CN205268163U - Exempt from flesh pine interference type recurrent laryngeal nerve monitor - Google Patents

Abstract

The utility model discloses an interference-free muscle relaxant laryngeal nerve monitor. The monitor comprises a power supply, a muscle relaxant monitoring device, a data output device, and a data processing device. The power supply is connected to the muscle relaxant monitor. Device, recurrent laryngeal nerve monitoring device, data output device, data processing device, muscle relaxation monitoring device and recurrent laryngeal nerve monitoring device are respectively connected to data output device, and said data output device is connected to data processing device, and said data processing device includes a data receiving device device, data processor and display, and the data receiver is connected with the data output device. When the utility model uses the muscle relaxation-free interference type recurrent laryngeal nerve monitor to monitor the recurrent laryngeal nerve, it can effectively avoid the interference of muscle relaxation on the monitoring data of the recurrent laryngeal nerve, and make the surgeon's judgment on the function of the recurrent laryngeal nerve more accurate.

Description

A recurrent laryngeal nerve monitor without muscle relaxation interference

technical field

The utility model relates to the technical field of medical equipment, in particular to a muscle relaxation-free recurrent laryngeal nerve monitor.

Background technique

The recurrent laryngeal nerve monitor is a monitoring instrument currently used to monitor the function of the recurrent laryngeal nerve during surgery. The nerve monitoring electrode (recurrent laryngeal nerve monitoring endotracheal tube) is transmitted to the host of the recurrent laryngeal nerve monitor, so that the myoelectric signal is fed back to the surgeon in the form of sound and image through the display screen, so that the surgeon can judge whether the patient's recurrent laryngeal nerve is damage. If the recurrent laryngeal nerve is injured, the contraction of the vocal cord muscles will be weakened, thereby weakening the EMG signal; patients may experience hoarseness and even dyspnea after surgery.

The operation needs to be performed under general anesthesia, and general anesthesia needs to give the patient muscle relaxant drugs to produce muscle relaxation (muscle relaxation), so that the patient remains still during the operation and avoids affecting the operation. However, the muscle relaxation effect will significantly weaken the contraction of the vocal cord muscles, which will also cause the weakening of the myoelectric signal of the vocal cord muscles, which will confuse the surgeon in judging whether the recurrent laryngeal nerve is damaged, and cannot distinguish whether it is due to the recurrent laryngeal nerve injury or the muscle relaxation effect. resulting in a weakening of the EMG signal.

Therefore, the structure of the current recurrent laryngeal nerve monitor does not include the muscle relaxation monitoring device, but only includes the recurrent laryngeal nerve monitoring device, which leads to the unavoidable interference of the muscle relaxation effect on the monitoring data of the recurrent laryngeal nerve.

Contents of the invention

In order to solve the problem of avoiding the interference of the muscle relaxation effect on the monitoring data of the recurrent laryngeal nerve, the utility model is specifically the problem of separating the muscle relaxation monitoring device from the monitoring device of the recurrent laryngeal nerve. Improvements were made to the recurrent laryngeal nerve monitor.

Specifically, the following technical solutions are adopted: a muscle relaxation-free recurrent laryngeal nerve monitor, characterized in that: the monitor includes a power supply, a muscle relaxation monitoring device, a recurrent laryngeal nerve monitoring device, a data output device, and a data processing device. The power supply is connected to a muscle relaxation monitoring device, a recurrent laryngeal nerve monitoring device, a data output device, and a data processing device, and the muscle relaxation monitoring device and the recurrent laryngeal nerve monitoring device are respectively connected to a data output device, and the data output device is connected to a data processing device. The data processing device includes a data receiver, a data processor and a display, and the data receiver is connected with the data output device.

As mentioned above, the muscle relaxation monitoring device and the recurrent laryngeal nerve monitoring device are installed together. After the muscle relaxation monitoring and the recurrent laryngeal nerve monitoring, the data will be transmitted to the data output device, and then transmitted to the data receiver by the data output device, and then to the data receiver. data processor, and finally display through the display. This structural design combining the two monitoring devices effectively avoids the confusion of the operator's judgment on the function of the recurrent laryngeal nerve, and provides a recurrent laryngeal nerve monitor that is not affected by muscle relaxation.

