G.B3 www.moog.comStiftung Cerebral Floor G Booth G.B4 www.cerebral.chReha Technology Floor G Booth G.B5 www.rehatechnology.com

Important to know• Presentations: All speakers are kindly requested to upload and check their presentations in the

Speaker Room, which is in room E2. Please do so one day before your talk or, at the latest, two breaks before the session of your talk. All talks have to be uploaded - presentations on own laptop will not be supported.

• Refreshments: Lunch and break refreshments are included with the registration. They will be provided in the breaks at the exhibition halls. Water is available all day.

• Room entrance: Please keep your badge visible while entering the room of the session. Eating in the rooms is not allowed.

• Toilets: There are toilets on every floor.

• Wardrobe: A guarded wardrobe is available in room E8.

• WLAN: Wireless internet access is provided for free within the building. The access details are available at the registration desk.

• Assistance for people with disabilities: Handicapped persons should not hesitate to contact the registration desk if they need any assistance.

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E2SpeakerRoom

E8WardrobeINRS O�ceRe

gist

ratio

nCatering

E.B1

E

E.B2

E.B1 motek medicalE.B2 Neuroelectrics

Catering CateringPoster Session F.P21 - F.P32 Poster Session F.P33 - F.P54

F F.B2 TyromotionF.B3 h/p/cosmos

F.B1 Idrogenet Srl.

F.B1

F.B2

F.B3

F.B5 DePuy SynthesF.B6 Ekso Bionics

F.B4 Zebris MedicalF.B8 YouRehabF.B7 MindMaze

F.B4

F.B5 F.B6 F.B8 F.B7

Exhibition area and posters plan

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Poster Session G.P01 - G.P10 Poster Session G.P11 - G.P20

CateringG3LectureHall

G7LectureHall

G G.B2 BionessG.B3 Moog

G.B1 HocomaG.B5 Reha TechnologyG.B4 Stiftung Cerebral

G.B1 G.B2

G.B3 G.B4 G.B5

H8.1Workshops

H2.1Workshops

H

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Catering

J7Workshops

J3Workshops

J

Swiss Made. Since 1908.

www.SIGG.com

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Social EventHosted by HocomaMove from neural networks to your social network of friends and colleagues at the INRS social event! The INRS 2013 social event will take place at the cozy restaurant “Waldhaus-Katzensee” on Thurs-day, September 12, 2013 directly after the INRS conference. Following a creative and exciting 90 min walk to Zurich’s lovely Katzensee, we will have a BBQ with beverages, surprises and enter-tainment. Similar to the last INRS social event, there will be the possibility for a nice swim in the lake for everyone who feels like it.

Date and time Thursday, September 12, 2013, 17.45 h

Meeting point In front of the main entrance of the INRS conference venue (HCI building).

Walking program On the way to the final destination, the group is split into teams which have to do a little scavenger hunt through the forest. Please wear comfortable and solid shoes as well as casual clothes according to the weather condition.

Alternative program For those not being keen on walking, we offer the possibility to travel by public transportation. There is a public bathing area within five minutes walking distance from the restaurant where you can spend some time until dinner at the restaurant at 19.30 h.

Public transport From the INRS venue (ETH Hönggerberg): - Bus 80 to “Glaubtenstrasse” - Bus 61 to “Mühlacker” - 11 min walk to Waldhaus Katzensee.

- Bus 80 to “Glaubtenstrasse” - Bus 32 to “Hungerbergstrasse” - 16 min walk to Waldhaus Katzensee.

From Zurich mainstation (Zürich HB): - Tram (13, 17, 4) to “Limmatplatz” - Bus 32 to “Hungerbergstrasse” - 16 min walk to Waldhaus Katzensee.

- Train (S2, S5, S6, S7, S8, S14, S16) to “Bahnhof Oerlikon” - Bus 61 to “Mühlacker” - 11 min walk to Waldhaus Katzensee.

Dinner and enjoyment 19.30 h at Waldhaus Katzensee (the evening will be spent outdoors, please wear adequate clothing).

Address Restaurant Waldhaus Katzensee, Wehntalerstrasse 790, 8046 Zurich

Swimming There will be the possibility for a nice swim in the lake. Please bring your swim suit and towels.

Way back In order to allow a flexible transfer back to the hotel please use public transportation or taxi. The way to the bus stops will be marked.

Public transport - 10 minute walk to the bus stop “Hungerbergstrasse” - Bus 32 to “Limmatplatz” (bus every 10 minutes until 0.33 h) - connection to tram line (13, 17, 4) to “Zürich HB”.

- 8 minute walk to the bus stop “Mühlacker” - Bus 61 to “Bahnhof Oer-likon” (bus every 30 minutes until 0.04 h) - connection to trains (S2, S5, S6, S7, S8, S14, S16) to “Zürich HB”.

Taxis (selection of Zurich taxis) - Züritaxi +41 44 222 22 22 - Taxi 444: +41 44 444 44 44 - Taxi 7x7: +41 44 777 77 77

Emergency contact Day: Please contact our staff at the registration desk (INRS entrance hall HCI) Evening: Jennifer Liniger +41 79 963 21 30 Julia Bühlmeier +41 79 441 58 44

FOR A BETTER LIFE

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Keynote SpeakersJörn DiedrichsenUniversity College London, UK

Dr. Jörn Diedrichsen received a PhD in cognitive neuroscience from the University of California, Berkeley. He then worked as a postdoctoral fellow together with Prof. Reza Shadmehr at the Depart-ment for Biomedical Engineering of the Johns Hopkins University, Baltimore. In 2009, he started as group leader at the Institute of Cognitive Neuroscience of the University College London, UK. His main research interest concerns the neural underpinnings of motor skill learning in the human brain. His research group uses a combination of techniques to approach this topic, in particular robotic devices are used to change arm dynamics in order to study learning and feedback control. Dr. Diedrichsen also developed new multivariate analysis techniques for functional imaging data to uncover the representation of motor skills in the human brain. Furthermore, his group employs transcranial direct current stimulation to facilitate and change the course of learning. Through collaborations, his group is active in translating these techniques into the clinical domain for diagnosis and treatment of move-ment disorders.

