WO2018210792A1 - Controlling a surgical hf generator - Google Patents

Abstract

The invention relates to a method for controlling a surgical HF generator for the output of high-frequency current at at least one output of the HF generator, and to a surgical HF generator. The method contains the following steps: reading in the activation of interval recognition, detecting an interval actuation of a switching means, creating a callable output profile from the detected interval actuation, signaling the callability of the created output profile, and outputting the created output profile at the at least one output of the HF generator after the reading in of an actuation of the switching means for triggering the output.

Description

 CONTROL OF A SURGICAL HF GENERATOR

Technical area

The invention relates to a method for controlling a surgical RF generator according to claim 1 and to a surgical RF generator according to claim 11.

State of the art

Surgery devices operated with high-frequency current are known from the prior art. One or more instruments, for example electrodes, are connected to a surgical device comprising an HF (high-frequency) generator which supplies high-frequency electrical current, with the aid of which a surgeon, such as a surgeon, can selectively damage or cut body tissue. For example, in diathermy, tissue structures are severed, with closure of the affected vessels occurring simultaneously with the cutting. The surgical device may control other associated devices, such as an aspirator or a purge.

Such devices may be specifically tailored to the surgical procedure to be performed (for example, for surgery in general surgery, visceral surgery, urological surgery or cardiac surgery) and also personalized with respect to the surgeon. EP 1337194 B1 describes a method for operating an instrument for HF surgery, wherein operating data of the device, for. B. an RF generator, detected at least during a first use of the device connected to the device, sent to a memory device connected to the instrument and stored. Upon reuse or inspection of the instrument, this operational data is sent to a data acquisition device and the device is set in accordance with the operational data collected during the first use such that the instrument is operable as in the first use. WO 2015/063444 A1 describes a method for controlling an electrosurgical HF device and a correspondingly controlled HF device with an associated electrosurgical instrument. The RF generator is initially in a locked state in which its activation is not possible. After an activation of the RF generator by the user, in which an application to be performed is to be selected, the HF generator is unlocked; this is how it should be ensured that before the activation of the RF device the respectively required device setting is made correctly.

Although the aforementioned methods make it possible to set operating parameters ("operating data" according to EP 1337194 B1) on or by an HF generator in accordance with the procedure to be performed, eg in general or visceral surgery, and / or according to the preferred settings of one Operators, for example, can record device uptime, operating date or set voltage, "current waveform", and auxiliary device usage, but no intraoperative activation data is collected, which can be saved for later use, such as: For example, the activation profile of the RF generator may be activated by an activation switch (usually a footswitch) during a particular operation, but activation in the interval of the activation switch may place a high physical strain on the foot and leg muscles of the operating unit, depending on the operation being performed rateurs. In addition, there may be unwanted false activations, which is possible in particular at intervals with high frequencies. Such stresses and possible false activations are not avoided by a simple acquisition of the operating data and a presetting to be carried out according to an operation according to the known from the prior art method for controlling / activating surgical RF generators.

The object of the present invention was to provide a method for controlling a surgical HF generator for the delivery of high-frequency current to at least one output thereof, which does not have the disadvantages of the prior art.

Description of the invention

In a first aspect, the invention relates to a method of controlling a surgical RF generator for delivering high frequency current to at least one output of the RF generator. It comprises the following steps: reading the activation of an interval detection, followed by the detection of an interval operation of a switching means. Thereafter, a retrievable output profile from the detected interval operation is created and the retrievability of the created output profile for output to the at least one output of the RF generator signaled. It follows the reading of an operation of the switching means for triggering the output of the created output profile, and the output of the generated output profile to the at least one output of the HF generator.

The detection of an interval actuation of a switching means requires that at least one interval be detected by a corresponding evaluation means; So it is at least two operations of the switching means (two switching signals) necessary. A switching means is understood to be a component which allows the activation of the surgical HF generator for the delivery of high-frequency current at at least one output thereof. Preferably, the switching means is a mechanically actuated, electrical component, for. As a connected to the RF generator in the usual manner switch, such as a footswitch. According to the invention, an evaluation means is understood to mean a device which is designed in particular for processing data on the time sequence of switching signals. The beginning or the end, so the period of detection of the interval operation of the switching means can be defined in a variety of ways, eg. B. indicated by the user, for example, via a specific operation of the switching means, such as a double or triple actuation. By means of such a signal sequence, the beginning and end of the detection of the interval operation of the switching means can be defined in a simple manner. Alternatively, the activation or deactivation of the interval detection can take place on the control module of the HF generator. In a further realization possibility, the detection period can be e.g. also be preset on the device. The detection of the end of the interval operation of the switching means can also be done by the evaluation. This may e.g. determine the time distance to the last switching signal: upon reaching a predetermined limit value (for example, a rest period of 20 seconds), the detection of the interval operation is ended. The evaluation means may for example also determine the deviation of the hypothetical time difference between the last given and the yet to be given switching signal from the mean of the preceding intervals; upon reaching a predetermined threshold (e.g., 30% longer interval), the detection of the interval operation is terminated.

The creation of a retrievable output profile from the detected interval operation is performed by a control module. A control module according to the invention is a control circuit formed as a module, wherein in the module all control-technically relevant functions, as well as the operating and display elements including their mechanical and optical functional elements are integrated. After signaling the retrievability of the created output profile for output to the at least one output of the RF generator by signaling means, the control module causes the Output of the output profile when the switching means is pressed again. By means of the signaling means according to the invention, the display of the retrievability of the output profile can be carried out, for example, via an acoustic, optical or tactile signal. The actuation of the switching means may be designed such that a certain sequence of switching signals (eg a double or triple actuation) triggers the step of outputting the output profile produced to the at least one output of the RF generator; At the same time, the output of the generated output profile can be terminated or interrupted accordingly via such a switching sequence.

