Application system specifically for occlusion using a small electromyography sensor.
Myowise is a dedicated system for measuring the left-right balance of the masticatory muscles, created by two companies: the global leading company in electromyography (EMG) technology, COMETA, and TFR, a pioneer in dental occlusion analysis using surface EMG systems. The four Myowise sensors are based on COMETA's PICO BLUE. The world's smallest sensors weigh only 8g, are ultra-lightweight, and can be used for about 20 hours on a full charge. Charging the sensors is completed in about 2 hours when connected to a dedicated disc-shaped charging stand. The software is also specialized for masticatory muscle balance analysis, so after measurement, the analysis results are displayed automatically.
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basic information
■Industry's lightest 8g EMG sensor ■Complete wireless measurement ■1000Hz measurement ■20-hour battery ■Subject database ■EMG-based left-right bite balance display ■EMGROW data
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Applications/Examples of results
- Preoperative/Postoperative left-right occlusion status - Center point during left-right occlusion - Electromyography of masticatory muscles
Company information
We handle high-precision measurement equipment that can be used for ergonomics, building structure, behavior, seismic analysis, fluid analysis, VR, and more, both domestically and internationally. In particular, the Qualisys system we offer is a leading company in the industry that manufactures a three-dimensional optical motion capture system based in Sweden. Qualisys's core technology has been developed since 1989, and based on years of accumulated experience, they develop everything in-house, from hardware like cameras to software. Currently, motion capture systems are used in a wide variety of fields, including medicine and industry. Among their products, there is a unique model that can measure underwater, enabling the acquisition of high-precision three-dimensional data in environments where motion analysis and validation of accuracy were previously impossible.