Volker Dietz (Honorary Lecture)University Clinic Balgrist, Switzerland

Volker Dietz, MD, is the former Head of the Spinal Cord Injury Centre and of the Chair for Paraplegiol-ogy at the University of Zürich. Dr. Dietz received his medical degree from the University of Tübingen (D). He served his residency in neurology with clinical specialization in electrophysiology and research in movement disorders in the Department of Neurology and Neurophysiology of the University of Freiburg. After his fellowships in the National Institute for Neurology, Queen Square, London and in the Institute of the Problems of Information Transmission of the Academy of Sciences of the USSR, Moscow, Dr. Dietz was appointed as Professor for Neurology at the University of Zurich. His research focused on neurophysiological basis of human motor control and of movement disorders in stroke and spinal cord injury. His main achievements were: 1. to create the European network of paraplegic centers (EMSCI; together with Armin Curt and Martin Schwab); 2. the translation of Nogo-antibodies in the clinical application (phase I, together with Martin Schwab and the Novartis company); and, 3. the establishment of neurorehabilitation technology (development of the assistive device ‘Lokomat’ together with Gery Colombo; spin-off company ‘Hocoma’). Dr. Dietz published more than three hundred original papers, edited 4 Handbooks, received highly recognized honors and awards, and is an active member of many renowned international scientific and medical societies and foundations. As emeritus Professor he continues his research at the Spinal Cord Injury Center of the University Hospital Balgrist in Zürich. His studies have led towards the neural basis of functional movements with the aim to develop new training approaches, such as locomotor and functional hand training training, for patients with stroke.

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Alberto EsquenaziMoss Rehab, USA

Alberto Esquenazi, MD, is professor of rehabilitation medicine at Temple University School of Medicine, and Drexel University school of engineering. He is the John Otto Haas Chairman of the Department of Physical Medicine and Rehabilitation, director of the Gait and Motion Analysis Labo-ratory, clinical director of the Regional Amputee Center, at MossRehab in Philadelphia. Dr. Esquenazi received his medical degree from the National Autonomous University of Mexico School of Medicine in Mexico City. He served his residency in physical medicine and rehabilitation at the Temple/Moss-Rehab residency training program and is a fellow of the American Academy of Cerebral Palsy and Developmental Medicine and American Academy of Physical Medicine & Rehabilitation Dr. Esquenazi is a member of the American Society of Biomechanics, Gait and Clinical Movement Analysis Society and International Society for Prosthetics and Orthotics. He serves as director of the Annual Inter-City Gait and Orthotics course sponsored by the Temple/MossRehab physical medicine and rehabilitation residency training program. He served as a member of the Task Force on Medical Rehabilitation Research for the U.S. Department of Health and Human Services. His main interests include research and medical services in the fields of amputation, gait, orthotics and robotics in rehabilitation. Dr. Esquenazi has been recognized several times by Philadelphia magazine as one of the region’s “Top Docs” and received the Distinguished clinician award from AAM&R and Pennsylvania Association of Rehabilitation Facilities. He has published many original papers, book chapters and has presented nationally and internationally on amputation, rehabilitation, orthosis, gait analysis and spasticity man-agement and was awarded the excellence in research writing by the AAP. He’s an active researcher in technology and rehabilitation.

Florian HeinenDr. von Haunersches Kinderspital, Germany

Prof. Florian Heinen is Head of the Department of Pediatric Neurology, Developmental Neurology and Social Pediatrics at the Pediatric Clinic and Polyclinic in the Dr. von Hauner’schen Children’s Hospital of the Ludwig-Maximilians-University, Munich. He is also the Medical Director of the Integrated Social Pediatrics Center, Munich. After his residency in Pediatrics and Adolescent Medicine and in Neurology at the Albert-Ludwigs-University, Freiburg, he became Head of the Department of Pediatrics and Adolescent Medicine at Duisburg. Prof. Heinen’s research interests include the neurodevelopmental research of motor dysfunction by means of Transcranial Magnetic Stimulation (TMS) and Magnetic Resonance Imaging (MRI). He pioneered Botulinumtoxin therapy in children, sonography-guided Botulinumtoxin injection therapy and robotic neurorehabilitation therapy in Germany, and is author of numerous scientific publications, book chapters and textbooks as well as member of several renown scientific societies.

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Derek KamperRehabilitation Institute of Chicago, USA

Derek G. Kamper received an A.B. degree and a B.E. degree in electrical engineering from Dart-mouth College, Hanover, NH, in 1989, and the M.S. and Ph.D. degrees in biomedical engineering from Ohio State University, Columbus, OH, in 1992 and 1997, respectively. He is currently an Associate Professor in the Department of Biomedical Engineering at the Illinois Institute of Technology, where he directs the Hand Neuromechanics Laboratory, and a Research Scientist at the Rehabilita-tion Institute of Chicago, where he directs the Coleman Hand Rehabilitation Laboratory. His research interests include neurorehabilitation, mechatronics, and upper extremity neuromechanics. For the past 15 years, Dr. Kamper has focused in particular on the motor control of the hand and its rehabilitation following stroke. This research has encompassed biomechanical studies examining force transmission from musculotendon units to the fingertips, kinematic, kinetic, and electrophysiological assessment of the stroke hand, and the development and testing of devices to facilitate hand rehabilitation.

Emily KeshnerTemple University, USA

Emily A. Keshner, PT, EdD is Professor and Chair of the Department of Physical Therapy and Director of Research Strategy in the College of Health Professions and Social Work and Professor of Electrical Engineering and Computer Science, at Temple University. She is Director of the Virtual Environment and Postural Orientation (VEPO) Laboratory at Temple University, which was developed for both experimental and clinical testing of postural reactions within a simulated dynamic visual environment. She received her doctorate in Movement Science at Columbia University followed by post-doctoral fellowships with Dr. Marjorie Woollacott at the University of Oregon, Dr. John Allum at Kantonsspital Basel, Switzerland, and Dr. Barry Peterson at Northwestern University. Her research focuses on iden-tifying and facilitating sensory selection during multimodal disturbances of posture in older individuals and in patients with neurologic disorders. Dr. Keshner has been the recipient of numerous awards from the National Institutes of Health and is an Associate Editor of the Journal of NeuroEngineering and Rehabilitation. She is former President of the International Society for Virtual Rehabilitation and current President of the International Society for Posture and Gait Research.