The function of the power supply is to supply power to various device components.

Preferably, the data output device includes a processor for data output, and the data receiver includes a processor for data reception.

The role of the data output device is to collect the data obtained by the muscle relaxation monitoring device and the recurrent laryngeal nerve monitoring device, and transmit it to the data receiver, and the role of the data receiver is to transmit the data obtained from the data output device to the data processing device.

Preferably, the muscle relaxation monitoring device includes a muscle relaxation monitoring host, stimulating electrodes, and an acceleration sensor, and data lines connect the stimulating electrodes and the acceleration sensor to the muscle relaxation monitoring host.

Preferably, the acceleration sensor is connected to the thumb through a thumb holder.

Preferably, the recurrent laryngeal nerve monitoring device includes a recurrent laryngeal nerve monitoring host, a recurrent laryngeal nerve monitoring electrode, a recurrent laryngeal nerve stimulation detection needle, a loop electrode, a grounding electrode, and an interface board, and the data line connects the interface board to the recurrent laryngeal nerve. On the nerve monitoring host, the recurrent laryngeal nerve monitoring electrode, the recurrent laryngeal nerve stimulation probe, the return electrode, and the grounding electrode are also connected to the interface board through the data line.

Preferably, the recurrent laryngeal nerve monitoring electrode uses the recurrent laryngeal nerve to monitor the endotracheal tube.

The beneficial effect of the utility model is that: when using this muscle relaxation-free interference type recurrent laryngeal nerve monitor to monitor the recurrent laryngeal nerve, it can effectively avoid the interference of muscle relaxation on the monitoring data of the recurrent laryngeal nerve, so that the surgeon can fully understand the function of the recurrent laryngeal nerve. judgment is more accurate. At the same time, the cost is saved, and it is not necessary to use two kinds of instruments to monitor the recurrent laryngeal nerve separately.

Description of drawings

Fig. 1 is a schematic structural view of a muscle relaxation-free recurrent laryngeal nerve monitor according to an embodiment of the present invention.

detailed description

The technical scheme of the utility model will be further described below in conjunction with the accompanying drawings and through specific embodiments.

From Fig. 1, it can be known that the recurrent laryngeal nerve monitoring instrument without muscle relaxation interference includes a power supply 1, a muscle relaxation monitoring device 2, a recurrent laryngeal nerve monitoring device 3, a data output device 4, and a data processing device 5. 1 is connected to the muscle relaxation monitoring device 2, the recurrent laryngeal nerve monitoring device 3, the data output device 4, and the data processing device 5, and the muscle relaxation monitoring device 2 and the recurrent laryngeal nerve monitoring device 3 are respectively connected to the data output device 4, and the data output device 4 A data processing device 5 is connected, and the data processing device 5 includes a data receiver 6 , a data processor 7 and a display 8 , and the data receiver 6 is connected with the data output device 4 .

The muscle relaxation monitoring device 2 includes a muscle relaxation monitoring host 9 , stimulating electrodes 10 , and an acceleration sensor 11 . The data line connects the stimulation electrode 10 and the acceleration sensor 11 to the muscle relaxation monitoring host 9 . The acceleration sensor 11 is attached to the thumb through a thumb holder.

The recurrent laryngeal nerve monitoring device 3 includes a recurrent laryngeal nerve monitoring host 12 , a recurrent laryngeal nerve monitoring electrode 13 , a recurrent laryngeal nerve stimulation detection needle 14 , a return electrode 15 , a ground electrode 16 , and an interface board 17 . The recurrent laryngeal nerve monitoring electrode 13 adopts a recurrent laryngeal nerve monitoring catheter. The data line connects the interface board 17 to the recurrent laryngeal nerve monitoring host 12, and the recurrent laryngeal nerve monitoring electrode 13, the recurrent laryngeal nerve stimulation detection needle 14, the return electrode 15, and the grounding electrode 16 are also connected to the interface board 17 through the data line .

