WIRELESS ELECTROMYOGRAPH EQUIPMENT AND OPERATING SYSTEM THEREOF
First Claim
1. A wireless electromyography equipment and operating system thereof, more specifically, an electromyography equipment (AE) comprising one or more surface electrodes (sensors) (1) in the form of electrodes (sensors) (E1), with flat metallic faces (1a) protected by silicone and conductive adhesive (C1) and an internal electrode (sensor) (2) in the shape of a probe in anal and vaginal models, all used in the electromyography biofeedback technique (EMG), where an electric charge is applied to the muscle tissue to which contraction and relaxation of a specific muscle group is directly associated, for example, for better understanding of this invention, but not restrictively, to the pelvic floor (AP) and abdominal muscles;
- wherein the electromyography equipment (AE) comprises one or more internal surface electrodes (sensors) (1) equipped with a signal conditioning circuit (1b) for amplification of the electromyography signals generated by neuromuscular activity of the user (U), as well as an analog-digital converter (1c), a digital telemetry radio transmitter (1d) and respective antenna (1e);
the internal electrode (sensor) (2) may adopt various formats in order to serve as a probe adapted to anal and vaginal anatomy;
includes a signal conditioning circuit (2a) for amplification of electromyography signals generated by neuromuscular activity of the user, an analog-digital converter (2b) and a digital telemetry radio transmitter (2c) which, on the main application, uses Bluetooth;
each surface (1) and internal (2) electrode (sensor) has a battery (1f) and (2e), respectively, that features a wireless inductive coupling charging system (capacitive), which are charged through a charger, preferably of wireless type (4);
all activation buttons (1g) and (2f) (on/off) of the respective surface (1) and internal (2) electrodes (sensors) are molded within flexible plastic, preferably silicone.
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Accused Products
Abstract
A wireless electromyography equipment and operating system thereof, more specifically, an electromyography equipment (AE) comprising surface and internal (anal and vaginal) electrodes (sensors) (1) provided with signal conditioning circuit (1b) for amplification of electromyography signals generated by neuromuscular activity of the user (U), as well as an analog-digital converter (1c), a digital telemetry radio transmitter (1d) and respective antenna (1e); the internal electrodes (sensors) (2) may adopt various shapes to serve as a probe adapted to vaginal and anal anatomy; it includes a signal conditioning circuit (2a) for amplification of electromyography signals generated by neuromuscular activity, an analog-digital converter (2b) and a digital telemetry radio transmitter (2c) that, on its main implantation, uses Bluetooth; each surface (1) and internal (2) electrode (sensor) has a battery (1f) and (2e), respectively, with a wireless inductive coupling charging system (capacitive), which are recharged through a charger, preferably of wireless type (4); all activation buttons (1g) and (2f) (on/off) of the respective surface (1) and internal (2) electrodes (sensors) are molded within flexible plastic, preferably silicone; the computer program or software (S1) is associated to the electrodes (sensors) (1) and (2) and destined to receive stimulation generated by neuromuscular activity of the user, read then and return then as information and report data to the user (U) on a smartphone, tablet or other chosen device by the user (AP1) and/or remote professional, if desired.
11 Citations
9 Claims
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1. A wireless electromyography equipment and operating system thereof, more specifically, an electromyography equipment (AE) comprising one or more surface electrodes (sensors) (1) in the form of electrodes (sensors) (E1), with flat metallic faces (1a) protected by silicone and conductive adhesive (C1) and an internal electrode (sensor) (2) in the shape of a probe in anal and vaginal models, all used in the electromyography biofeedback technique (EMG), where an electric charge is applied to the muscle tissue to which contraction and relaxation of a specific muscle group is directly associated, for example, for better understanding of this invention, but not restrictively, to the pelvic floor (AP) and abdominal muscles;
- wherein the electromyography equipment (AE) comprises one or more internal surface electrodes (sensors) (1) equipped with a signal conditioning circuit (1b) for amplification of the electromyography signals generated by neuromuscular activity of the user (U), as well as an analog-digital converter (1c), a digital telemetry radio transmitter (1d) and respective antenna (1e);
the internal electrode (sensor) (2) may adopt various formats in order to serve as a probe adapted to anal and vaginal anatomy;
includes a signal conditioning circuit (2a) for amplification of electromyography signals generated by neuromuscular activity of the user, an analog-digital converter (2b) and a digital telemetry radio transmitter (2c) which, on the main application, uses Bluetooth;
each surface (1) and internal (2) electrode (sensor) has a battery (1f) and (2e), respectively, that features a wireless inductive coupling charging system (capacitive), which are charged through a charger, preferably of wireless type (4);
all activation buttons (1g) and (2f) (on/off) of the respective surface (1) and internal (2) electrodes (sensors) are molded within flexible plastic, preferably silicone. - View Dependent Claims (3, 4, 5, 6, 7, 8)
- wherein the electromyography equipment (AE) comprises one or more internal surface electrodes (sensors) (1) equipped with a signal conditioning circuit (1b) for amplification of the electromyography signals generated by neuromuscular activity of the user (U), as well as an analog-digital converter (1c), a digital telemetry radio transmitter (1d) and respective antenna (1e);
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2. An operating system, in which the computer program or software (S1) is associated to the electrodes (sensors) (1) and (2), wherein:
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said system receives stimulation from electrodes (sensors (1) and (2), reads them and returns them as information and report data to the user (U) on the smartphone, tablet or other device chosen by the user (API) and/or remote professional (AP2), if desired; said system contains a biofeedback device capable of transmitting data automatically to a remote professional;
the software (s1) provides a warning image, animation, notification, audio and/or vibration informing the quality, need, difficulty or ease of contraction and relaxation;said system provides training plans (T1) (progressive relaxation and strengthening exercises) for pelvic floor and abdominal muscles or other skeletal muscles, such as facial muscles, therefore providing specific programs for each muscle group; said system is offered in various versions, including, but not limited to, Android systems, tablets, iPhones, smartphones, notebooks and desktops. - View Dependent Claims (9)
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Specification