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Martin StaudtSchön Klinik Vogtareuth, Germany

Prof. Dr. med. Martin Staudt is Head of the Clinic for Neuropediatrics and Neurorehabilitation, Epilepsy Center for Children and Adolescents at the Schön Klinik Vogtareuth, Germany. He also holds a position as a professor at the Eberhard Karls University, Tübingen, Germany, dedicated to research on “Developmental Neuroplasticity”. He received his medical degree at the Technical University Munich and was researcher, assistant doctor and senior physician at the Department of Pediatric Neurolo-gy and Developmental Neurology of the University Children’s Hospital in Tübingen, where he also received his Ph.D degree. His research interests include neuroimaging and neuroplasticity research in particular in the fields of early brain lesions and epilepsy. Prof. Staudt is author of numerous original papers and book chapters, was awarded for his research by German and international societies, and is an active member of renown scientific and medical societies.

John SteevesICORD (International Collaboration On Repair Discoveries), University of British Columbia (UBC) and Vancouver Coastal Health (VCH), Canada

Dr. John Steeves is the founder of ICORD (International Collaboration On Repair Discoveries) and was Director for the first fifteen years. ICORD currently has over 200 researchers led by over 30 faculty members investigating various aspects of spinal cord injury (SCI) from preclinical discovery, through acute clinical trials and best rehabilitation practices, to community integration and ongoing care of medical and social challenges. Dr. Steeves brings over 35 years experience in SCI and neuroscience. He currently chairs SCOPE (Spinal Cord Outcomes Partnership Endeavor), which is the industry-aca-demic-community roundtable for improving SCI clinical trial protocols. Over the years, his basic sci-ence research characterized the neural pathways from the brainstem to the spinal cord and their roles in the initiation and modulation of locomotion in all vertebrates, including humans. More recently, he has focused his activities on translational research and human studies, including the development of: valid clinical trial protocols, neurological and electrophysiological outcome measures after human SCI, and activity-dependent rehabilitation of arm and hand function.

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Visit us today: INRS 2013, Floor G, Booth G.B1

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08.00 - 09.00

Welcome and registration

09.00 - 10.30

Workshop 1 Room G3

Robotic assess-ments: beyond the obvious

Hosted by KFSP Neuro-Rehab der Universtität Zürich

Workshop 2 Room J7

Robot-supported locomotor training in daily clinical practice

Hosted by Rehaklinik Zihlschlacht

Workshop 3 Room J3

Clinical application of the Erigo in early neurological rehabili-tation

Hosted by Zürcher Höhenk-linik Wald

Workshop 4 Room H8.1

Enhancing active arm and hand therapy with the Manovo-Spring

Hosted by Hocoma

10.30 - 11.00

Coffe break/poster session

11.00 - 12.30

Workshop 5 Room J7

Lokomat – only a gait-robot?


Workshop 6 Room J3

Clinical application of the Erigo in early neurological rehabili-tation

Hosted by Zürcher Höhenk-linik Wald


Enhancing active arm and hand therapy with the Manovo-Spring

Hosted by Hocoma

Workshop 17 Room G7

The Tyrosolution

Hosted by Tyromotion

12.30 - 13.30

Lunch

13.30 - 15.00

Workshop 8 Room G3

Improving upper extremity function in pediatric neuro-reha-bilitation computer- and robot-supported training systems

Hosted by Kinderspital Zürich, Affoltern

Workshop 9 Room J7




Clinical application of ValedoMotion

Hosted by Hocoma

Workshop 11 Room G7

GLOREHA: Advanced technology for hand function rehabilita-tion

Hosted by Idrogenet

Workshop 16 Room J3

Effect of robot-as-sisted therapy in gait recovery in patients with Parkinson’s Disease & Parkinson-ism

Hosted by Reha Technology

15.00 - 15.30

Coffee break

15.30 - 17.00

Workshop 12 Room G3

Improving upper extremity function in pediatric neuro-reha-bilitation computer- and robot-supported training systems

Hosted by Kinderspital Zürich, Affoltern

Workshop 13 Room J7




Motor learning for the trunk

Hosted by Hocoma

Workshop 15 Room G7

SCRIPT: Design and application of a personalized arm/hand training system for use at home after stroke

Hosted by the SCRIPT project

Workshop 18 Room J3

Codman Neuro – Medstream Pro-grammable Infusion System

Hosted by DePuy Synthes

Event ProgramWednesday, September 11, 2013

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Thursday, September 12, 2013

08.00 - 09.00

Welcome and registration: HCI Foyer E,F,G

09.00 - 09.10

Welcome address (Room G3)

Gery Colombo, Andreas Luft

09.10 - 09.50

Kinematics of robotic gait training, is there a difference? (Chair Andreas Meyer-Heim) (Room G3)

Alberto Esquenazi

09.50 - 10.30

Sensorimotor reorganization after early brain lesions (Chair Andreas Meyer-Heim) (Room G3)

Martin Staudt

10.30 - 10.50

Coffee break: HCI Foyer E,F,G / poster session

Home based rehabilitation (Room G3)

Alberto Borghese and Andreas Luft

Pediatric neurorehabilitation: raising the limits (Room G7)

Andreas Meyer-Heim

10.50 - 11.15

Design considerations for an Exergame-based Walking Rehabilitation ProgramEling De Bruin

Instrumented gait analysis: science or clinical tool Reinald Brunner

11.15 - 11.40

Technical foundations of RewireAlberto Borghese

Robots and co in pediatric neurorehabilitation: towards clinical guidelinesHuub van Hedel

11.40 - 12.05

Home-based SCRIPT robot-mediated therapy with games and remote management for strokeFarshid Amirabdollahian

Augmented Video: applications in pediatric rehabilitationChristopher Newman

12.05 - 12.30

Home exercise delivery in Parkinson’s disease: how can technology helpAlice Nieuwboer

Targeting developmental motor plasticity after perinatal stroke with non-invasive brain stimulationAdam Kirton

12.30 - 14.00

Lunch: HCI Foyer E,F,G / poster session

14.00 - 14.40

Neural representation of motor skill (Chair Andreas Luft) (Room G3)

Joern Diedrichsen

14.40 - 15.20

Robotics for children spectacular or only spectacular expensive? (Room G3)

Florian Heinen

15.20 - 15.40


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Monitoring function and participation in daily life (Room G3)

Andreas Luft

Clinical integration of new technologies for upper limb rehabilitation (Room G7)

Thierry Keller

15.40 - 16.05

Activity monitoring for stroke patient: a step beyond conventional therapy assessment toolsKamiar Aminian

