Know-How Library

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4 Gründe, warum Virtual Reality völlig neue Möglichkeiten für die Gangrehabilitation eröffnet
4 Gründe, warum Virtual Reality völlig neue Möglichkeiten für die Gangrehabilitation eröffnet
4 Reasons Why Virtual Reality is a Game Changer for Gait Rehabilitation
4 Reasons Why Virtual Reality is a Game Changer for Gait Rehabilitation
Agility Drill - Spontaneous Movements with the FLOAT
Agility Drill – Spontaneous Movements with the FLOAT
Balance Training with the FLOAT
Balance Training with the FLOAT
Ball Tossing - Dual Tasks with the FLOAT
Ball Tossing – Dual Tasks with the FLOAT
Bannwart M., Bolliger M., Lutz P., Gantner M., and Rauter G.: Systematic Analysis of Transparency in the Gait Rehabilitation Device the FLOAT (2006)
Bannwart M., Bolliger M., Lutz P., Gantner M., and Rauter G.: Systematic Analysis of Transparency in the Gait Rehabilitation Device the FLOAT (2006)
Bannwart M., Bolliger M., Schmidt Easthope C., Gantner M., Müller R., Lutz P., and Rauter G.: Robot-assisted Gait Rehabilitation: From Guided to Challenging Walking (2016)
Bannwart M., Rauter G., Curt A., and Bolliger M.: The FLOAT: Interactive BWS Training of Everyday Walking Challenges in 4 Dimensions (2015)
Bannwart M., Rauter G., Curt A., and Bolliger M.: The FLOAT: Interactive BWS Training of Everyday Walking Challenges in 4 Dimensions (2015)
Bolliger M., Traini L., Schmidt Easthope C., Awai L., and Curt A.	Responsiveness to Body Weight Support: Insights from a Spinal Cord Injury Cohort (2016)
Bolliger M., Traini L., Schmidt Easthope C., Awai L., and Curt A. Responsiveness to Body Weight Support: Insights from a Spinal Cord Injury Cohort (2016)
Buschfort et al.: Arm Studio to intensify upper limb rehabilitation after stroke: concept, acceptance, utilization and preliminary clinical results (2010)
Buschfort et al.: Arm Studio to intensify upper limb rehabilitation after stroke: concept, acceptance, utilization and preliminary clinical results (2010)
Buschfort et al.: Gruppentherapie im Armlabor für den schwer und mässig betroffenen Arm nach Schlaganfall: Akzeptanz, Auslastung und erste klinische Ergebnisse (2009)
Buschfort et al.: Gruppentherapie im Armlabor für den schwer und mässig betroffenen Arm nach Schlaganfall: Akzeptanz, Auslastung und erste klinische Ergebnisse (2009)
Callis Ortho Datasheet
Callis Ortho Datasheet
Callis Therapie Datasheet
Callis Therapie Datasheet
Callis Trac 60E Datasheet
Callis Trac 60E Datasheet
Callis Treadmills - Robust at 22kmh
Callis Treadmills – Robust at 22kmh
Callis Treadmills - Shock absorbing slat belts
Callis Treadmills – Shock absorbing slat belts
Callis Treadmills - Zero Starting Speed
Callis Treadmills – Zero Starting Speed
Callis Treadmills Flyer
Callis Treadmills Flyer
Corporate Brochure
Corporate Brochure
Dohle et al.: Rehabilitation der Mobilität nach Schlaganfall (ReMoS), S2e Leitlinie (2015)
Dohle et al.: Rehabilitation der Mobilität nach Schlaganfall (ReMoS), S2e Leitlinie (2015)
Early Rehabilitation with the FLOAT for Patients after Extended Bed Rest
Early Rehabilitation with the FLOAT for Patients after Extended Bed Rest
Eich et al.: Aerobic treadmill plus Bobath walking training improves walking in subacute stroke: a randomized controlled trial (2004)
Eich et al.: Aerobic treadmill plus Bobath walking training improves walking in subacute stroke: a randomized controlled trial (2004)
End Effector Gait Trainers - Advantages & Versatility
End Effector Gait Trainers – Advantages & Versatility
Everarts C., Vallery H., Bolliger M., and Ronsse R.: Adaptive Position Anticipation in a Support Robot for Overground Gait Training Enhances Transparency (2013)
Everarts C., Vallery H., Bolliger M., and Ronsse R.: Adaptive Position Anticipation in a Support Robot for Overground Gait Training Enhances Transparency (2013)
Fritschi M., Jelinek H. F., McGloughlin T., Khalaf K., Khandoker A. H., and Vallery H.: Human Balance Responses to Perturbations in the Horizontal Plane (2014)