In use, the power supply 1 supplies power to each device. The muscle relaxation monitoring device 2 includes a muscle relaxation monitoring host 9 , stimulating electrodes 10 , and an acceleration sensor 11 . The data line connects the stimulation electrode 10 and the acceleration sensor 11 to the muscle relaxation monitoring host 9 . The acceleration sensor 11 is connected to the surgeon's thumb through a thumb holder. The data monitored by the muscle relaxation monitoring device 2 is transmitted to the data output device 4 , then transmitted to the data receiver 6 by the data output device 4 , and then to the data processor 7 .

The recurrent laryngeal nerve monitoring device 3 includes a recurrent laryngeal nerve monitoring host 12 , a recurrent laryngeal nerve monitoring electrode 13 , a recurrent laryngeal nerve stimulation detection needle 14 , a return electrode 15 , a ground electrode 16 , and an interface board 17 . The recurrent laryngeal nerve monitoring electrode 13 adopts a recurrent laryngeal nerve monitoring catheter. The data line connects the interface board 17 to the recurrent laryngeal nerve monitoring host 12, and the recurrent laryngeal nerve monitoring electrode 13, the recurrent laryngeal nerve stimulation detection needle 14, the return electrode 15, and the grounding electrode 16 are also connected to the interface board 17 through the data line . The data monitored by the recurrent laryngeal nerve monitoring device 3 is transmitted to the data output device 4 , and then transmitted to the data receiver 6 by the data output device 4 , and then to the data processor 7 .

The data receiver 6 receives the data monitored by the muscle relaxation monitoring device 2 and the recurrent laryngeal nerve monitoring device 3 , and then transmits the data to the data processor 7 , and finally displays the results on the display 8 .

The above is only a preferred embodiment of the utility model, but the scope of protection of the utility model is not limited thereto, any person familiar with the technology can easily think of it within the technical scope disclosed in the utility model Changes or replacements should fall within the protection scope of the present utility model. Therefore, the protection scope of the present utility model should be based on the protection scope of the claims.

Claims (6)

1. An interference-free muscle relaxation type recurrent laryngeal nerve monitor, characterized in that: the monitor includes a power supply, a muscle relaxation monitoring device, a recurrent laryngeal nerve monitoring device, a data output device, and a data processing device, and the power supply is connected to a muscle relaxation device. The monitoring device, the recurrent laryngeal nerve monitoring device, the data output device, the data processing device, the muscle relaxation monitoring device and the recurrent laryngeal nerve monitoring device are respectively connected to the data output device, and the data output device is connected to the data processing device, and the data processing device includes data A receiver, a data processor and a display, the data receiver is connected with the data output device. 2. A kind of free muscle relaxation interference type recurrent laryngeal nerve monitor as claimed in claim 1, is characterized in that, described data output device includes the processor that is used for data output, and described data receiver includes the processor that is used for data receiving. processor. 3. a kind of free muscle relaxation interference type recurrent laryngeal nerve monitor as claimed in claim 2, is characterized in that, described muscle relaxation monitoring device comprises muscle relaxation monitoring main frame, stimulating electrode, acceleration sensor, and data line will stimulate electrode and The acceleration sensor is connected to the muscle relaxation monitoring host. 4. A muscle relaxation-free interference-free recurrent laryngeal nerve monitor as claimed in claim 2, wherein the acceleration sensor is connected to the thumb through a thumb holder. 5. The recurrent laryngeal nerve monitor without muscle relaxation interference type according to claim 2, wherein the recurrent laryngeal nerve monitoring device comprises a recurrent laryngeal nerve monitoring host, recurrent laryngeal nerve monitoring electrodes, recurrent laryngeal nerve stimulation The detection needle, return electrode, ground electrode, interface board, and data cable connect the interface board to the recurrent laryngeal nerve monitoring host, and the recurrent laryngeal nerve monitoring electrode, recurrent laryngeal nerve stimulation probe, return electrode, and ground electrode are also connected through the data line Connect to the interface board. 6 . The recurrent laryngeal nerve monitor without muscle relaxation interference as claimed in claim 5 , wherein the recurrent laryngeal nerve monitoring electrode uses the recurrent laryngeal nerve to monitor the tracheal tube.