I-TRAVLE: Individualised Technology-supported and Robot-Assisted Virtual Learning Environments for upper limb rehabilitationPeter Feys

16.05 - 16.30

Daily-life assessment of balance and arm function per-formance during in stroke – Interaction conceptsPeter Veltink

Neuroimaging and robot-guided hand rehabilitationRoger Gassert

16.30 - 16.55

Wearable strain sensors and goniometers and their sen-sor fusion with IMU systems in neurological rehabilitationFederico Lorussi

Appearing modalities in upper extremity rehabilitationMarko Munih

16.55 - 17.20

Telesupervision of persons affected by stroke and associ-ated decision support for medical professionalsBert-Jan van Beijnum

Wiki-therapists: empowering therapists to create therapy content for rehabilitation technologyAnnick Timmermans

17.20 - open

Transfer to Social Event

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08.00 - 09.00

Welcome and registration: HCI Foyer E,F,G

09.00 - 09.50

What makes neurorehabilitation successful (Honorary lecture, Chair Armin Curt) (Room G3)

Volker Dietz

09.50 - 10.20

Challenges for the translation of treatments for neurological disorders (Chair Armin Curt) (Room G3)

John Steeves

10.20 - 10.50


Translational research in neurorehabilitation (Room G3)

Armin Curt

Clinical relevance of lower limb rehabilitation (Room G7)

Gery Colombo

10.50 - 11.15

Safety of pharmacological enhancement in stroke rehabStefan Engelter

Alternating arm movements can facilitate rhythmic alter-nating leg movementsJaques Duysens

11.15 - 11.40

Effects of transcranial magnetic stimulation on visual attentionThomas Nyffeler

Targeting Successful Integration of Technology in Neu-rorehabilitation Candy Teffertiller

11.40 - 12.05

„ARMin: From Lab to Life“Robert Riener

What future research do we need?Volker Hömberg

12.05 - 12.30

Impact of 4-aminopyridine on walking function in MSBjörn Zörner

Reanimating the Limbs: Rehabilitation Robotics and Novel Assessment MethodsHerman Van der Koij

12.30 - 14.00

Lunch: HCI Foyer E,F,G / poster session

14.00 - 14.40

Virtual reality’s impact on rehabilitation is more than a game (Chair: Daniel Zutter and René Müri) (Room G3)

Emily Keshner

14.40 - 15.20

Mechanisms impairing hand motor control after stroke (Chair: Daniel Zutter and René Müri) (Room G3)

Derek G. Kamper

15.20 - 15.25

Poster Award (Daniel Zutter & Andreas Meyer–Heim on behalf of the SGNR)

15.25 - 15.40


Friday, September 13, 2013

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Which reality do we need in neurorehabilitation? (Room G3)

Daniel Zutter and René Müri

Integration of new technologies in the clinical path (Room G7)

Irin Maier

15.40 - 16.05

What is real in virtual reality?Armin Schnider

Acute neurorehabilitation in intermediate and intensive care: A Swiss Pilot ProjectKarin Diserens

16.05 - 16.30

Assistive technology to measure traffic-relevant cognitive performanceTobias Nef

Effective rehabilitation programmes for strokeDuncan Turner

16.30 - 16.55

Mechanisms of cerebral guidance of hand functionChristian Hess

Global Perspectives of New Technologies in RehabilitationMartha Imamura

16.55 - 17.20

The „reality“ of neuroimagingRoland Wiest

Financial and Practical considerations for Integration of New Technologies into a Clinical ProgramSarah Morrison

17.20 - 17.30

Closing Remarks and SGNR Poster Award (Room G3)

Thierry Keller, Daniel Zutter

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Workshop 1 09.00 - 12.30, Floor G, Room G3

Robotic assessments: beyond the obvious

Michelle Starkey und Armin Curt

Hosted by KFSP Neuro-Rehab der Universität Zürich

Time Name Topic

09.00 - 09.30 Michelle Starkey Welcome and Introduction:From assessments to outcomes

Chair: Michelle Starkey SCI session

09.30 - 09.50 Patrick Freund Tracking structural changes of the spinal cord and brain as a surrogate marker of interventions in spinal cord injury rehabilitation

09.50 - 10.10 Keith Tansey Exploring Upper Extremity Motor Control in Tetraplegia (SCI)

10.10 - 10.30 Ute Eck Towards testing and modeling of neuromuscular abilities of spinal cord injured subjects

10.30 - 11.00 Coffee break

Chair: Roman Gonzenbach Stroke session

11.00 - 11.20 Verena Klamroth Robotic assessments of the arm with ARMin (Stroke)

11.20 - 11.40 Jane Burridge European consensus on outcome measures for technology-based upper limb neu-rorehabilitation (Stroke)

11.40 - 12.00 Derek Kamper Assessment of finger individuation in the stroke hand following training with a virtual keyboard (Stroke)

12.00 - 12.30 General discussion Chair: John Steeves

Workshop 2 09.00 - 10.30, Floor J, Room J7


Simone Eicher, Alexander Dewor, Tommy Huster, Michael Urban

Hosted by Robot-assisted Movement Center of Rehaklinik Zihlschlacht AG

Over the last six years the therapists of the Robot-assisted Movement Center at the Rehaklinik Zihlschlacht have trained more than 700 patients with the Lokomat system. Focused on neurorehabilitation of adults the use of robot-assisted devices as part of a comprehensive rehabilitation concept is daily clinical practice.

With this workshop, we want to present our work and share our experience. We will talk about:• clinical application in our center• the advantages of robot-supported locomotor training• inclusion and exclusion criteria• target group for Lokomat training• robot-assisted gait training in the context of gait-rehabilitation

We want to encourage exchange and discussions among users of robot devices. First experiences with the Lokomat or other devices will be helpful to benefit from the workshop.

Workshops

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Clinical application of the Erigo in early neurological rehabilitation

Christian Sturzenegger, Ingmar Anner, Franziska Reiss, Irene Sokoll

Hosted by Zürcher Höhenklinik Wald

The importance of early rehabilitation, particularly in neurology, nowadays is an established therapy standard. However in certain groups of patients orthostatic dysregulation, general condition or vigilance state usually prevent early mobilization. Compared to a verticalization using a standard tilt table, the verticalization on the Erigo combines verticalization, joint mobilization of the lower extremities (hip, knee, ankle), cyclic loading and unload-ing of the legs and possible dynamic functional electrical stimulation, thereby supporting a stable cardiovascular function. This combined approach allows an early mobilization of patients otherwise difficult to handle. In this workshop we will give you an introduction to the concept of verticalization and in particular the Erigo in the setting of early rehabilitation and will give you the opportunity to experience it first-hand.