Fritschi M., Jelinek H. F., McGloughlin T., Khalaf K., Khandoker A. H., and Vallery H.: Human Balance Responses to Perturbations in the Horizontal Plane (2014)
Frührehabilitation für Patienten nach einer längeren Bettlägerigkeit
Frührehabilitation für Patienten nach einer längeren Bettlägerigkeit
Functional Sit-to-Stand exercise with the FLOAT
Functional Sit-to-Stand exercise with the FLOAT
Functional Step Activity with the FLOAT
Functional Step Activity with the FLOAT
Gait Trainer GTII
Gait Trainer GTII
Gait Trainer GTII Datasheet
Gait Trainer GTII Datasheet
Hesse and Uhlenbrock: A mechanized gait trainer for restoration of gait (2000)
Hesse and Uhlenbrock: A mechanized gait trainer for restoration of gait (2000)
Hesse et al.: A new electromechanical trainer for sensorimotor rehabilitation of paralysed fingers: A case series in chronic and acute stroke patients (2008)
Hesse et al.: A new electromechanical trainer for sensorimotor rehabilitation of paralysed fingers: A case series in chronic and acute stroke patients (2008)
Hesse et al.: A robot assisted practice of gait and stair climbing in non-ambulatory stroke patients (2012)
Hesse et al.: A robot assisted practice of gait and stair climbing in non-ambulatory stroke patients (2012)
Hesse et al.: Das Lokomotionsstudio: eine effektive und effiziente Lokomotionstherapie in der Gruppe für Patienten der Phasen B, C und D der eurologischen Rehabilitation (2015)
Hesse et al.: Das Lokomotionsstudio: eine effektive und effiziente Lokomotionstherapie in der Gruppe für Patienten der Phasen B, C und D der eurologischen Rehabilitation (2015)
Hesse et al.: Mechanical Arm Trainer for the Treatment of the Severely Affected Arm after Stroke - A Single-Blinded Randomized Trial in Two Centers (2008)
Hesse et al.: Mechanical Arm Trainer for the Treatment of the Severely Affected Arm after Stroke – A Single-Blinded Randomized Trial in Two Centers (2008)
Hesse et al.: Upper and lower extremity robotic devices for rehabilitation and studying motor control (2003)
Hesse et al.: Upper and lower extremity robotic devices for rehabilitation and studying motor control (2003)
Hesse: Recovery of gait and other motor functions after stroke: Novel physical and pharmacological treatment strategies (2004)
Hesse: Recovery of gait and other motor functions after stroke: Novel physical and pharmacological treatment strategies (2004)
Hidler J.M., Stienen A.H.A., and Vallery H. Robotic Devices for Overground Gait and Balance Training (2016)
Hidler J.M., Stienen A.H.A., and Vallery H. Robotic Devices for Overground Gait and Balance Training (2016)
Iosa et al.: Driving electromechanically assisted Gait Trainer for people with stroke (2011)
Iosa et al.: Driving electromechanically assisted Gait Trainer for people with stroke (2011)
Mehrholz and Pohl: Electromechanical-assisted gait training after stroke: a systematic review comparing end-effector and exoskeleton devices (2012)
Mehrholz and Pohl: Electromechanical-assisted gait training after stroke: a systematic review comparing end-effector and exoskeleton devices (2012)
Mehrholz et al.: Electromechanical-Assisted Gait Training with Physiotherapy May Improve Walking After Stroke (2008)
Mehrholz et al.: Electromechanical-Assisted Gait Training with Physiotherapy May Improve Walking After Stroke (2008)
Mehrholz et al.: Electromechanical-Assisted Training for Walking after Stroke (Cochrane Review) (2020)
Mehrholz et al.: Electromechanical-Assisted Training for Walking after Stroke (Cochrane Review) (2020)
Mignardot J.-B., von Zitzewitz J., Le Goff C., van den Brand R., Bloch J., Carda S., and Courtine G.: Multidirectional Robotic Support Enables Gait Rehabilitation under Natural Conditions in Individuals with Neuromotor Disorders (2014)
Mignardot J.-B., von Zitzewitz J., Le Goff C., van den Brand R., Bloch J., Carda S., and Courtine G.: Multidirectional Robotic Support Enables Gait Rehabilitation under Natural Conditions in Individuals with Neuromotor Disorders (2014)
