B. Schmitz scite author profile

B. Schmitz

5Publications

19Citation Statements Received

17Citation Statements Given

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Karlsruhe Institute of Technology

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OrthoJacket: an active FES-hybrid orthosis for the paralysed upper extremity

Schill

Wiegand²,

Schmitz³

et al. 2011

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The loss of the grasp function in cervical spinal cord injured (SCI) patients leads to life-long dependency on caregivers and to a tremendous decrease of the quality of life. This article introduces the novel non-invasive modular hybrid neuro-orthosis OrthoJacket for the restoration of the restricted or completely lost hand and arm functions in high tetraplegic SCI individuals. The primary goal of the wearable orthosis is to improve the paralysed upper extremity function and, thus, to enhance a patient's independence in activities of daily living. The system combines the advantage of orthotics in mechanically stabilising joints together with the possibilities of functional electrical stimulation for activation of paralysed muscles. In patients with limited capacity, for force generation, flexible fluidic actuators are used to support the movement. Thus, the system is not only intended for functional restoration but also for training. Several sensor systems together with an intelligent signal processing allow for automatic adaptation to the anatomical and neurological individualities of SCI patients. The integration of novel user interfaces based on residual muscle activities and detection of movement intentions by real-time data mining methods will enable the user to autonomously control the system in a natural and cooperative way.

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Mechanical Performance of Actuators in an Active Orthosis for the Upper Extremities

Wiegand

Schmitz

Pylatiuk

et al. 2011

Journal of Robotics

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The aim of the project OrthoJacket is to develop a lightweight, portable, and active orthosis for the upper limps. The system consists of two special designed fluidic actuators which are used for supporting the elbow function and the internal rotation of the shoulder. A new design of flexible fluid actuator (FFA) is presented that enables more design options of attaching parts, as it is allowed by conventional actuators with a stationary centre of rotation. This advantage and the inherent flexibility and the low weight of this kind of actuator predestined them for the use in exoskeletons, orthoses, and prostheses. The actuator for the elbow generates a maximum torque of 32 Nm; the internal rotation is supported with 7 Nm. Both actuators support the movement with up to 100% of the necessary power. The shells for the arm and forearm are made of carbon reinforced structures in combination with inflatable cushions.

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A New Capacitive EMG Sensor for Control of the Active Orthosis Orthojacket

Schmitz

Wiegand²,

Lühmann

et al. 2012

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Erfahrene Anästhesisten reagieren gezielter bei Ausfall der Zentralen Gasversorgung - Eine Studie am Anästhesiesimulator

Lussi

Grapengeter²,

Schmitz³

et al. 1998

Anästhesiol Intensivmed Notfallmed Schmerzther

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The loss of pipeline pressure in a central gas supply system is a rare but potentially hazardous complication in anaesthesia and critical care. In an anaesthesia simulator study, reactions of 20 anaesthetists to this simulated critical incident were monitored and evaluated. A comparison between novice (n = 10) and experienced anaesthesia residents/consultants (n = 10) determined a significantly quicker and more on-target reaction by the experienced anaesthetists. Unlike older cycle system anaesthesia machines, update anaesthesia ventilators (CICERO EM, Dräger, Lübeck) do not permit manual ventilation of a patient in a "closed-system" once pipeline pressure drops to zero. In this highly hazardous event, the patient has to be ventilated by reservoir bag until a sufficient back-up system delivering high inspiratory oxygen concentrations can be installed, because he is otherwise prone to diffusion hypoxia. Installation of mandatory (anaesthesia-machine integrated) back-up systems for respirators without cycle systems would therefore increase patient safety. A general algorithm for loss of pipeline pressure can be described only after a back-up system has been installed.

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Ein neues Konzept zur Sensorik und Steuerung einer aktiven Hybrid-Orthese für die obere Extremität

Schmitz¹

2016

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B. Schmitz

OrthoJacket: an active FES-hybrid orthosis for the paralysed upper extremity

Mechanical Performance of Actuators in an Active Orthosis for the Upper Extremities

A New Capacitive EMG Sensor for Control of the Active Orthosis Orthojacket

Erfahrene Anästhesisten reagieren gezielter bei Ausfall der Zentralen Gasversorgung - Eine Studie am Anästhesiesimulator

Ein neues Konzept zur Sensorik und Steuerung einer aktiven Hybrid-Orthese für die obere Extremität

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