The introduction will cover the following topics:• the theory behind• the Erigo – elements (tilt/verticalization, joint-mobilization, electrical stimulation)• indications & criteria• the goal• an overview of the literature

This will be followed by:• clinical cases• Erigo hands-on (with practical demonstrations & discussion)

No previous experience with Erigo is necessary for this workshop.

Workshop 4 09.00 - 10.30, Floor H, Room H8.1

Enhancing active arm and hand therapy with the ManovoSpring

Silvia Rohner, Alexander Duschau-Wicke, Clemens Müller

Hosted by Hocoma

Repetitive training of functional movements is known to be efficient in restoring motor function. With the help of Arm Weight Support and Aug-mented Performance Feedback, patients can be enabled and motivated to actively perform highly repetitive training specifically designed to improve their upper extremity function. This principle has proven successful in the application of more than 350 ArmeoSpring systems worldwide.

To further improve therapeutic impact, the ManovoSpring was specifically designed for the training of grasping and releasing movements in pa-tients with impaired hand functions. In combination with the ArmeoSpring, the ManovoSpring allows even severely impaired patients to practice reach and retrieval movements in a large 3D workspace.

With this workshop, we want to share the experience of first centers which have started to enhance their therapy program by integrating the ManovoSpring into their ArmeoSpring trainings. We will talk about:• experience in different patient groups• which patients benefit most from the additional therapy options• how to use ManovoSpring to enable and/or challenge patients • how to use ManovoSpring to focus on patient-specific therapy goals

The “how to” topics will be illustrated by practical demonstrations. First experiences with the ArmeoSpring or other devices will be helpful to benefit optimally from the workshop.

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This workshop addresses to experienced users of robot-assisted gait devices. We want to give input from our experiences with robot-assisted gait training for a discussion among experts - with topics such as:• results from our clinical work with adult neurological patients• a critical view on existing studies• possibilities and limitations• integration of robotics in gait rehabilitation

For this workshop profound experience in the use of robotic devices and gait rehabilitation are essential.


Clinical application of the Erigo in early neurological rehabilitation

Christian Sturzenegger, Ingmar Anner, Franziska Reiss, Irene Sokoll

Hosted by Zürcher Höhenklinik Wald

The importance of early rehabilitation, particularly in neurology, nowadays is an established therapy standard. However in certain groups of patients orthostatic dysregulation, general condition or vigilance state usually prevent early mobilization.

Compared to a verticalization using a standard tilt table, the verticalization on the Erigo combines verticalization, joint mobilization of the lower extremities (hip, knee, ankle), cyclic loading and unloading of the legs and possible dynamic functional electrical stimulation, thereby supporting a stable cardiovascular function. This combined approach allows an early mobilization of patients otherwise difficult to handle.

In this workshop we will give you an introduction to the concept of verticalization and in particular the Erigo in the setting of early rehabilitation and will give you the opportunity to experience it first-hand.

The introduction will cover the following topics:• the theory behind• the Erigo – elements (tilt/verticalization, joint-mobilization, electrical stimulation)• indications & criteria• the goal• an overview of the literature

This will be followed by :• clinical cases• Erigo hands-on (with practical demonstrations & discussion)

No previous experience with Erigo is necessary for this workshop.

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Enhancing active arm and hand therapy with the ManovoSpring

Silvia Rohner, Vaclav Potesil, Clemens Müller

Hosted by Hocoma

Repetitive training of functional movements is known to be efficient in restoring motor function. With the help of Arm Weight Support and Augmented Performance Feedback, patients can be enabled and motivated to actively perform highly repetitive training specifically designed to improve their upper extremity function. This principle has proven successful in the application of more than 350 ArmeoSpring systems worldwide.

To further improve therapeutic impact, the ManovoSpring was specifically designed for the training of grasping and releasing movements in pa-tients with impaired hand functions. In combination with the ArmeoSpring, the ManovoSpring allows even severely impaired patients to practice reach and retrieval movements in a large 3D workspace.

With this workshop, we want to share the experience of first centers which have started to enhance their therapy program by integrating the ManovoSpring into their ArmeoSpring trainings. We will talk about:• experience in different patient groups• which patients benefit most from the additional therapy options• how to use ManovoSpring to enable and/or challenge patients • how to use ManovoSpring to focus on patient-specific therapy goals

The “how to” topics will be illustrated by practical demonstrations.First experiences with the ArmeoSpring or other devices will be helpful to benefit optimally from the workshop.


Improving upper extremity function in pediatric neuro-rehabilitation with computer- and robot-supported training systems

Karin Gygax, Seraina Kühne, Corinna Gerber, Bärbel Rückriem, Jan Lieber, Huub van Hedel

Hosted by Rehabilitation Center for Children and Adolescents, University Children’s Hospital Zurich, Affoltern am Albis, Switzerland

The use of computer- and robot supported technologies to improve upper extremity function is a part of the neurorehabilitation concept in pediatric patients. With this workshop we want to present our experiences with systems like the ArmeoSpring, AMADEO, YouGrabber and with a new robotic device that was developed in collaboration with the ETH Zurich, ChARMin. The target audience we aim for are therapists who are working in a pediatric setting. The workshop program lasts 60 minutes and will cover topics such as:• the implementation of the above mentioned systems in our center • current level of scientific evidence• practical hands-on experience with the different systems (limited to 12 persons)

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Over the last six years the therapists of the Robot-assisted Movement Center at the Rehaklinik Zihlschlacht have trained more than 700 patients with the Lokomat system. Focused on neurorehabilitation of adults the use of robot-assisted devices as part of a comprehensive rehabilitation concept is daily clinical practice.

With this workshop, we want to present our work and share our experience. We will talk about:• clinical application in our center• the advantages of robot-supported locomotor training• inclusion and exclusion criteria• target group for Lokomat training• robot-assisted gait training in the context of gait-rehabilitation

We want to encourage exchange and discussions among users of robot devices. First experiences with the Lokomat or other devices will be helpful to benefit from the workshop.


