Multiple sensors in an extremely light weight (four ounce) spectacle-like array,
Multiple sensors in an extremely light weight (four ounce) spectacle-like array, track the motion of a tiny magnet attached to the lower incisal gingiva with adhesive material. The configuration is totally non-invasive and, unlike clutches, does not interfere with patient function. The opposing sensors are wide apart permitting unobstructed access to the oral cavity for taking bite registrations and other clinical procedures, and the system is virtually immune from effects of slight head motion or nearby metallic or electronic interference. A patient education mode is included to simplify patient understanding and staff training.
Multiple sensors in an extremely light weight (four ounce) spectacle-like array,
Multiple sensors in an extremely light weight (four ounce) spectacle-like array, track the motion of a tiny magnet attached to the lower incisal gingiva with adhesive material. The configuration is totally non-invasive and, unlike clutches, does not interfere with patient function. The opposing sensors are wide apart permitting unobstructed access to the oral cavity for taking bite registrations and other clinical procedures, and the system is virtually immune from effects of slight head motion or nearby metallic or electronic interference. A patient education mode is included to simplify patient understanding and staff training.
Utilizing high quality bipolar surface electrodes, surface EMG data can be taken
Utilizing high quality bipolar surface electrodes, surface EMG data can be taken from up to eight muscle sites simultaneously and in real time. The program permits taking electromyography data either at rest or in function. All eight channels may be displayed simultaneously, for a period of 15 seconds (one visual screen width). The K7/EMG signal processing circuitry provides unsurpassed protection against system noise or motion artifact. The patient education mode permits quick and easy patient education as to status of masticatory muscles.
TMJ Vibration (Sound) Evaluation System. A lightweight headset holds highly sens
TMJ Vibration (Sound) Evaluation System. A lightweight headset holds highly sensitive vibration transducers over each TM joint, enabling simultaneous, bilateral capture of tissue vibrations emanating from joint sounds. Vibration (sound) data is correlated to vertical dimension of opening and closing, providing clinicians with valuable information to aid in assessing the status of articular disk and joint function.
Opto-Electronik System including Face-Bow for monitoring and tracking of lower j
Opto-Electronik System including Face-Bow for monitoring and tracking of lower jaw movements and accessories
Opto-Electronik System including Face-Bow for monitoring and tracking of lower j
Opto-Electronik System including Face-Bow for monitoring and tracking of lower jaw movements and accessories
Opto-Electronik System including Face-Bow for monitoring and tracking of lower j
Opto-Electronik System including Face-Bow for monitoring and tracking of lower jaw movements and accessories
Opto-Electronik System including Face-Bow for monitoring and tracking of lower j
Opto-Electronik System including Face-Bow for monitoring and tracking of lower jaw movements and accessories
Opto-Electronik System including Face-Bow for monitoring and tracking of lower j
Opto-Electronik System including Face-Bow for monitoring and tracking of lower jaw movements and accessories
Opto-Electronik System including Face-Bow for monitoring and tracking of lower j
Opto-Electronik System including Face-Bow for monitoring and tracking of lower jaw movements and accessories
Opto-Electronik System including Face-Bow for monitoring and tracking of lower j
Opto-Electronik System including Face-Bow for monitoring and tracking of lower jaw movements and accessories
Opto-Electronik System including Face-Bow for monitoring and tracking of lower j
Opto-Electronik System including Face-Bow for monitoring and tracking of lower jaw movements and accessories