| 4 Gründe, warum Virtual Reality völlig neue Möglichkeiten für die Gangrehabilitation eröffnet | |
| 4 Reasons Why Virtual Reality is a Game Changer for Gait Rehabilitation | |
| Agility Drill – Spontaneous Movements with the FLOAT | |
| Balance Training 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., 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) | |
| 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.: Gruppentherapie im Armlabor für den schwer und mässig betroffenen Arm nach Schlaganfall: Akzeptanz, Auslastung und erste klinische Ergebnisse (2009) | |
| Callis Ortho Datasheet | |
| Callis Therapie Datasheet | |
| Callis Trac 60E Datasheet | |
| Callis Treadmills – Robust at 22kmh | |
| Callis Treadmills – Shock absorbing slat belts | |
| Callis Treadmills – Zero Starting Speed | |
| Callis Treadmills Flyer | |
| Corporate Brochure | |
| Dohle et al.: Rehabilitation der Mobilität nach Schlaganfall (ReMoS), S2e Leitlinie (2015) | |
| 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) | |
| End Effector Gait Trainers – Advantages & Versatility | |
| Evaluation Methods Flyer | |
| 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) | |
| Frührehabilitation für Patienten nach einer längeren Bettlägerigkeit | |
| Functional Sit-to-Stand exercise with the FLOAT | |
| Functional Step Activity with the FLOAT | |
| Gait Trainer GTII | |
| Gait Trainer GTII Datasheet | |
| 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 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.: 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: 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) | |
| 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 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) | |
| 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) | |
| Practicing Getting Up off the Floor with The FLOAT | |
| Practicing Lateral Walking with the FLOAT | |
| Practicing Stair Climbing 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) | |
| Reha-Slide & Reha-Slide Duo Flyer | |
| Smania et al.: Improved Gait after Repetitive Locomotor Training in Children with Cerebral Palsy (2011) | |
| Th. Platz: Rehabilitative Therapie bei Armparese nach Schlaganfall (2009) | |
| the FLOAT – Wieder Gehen Lernen | |
| the FLOAT Datasheet | |
| the FLOAT Flyer | |
| 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) | |
| 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) | |
| Walking on the Callis treadmill | |
| 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.: 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 physiotherapy in stroke patients: a preliminary comparison (2008) | |