Clinical application of the ValedoMotion

Jan Kool

Hosted by Hocoma

In 2011 Hocoma launched the ValedoMotion; an innovative device for rehabilitation therapy for low back pain. The product uses small wireless inertial sensors to accurately record lumbar movements from the patient’s spine, and provide real-time augmented performance feedback to patients and their therapists. The therapist can choose from over 13 therapeutic exercises which motivates the patient to improve their movement awareness.

In this workshop we would like to share the experiences of therapists who have been using ValedoMotion for clinical training in both orthopedic and neurological context.


GLOREHA: Advanced technology for hand function rehabilitation

Dr. Franco Molteni

Hosted by Idrogenet

Advanced technology for hand function rehabilitation aimed at prolonging neuro-rehabilitation in and out of the clinics (e.g. at patients’ homes) is a way to improve recovery of function, to ensure continuum of care, and to reduce the cost of the treatment.Gloreha is a robotic device, a passive‐actuated device for hand rehabilitation particularly after stroke or TBI, to perform motivating and chal-lenging therapeutic activities using a robotic glove. By this way Gloreha provides a chance for more frequent therapies, using a set of exercises of motivational and engaging interaction, therefore making a therapy session more enjoyable for patients.

It is thought that such frequent interaction will further influence recovery at early and chronic phases of rehabilitation.Using telemedicine it is possible to have a remote management and support of the patient.

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Improving upper extremity function in pediatric neuro-rehabilitation with computer- and robot-supported training systems

Karin Gygax, Seraina Kühne, Corinna Gerber, Bärbel Rückriem, Jan Lieber, Huub van Hedel

Hosted by Rehabilitation Center for Children and Adolescents, University Children’s Hospital Zurich, Affoltern am Albis, Switzerland

The use of computer- and robot supported technologies to improve upper extremity function is a part of the neurorehabilitation concept in pediatric patients. With this workshop we want to present our experiences with systems like the ArmeoSpring, AMADEO, YouGrabber and with a new robotic device that was developed in collaboration with the ETH Zurich, ChARMin. The target audience we aim for are therapists who are working in a pediatric setting. The workshop program lasts 60 minutes and will cover topics such as:• the implementation of the above mentioned systems in our center • current level of scientific evidence• practical hands-on experience with the different systems (limited to 12 persons)





This workshop addresses to experienced users of robot-assisted gait devices. We want to give input from our experiences with robot-assisted gait training for a discussion among experts - with topics such as:• results from our clinical work with adult neurological patients• a critical view on existing studies• possibilities and limitations• integration of robotics in gait rehabilitation

For this workshop profound experience in the use of robotic devices and gait rehabilitation are essential.


Motor learning for the trunk

Christine Hamilton, Annick Timmermans, Paul Hodges

Hosted by Hocoma

During this workshop we invite attendees to explore the different motor learning techniques which can be applied to patients with movement dysfunctions of the trunk. Different exercise techniques have been developed, and our guest speakers will present the latest research findings from clinical therapy through to neurological research of the spinal muscles.

• Latest neurological research into movement dysfunctions of the spine• Common exercises for segmental stabilization• Improving movement awareness of the spine

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SCRIPT: Design and application of a personalized arm/hand training system for use at home after stroke

Farshid Amirabdollahian, Gerdienke Prange, Sharon Nijenhuis, Jaap Buurke

Hosted by the SCRIPT Project

Due to the high costs of clinical neurorehabilitation, post-stroke treatment is generally limited to only several weeks to a few months after the stroke event, with a restricted amount of training due to therapist availability. Provision of motivating and challenging therapeutic activities using a robotic hand and wrist rehabilitation device at home will provide a chance for more frequent therapies and interactions, which is expected to benefit recovery. The SCRIPT system is developed to provide state-of-the-art, low-cost technologies for training the affected arm at patient’s home. Since the hemiparetic hand and wrist present the least researched area and has the least treatment options, even though they are essential for functional independence, the SCRIPT system is focused specifically on hand and wrist exercise.

In this workshop, practical considerations and lessons learned from designing the SCRIPT system for home training of arm and hand function after stroke in a user-centered approach are highlighted, and illustrated with live demonstrations of the SCRIPT system. The intended audience includes researchers, engineers and clinicians interested in application of rehabilitation technology for therapeutic use at home.

Program outline:Design considerations for the SCRIPT home training system for arm/hand after stroke• Defining the starting point from the state-of-the-art in neurorehabilitation and previous experience

Applying the SCRIPT system for independent use by stroke patients • Lessons learned from user requirements and usability testing• Demonstration of SCRIPT system / design adaptations based on user input

Evaluating the impact of home training using SCRIPT on functional outcome• Preliminary results from (ongoing) clinical evaluation


The G-EO System and the effect of robot-assisted therapy in gait recovery in patients with Parkinson’s Disease & Parkinsonism

Riccardo Aggujaro, Dr. Patrizio Sale, Stefano Mazzoleni

Hosted by the Reha Technology AG

The G-EO System revolutionizes gait rehabilitation and provides the most comprehensive range of options for gait training. It has the ability to adapt to the individual needs of the patient and is the only device in the world that supports and can realistically simulate stairs climbing.

The aims of this workshop are to show the state of the art challenges for improving the quality of life of patients with the use of robot-assisted gait training, focusing on the efficacy of robotic lower limb training in gait recovery in patients with PD and PSP. Parkinsonism is a neurological syndrome characterized by tremor, hyperkinesia, rigidity, and postural instability. The underlying causes of Parkinson-ism are numerous, and diagnosis can be complex. The neurodegenerative condition of Parkinson’s disease (PD) is the most common neurode-generative cause of Parkinsonism. However, a wide range of other etiologies may lead to a similar set of symptoms, including some toxins, a few metabolic diseases, and a handful of non-PD neurological conditions. In particular other causes include Multiple Sclerosis Atrophy, Progressive Supreanuclear Palsy (PSP) and Corticobasal Degeneration.

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The Tyrosolution

Dr. Iris Binder

Hosted by Tyromotion GmbH

This workshop addresses researchers, clinicians, and therapists.

Functional improvement in paretic upper limb after stroke continues to be challenging. Task specific, robot-assisted, and computer-aided therapy has shown to be helpful in relearning physiological motor patterns. In addition, new rehabilitation technologies can offer cost-effective strategies to support the therapy process.After a short state of art overview, the main considerations for our concepts in robot- and computer-aided rehabilitation devices for upper extremities are introduced. In consequence, the tyrosolution is the result of close collaboration of clinicians, therapists, as well as patients and contains four devices to cover the variety of needs in upper extremity rehabilitation. Tyrosolution offers a concept that is adaptable for different levels of residual function (none, beginning, intermediate) and therefore different phases (acute, chronic, and home).