Pohl et al.: Repetitive locomotor training and physiotherapy improve walking and basic activities of daily living after stroke: a single-blind, randomized multicenter trial (DEutsche GAngtrainerStudie, DEGAS) (2007)
Pohl et al.: Repetitive locomotor training and physiotherapy improve walking and basic activities of daily living after stroke: a single-blind, randomized multicenter trial (DEutsche GAngtrainerStudie, DEGAS) (2007)
Practicing Getting Up off the Floor with The FLOAT
Practicing Getting Up off the Floor with The FLOAT
Practicing Lateral Walking with the FLOAT
Practicing Lateral Walking with the FLOAT
Practicing Stair Climbing with The FLOAT
Practicing Stair Climbing with The FLOAT
Preturbations / Pushing & Bumping - Training with the FLOAT
Preturbations / Pushing & Bumping – Training with the FLOAT
Rauter G., Bannwart M., Lutz P., Bolliger M., and Gantner M.: Robust Wireless Real-Time Data Transmission for Robot Control in Neurorehabilitation (2016)
Rauter G., Bannwart M., Lutz P., Bolliger M., and Gantner M.: Robust Wireless Real-Time Data Transmission for Robot Control in Neurorehabilitation (2016)
Reha-Slide & Reha-Slide Duo Flyer
Reha-Slide & Reha-Slide Duo Flyer
Smania et al.: Improved Gait after Repetitive Locomotor Training in Children with Cerebral Palsy (2011)
Smania et al.: Improved Gait after Repetitive Locomotor Training in Children with Cerebral Palsy (2011)
Th. Platz: Rehabilitative Therapie bei Armparese nach Schlaganfall (2009)
Th. Platz: Rehabilitative Therapie bei Armparese nach Schlaganfall (2009)
the FLOAT - Wieder Gehen Lernen
the FLOAT – Wieder Gehen Lernen
the FLOAT Datasheet
the FLOAT Datasheet
the FLOAT Flyer
the FLOAT Flyer
the FLOAT Mobility Rehabilitation Guide
the FLOAT Mobility Rehabilitation Guide
Vallery H., Lutz P., von Zitzewitz J., Rauter G., Fritschi M., Everarts C., Ronsse R., Curt A., and Bolliger M.: Multidirectional Transparent Support for Overground Gait Training (2013)
Vallery H., Lutz P., von Zitzewitz J., Rauter G., Fritschi M., Everarts C., Ronsse R., Curt A., and Bolliger M.: Multidirectional Transparent Support for Overground Gait Training (2013)
van Delden et al: A systematic review of bilateral upper limb training devices for post-stroke rehabilitation (2012)
van Delden et al: A systematic review of bilateral upper limb training devices for post-stroke rehabilitation (2012)
Waeber A., Gerig N., Baur K., Vallery H., Lutz P., Riener R., Curt A., Bolliger M., and Rauter G.: Guidance in the Nullspace Reduces Task Difficulty in Robot-assisted Coordination Training (2015)
Waeber A., Gerig N., Baur K., Vallery H., Lutz P., Riener R., Curt A., Bolliger M., and Rauter G.: Guidance in the Nullspace Reduces Task Difficulty in Robot-assisted Coordination Training (2015)
Walking on the Callis treadmill
Walking on the Callis treadmill
Walking Turn Exercise with the FLOAT
Walking Turn Exercise with the FLOAT
Werner et al.: Der nicht-betroffene führt den betroffenen Arm: Vorstellung eines machanichen Armtrainers für das eigenständige Üben hoch paretischer Patienten nach Schlaganfall (2005)
Werner et al.: Der nicht-betroffene führt den betroffenen Arm: Vorstellung eines machanichen Armtrainers für das eigenständige Üben hoch paretischer Patienten nach Schlaganfall (2005)
Werner et al.: Lokomotionstherapie des akuten Schlaganfallpatienten: Ergebnisse der multi-zentrischen Deutschen Gangtrainer Studie (DEGAS) (2006)
Werner et al.: Lokomotionstherapie des akuten Schlaganfallpatienten: Ergebnisse der multi-zentrischen Deutschen Gangtrainer Studie (DEGAS) (2006)
Werner et al.: Treadmill Training with Partial Body Weight Support and an Electromechanical Gait Trainer for Restoration of Gait in Subacute Stroke Patients (2002)
Werner et al.: Treadmill Training with Partial Body Weight Support and an Electromechanical Gait Trainer for Restoration of Gait in Subacute Stroke Patients (2002)
Werner et al.: Treadmill training with partial body weight support and physiotherapy in stroke patients: a preliminary comparison (2008)
Werner et al.: Treadmill training with partial body weight support and physiotherapy in stroke patients: a preliminary comparison (2008)