In order to share our experience, we use real patient case based examples and videos to demonstrate custom-made therapies within the tyrosolution.

The tyrosolution• focuses on proximal and distal upper extremities• addresses neurological, orthopedic, pediatric indications• consists of 4 robot- and computer-aided devices:• the robotic devices Amadeo® and Diego® and sensory devices Pablo® and Tymo®• software offers a patient database, various assessment tools, passive, assistive, active and interactive therapy modules, augmented biofeed-

back, and automated documentation

Experience with tyromotion devices is not required but helpful.


Codman Neuro – Medstream Programmable Infusion System

Dr. Michael Schrey

Hosted by Hosted by Johnson & Johnson AG, DePuy Synthes Codman Neuro

MEDSTREAM™ Programmable Infusion System is part of a system for the intrathecal delivery of selected drugs for pain management or relief of spasticity. The product is used by neurosurgeons, pain specialists, spinal injuries and rehabilitation consultants for treating patients who do not respond to oral or intravenous medication. The three indications are severe spasticity, chronic non-malignant pain and malignant pain.

The MEDSTREAM™ Programmable Infusion System is indicated for the intrathecal delivery of Baclofen for the treatment of severe spasticity and preservative free morphine sulfate for chronic pain (benign or malignant).

During the Workshop the clinical applications and experiences with this system will be presented, with a special emphasis on complications avoidance, and a demonstration for the programming of the pump system will be shown.

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AlHefdhi A. Floor G / G.P01

Outcomes of the Use of the Autoambulator- Partial Body Weight Supported Treadmill Training (With Robotics) in Rehabilitation Patients in Riyadh, Saudi Arabia

Allgöwer K., Hermsdörfer J. Floor G / G.P02

Quantifying fine motor skills in patients with Multiple Sclerosis

Ammann-Reiffer C., Bastiaenen C., van Hedel H. J. Floor G / G.P03

Measurement Properties of Gait Tests in Youths with Neuromuscular Diseases: A Systematic Review

Aschmann C. Floor G / G.P04

The Influence of a Therapy Dog Team on Participation and Communication in Occupational Therapy: An Exploratory Study

Aurich (-Schuler) T., Graser J., Schröder S., Ulrich T., Warken B. Floor G / G.P05

Practical recommendations for robotic-assisted gait training with the Lokomat® in children with cerebral palsy

Awai L., Bolliger M., Courtine G., Curt A. Floor G / G.P06

Supraspinal and spinal neural control of walking in human incomplete spinal cord injury

Batysheva T., Bykova O., Gunchenko M., Semenova K., Kozjavkin V. Floor G / G.P07

Looking for the optimal model of comprehensive rehabilitation in children with cerebral palsy

Benito García M., Castilla Gutiérrez A., Lerma Lara S. Floor G / G.P08

Functionality and quality of gait in the implementation of Lokomat training to conventional therapy in stroke.

Bodrova R. Floor G / G.P09

Effective Combined Therapy of Patients with Motor Disorders

Boettger S., van Hedel H. J., Dierauer S., Brunner R., Schuler S., Meyer-Heim A. Floor G / G.P10

Robotic assisted gait training after neuroorthopedic interventions for children with cerebral palsy: Benefits, feasibility and clinical implementation.

Poster Overview

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Brogioli M., Popp W., Bergman D., Albisser U., Leuenberger K., Gassert R., Curt A., Starkey M. L. Floor G / G.P11

Enhancing the Graded Redefined Assessment of Strength, Sensibility and Prehension (GRASSP) with the addition of Inertial Measurement Unit (IMU) data

Bronnikov V., Sklyannaya K. Floor G / G.P12

Possibilities of Medical and Social Rehabilitation After Stroke

Cataldo M., Heim S., Schattka K., Kleiser N. Floor G / G.P13

Development, testing and evaluation of an intensive communicative-pragmatic therapy for people with mild aphasia

Daminov V., Kucherenko S., Uvarova O., Kuznetsov A. Floor G / G.P14

Robotic technology in rehabilitation of patients after surgical revascularization of brain

De Baets L., Jaspers E., Janssens L., van Deun S. Floor G / G.P15

Scapular muscle timing in stroke patients

Eicher S., Dewor A., Urban M., Zutter D. Floor G / G.P16

Data Collection of 1 Year Lokomat Therapy: An Overview

Fang J., Hunt K. Floor G / G.P17

Robotics Design for Early Rehabilitation of Walking Based on Circle Approximation of the Toe Trajectory

Fleerkotte B., Koopman B., van Asseldonk E., Buurke J., van der Kooij H., Rietman J. Floor G / G.P18

The effect of impedance-controlled robotic gait training in chronic motor incomplete SCI individuals

Frosio I., Mainetti R., Massé F., Pirovano M., Aminian K., Borghese N. Floor G / G.P19

Accuracy and validity of balance boards for posture and balance rehabilitation

Grabher P., Callaghan M., Jutzeler C., Wolf K., Thompson A., Curt A., Weiskopf N., Freund P. Floor G / G.P20

Tract-specific changes of the microstructure in the injured human spinal cord revealed by quantitative MRI

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Graser J., Letsch C., van Hedel H. J. Floor F / F.P21

Test-Retest Reliability of Gait Parameters in Children with neurological Gait Disorders

Hamila A., Raabe-Oetker A., Braun T. Floor F / F.P22

The Effectiveness of Dynamic Supported Standing Training on Postural Control in Chronic Stroke Rehabilitation

Helemäe H. Floor F / F.P23

Effects of Long Term Periodic Gait Robot Therapy on Multiple Sclerosis Management: A Case Report

Hunt K., Bichsel L., Laubacher M., Saengsuwan J., Schindelholz M., Stoller O., Schuster C. Floor F / F.P24

Rehabilitation Robotics for Cardiopulmonary Training and Assessment

Jaspers E., Feys H., Monari D., Molenaers G., Desloovere K. Floor F / F.P25

Objective upper limb evaluation in children: from measurement to report

Jung J. H., Cavallaro F., Rodríguez-de-Pablo C., Perry J., Keller T. Floor F / F.P26

Development of the ArmAssist home based telerehabilitation platform and the result of its clinical pilot study

Jurutková Z., Szmekova L., Bastlova P., Kolarova B., Krobot A. Floor F / F.P27

The efficiency of functional gait training by using virtual and augmented reality on symmetrization and speed of walking in postacute stroke patient

Jutzeler C., Curt A., Kramer J. Floor F / F.P28

Distinct supra-spinal and spinal effects of pain relief

Kim E. J., Lee J. A., Hwang P. W. Floor F / F.P29

The kinematics of upper extremity movement of stroke patients in targeting task

Konradi J., Lerch A. K., Cataldo M. Floor F / F.P30

Direct effects of faciooral tract therapy® on swallowing frequency of non tracheotomised patients with neurogenic dysphagia

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Krattinger S., Munier L., Courcelle M., Rapin P.-A. Floor F / F.P31

Impacts of the JACO robotic arm on the ability to perform activities of daily life and on the satisfaction for a person with multiple sclerosis: a case study.

Kravtzov Y. I., Bronnikov V. A., Vildeman A. V., Mavlikaeva Y. A., Sklyannaya K. A. Floor F / F.P32

The effectiveness of complex kinesitherapy of patients with severe motor disorders.

Labruyère R., Strohrmann C., Gerber C. N., van Hedel H. J. Floor F / F.P33

Measuring everyday life motor activity in children with neuro-motor disorders

Lee H. J., Pyun S.-B., Choi H. S. Floor F / F.P34

Community Integration and Quality of Life in Chronic Aphasia after Stroke

Lundie Z., McGillicuddy K., Yeoman R. Floor F / F.P35

Can the Erigo® improve WHIM scores in patients in a low awareness state? A single case study

van Meulen F. B., Reenalda J., Veltink P. H. Floor F / F.P36

Estimating qualitative parameters for assessment of body balance and arm function in a simulated ambulatory setting.

Minarik T., Rumetshofer T., Eibenberger K., Haslwanter T. Floor F / F.P37

Reha@Home – An Interactive Home Therapy System for Upper Limb Rehabilitation after Stroke

Mor Y., Etlin A., Shamir B., Zeilig G., Lev-Tov A. Floor F / F.P38

Multithreading Graphic processing unit (GPU)-based Wavelet analysis of rhythmic s-EMG data in spinal cord injury patients uncovers the dynamic profile of the rhythm.

Nijenhuis S. B., Prange G. B., Schäfer J., Rietman J. S., Buurke J. H. Floor F / F.P39

Feasibility of a personalized arm/hand training system for use at home after stroke: results so far

Novak D., Nagle A., Riener R. Floor F / F.P40

Motivational effects of two-player games for arm rehabilitation robots: Evaluation with healthy subjects

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Obayashi S., Hara Y. Floor F / F.P41

Vulnerable frontal responses in patients with cerebellar lesions during word retrieval: combined f-NIRS and SPECT study

Ööpik M.-L., Englas K., Kabel V., Klement K., Kruus Ü., Mõim R., Oberg J., Pakkanen M., Peedimaa M.-L., Vanem O., Eelmäe P.

Floor F / F.P42

Seven month experience incorporating Locomat into daily clinical practice - Haapsalu Neurological Rehabilitation Centre’s example

Popp W. L., Brogioli M., Leuenberger K., Lambercy O., Curt A., Gassert R., Starkey M. L. Floor F / F.P43

A novel algorithm for estimating mobility parameters and detecting propulsion methods in wheelchair users following spinal cord injury

Prange G. B., Kottink A. I. R., Buurke J. H., Rietman J. S. Floor F / F.P44

Clinical implementation of arm support training in sub-acute stroke across 7 Dutch rehabilitation centers

Ristic-Durrant D. Floor F / F.P45

CORBYS-Cognitive Mobile Robotic Gait Rehabilitation System

Sauvage C., Manto M., Jissendi P., Habas C. Floor F / F.P46

Neural correlates of motor learning through mental practice with motor imagery

Schärer S., Broggi S., Mingorance J., Pyk P., Kiper D., Kobashi N., Bolliger M., Eng K., Villiger M. Floor F / F.P47

Virtual Reality for Mobile Lower Limb Motor Rehabilitation in Patients with Neurological Disorders

Schrafl-Altermatt M., Dietz V. Floor F / F.P48

Neural coupling of cooperative hand movements in stroke patients

Sikorskaia I., Gritsevich N. Floor F / F.P49

Effect of Armeo® Spring and Functional Electrical Stimulation on Upper Extremity Motor Recovery in Stroke Patients with Unilateral Neglect and Shoulder Subluxation

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Stebler N., Aurich-Schuler T., Wirth B., van Hedel H. J. Floor F / F.P50

Changes in leg muscle activity of children with neurological gait impairments when reducing the guidance force while walking in a driven gait orthosis

Lee S.-U., Beom J. W., Han T. R., Oh B.-M., Paik N. J. Floor F / F.P51

Factors correlated with ultrasonographic fatty atrophy of supraspinatus or infraspinatus in brain-injured patients.

Tanadini L., Hothorn T., Steeves J., Curt A. Floor F / F.P52

Stratification and prediction in heterogeneous neurological disorders: can we do better?

Veneman J., Barralon P. Floor F / F.P53

Balance Augmentation in Locomotion, through Anticipative, Natural and Cooperative control of Exoskeletons (BALANCE)

Wang T., Yi Z., Wang S., Zhu X. Floor F / F.P54

Validity of sacrum-marked method on evaluating the balance performance of health people and hemiplegic patients

Poster presentation

LocationThe posters will be presented in the exhibition area of the HCI Building ETH Hönggerberg. Please note the local indicators on site.

Setup timesAll posters should be set up latest by 10.00 am on Thursday, September 12.

Presentation timesThe posters have to be attended during the lunch poster session. We strongly suggest that authors are at their posters during the lunch break on September 12 from 12:30-14:00.

All breaks can be used to visit the posters. Please arrange meetings with the authors individually.September 12, morning 10.30 - 10.50September 12, afternoon 15.20 - 15.40September 13, morning 10.20 - 10.50September 13, afternoon 15.20 - 15.40

Taking downPosters have to be taken down by the authors. Please do not remove your posters before September 13th at 17.00. Leftover posters will be destroyed.

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Notes

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Thank you for joining us at the INRS 2013

Program Booklet 130815

Documents

Transcript of Program Booklet 130815