In accordance with the created profile, high-frequency current is emitted in the interval at the at least one HF generator output, for example to one or more supply lines to a surgical instrument.

The method according to the invention makes it possible to detect an interval actuation of a switching means, for example a footswitch, caused by the surgeon. The detected operation in the interval on which the output pattern is based, the surgeon can retrieve by simply pressing the switching means, so that the surgical RF generator is activated at the desired interval. This is particularly advantageous at high activation frequencies of the RF generator, as this significantly reduces the physical load on the foot and leg muscles and avoids false activations.

In a preferred embodiment of the method according to the invention, the period of detection of the interval actuation can be adjusted by means of a pushbutton, i. The activation or deactivation of the interval detection can be carried out via an additional pushbutton, for example directly on the control module of the HF generator. This key can be pressed at the beginning of the interval detection to activate the interval detection; accordingly, it can be pressed at the end of the interval operation to signal the end of the detection. Advantageously, the so-formed activation or deactivation of the interval detection is particularly easy to use and technically easy to implement.

In a preferred embodiment of the method according to the invention, the interval operation may comprise 2 to 50 switching signals of the switching means, which are detected in step (b). Preferably, an evaluation means can determine the period of the detection of the interval operation. A switching signal is a signal caused by the mechanical actuation of the switching means. Preferably, it is an electrical signal. It can be detected 2 to 50 switching signals of the switching means, especially preferably 5 to 30 switching signals of the switching means, particularly preferably 8 to 20 switching signals of the switching means.

The detection of switching signals to the extent mentioned allows the creation of a variety of different output profiles for use in a wide variety of operational areas. The use of the automatic determination of the period of detection of the interval operation of the switching means by an evaluation means also allows an even more convenient application of the method according to the invention by the surgeon.

In a further embodiment of the method according to the invention, a continuous actuation of the switching means can be read when reading the operation of the switching means to trigger the output of the output profile created. Thus, the output of high-frequency current at the at least one output of the RF generator is possible even after the output of the generated output profile. Reading a continuous operation of the switching means allows the output of the output profile produced to the at least one output of the RF generator to be triggered by the user, such as an operator, in a simple manner, so that the user does not have to remember more complicated triggering signals. Advantageously, the continuous actuation mode for triggering the output of the created output profile at the RF generator can be preset.

In a preferred embodiment of the method according to the invention, the output of the actuation of the switching means for triggering the output of the created output profile, the output of high-frequency current from the at least one RF generator output can be terminated at the end of reading. Advantageously, by simply "releasing" the switching means, for example, by terminating actuation of the footswitch, the surgeon can individually control when the delivery of high frequency current is terminated, for example, after the (pre-) determined period of output of the output profile described above, continuously continue the output of high-frequency current from the output of the RF generator for a self-selected period of time, should the operation procedure require it, Moreover, the output of the output profile can be interrupted during its execution by the operation of the switching means, such as a footswitch The output of high frequency current from the at least one output of the RF generator can thus be controlled in a simple and user-friendly manner. In a further embodiment of the method according to the invention, the retrievable output profile can be stored in an additional step. The storage allows a simple retrieval of the retrievable output profile, for example at the beginning of an operation, but also in the event that the repetition of an operation step is required during an operation and a stored output profile for this operation step is present. Advantageously, the output profile can be stored after the output of the created output profile to the at least one output of the RF generator. In this way, it is possible, for example, to perform the detection of the interval operation and thus the creation of the output profile before the operation, and to save the created output profile only if it has proven to be advantageous during intraoperative use (after a single pass). If the retrievable output profile is not stored, upon renewed actuation of the switching means, the output of the last generated output profile to the at least one output of the RF generator by the control module.

In a preferred development of the method according to the invention, the step of outputting the generated output profile to the at least one output of the HF generator can be repeated periodically, preferably 1 to 50 times, more preferably 3 to 30 times, even more preferably 5 to 10 times. A periodic repetition of the output profile is understood to be a repetition of the complete profile at equal intervals. The repetition of the step is particularly advantageous for output profiles comprising a small number of intervals (eg, 2-3) of only a small amount of time (eg, 1 -2 sec). Here, the surgeon can cause the repeated output of the output profile created to the at least one output of the RF generator by reading the operation of the switching means once. Preferably, a repeatability of the output profile on the device is set in advance, for example, limited to a certain number of repetitions.

Advantageously, it is also possible to store several different output profiles in parallel or sequentially, which are individually retrievable depending on the operation. In this way it is also possible to save individual output profiles of the respective surgeon.

In a further embodiment, the invention relates to a method for controlling an HF generator by means of a stored, retrievable output profile, which was created according to the inventive method described above. It includes the steps of calling the stored retrievable output profile, reading in a Actuating the switching means to trigger the output of the created output profile, and outputting the stored output profile to at least one RF generator output. Advantageously, in this way a preferred output profile to be used for a particular operational method can be called up and output in a simple manner.

In a preferred embodiment of this method according to the invention, a continuous actuation of the switching means can be read in order to trigger the output of the created output profile; In addition, at the end of the actuation of the switching means, the delivery of high frequency current from the at least one RF generator output can be terminated. The output of a stored output profile can thus easily be terminated by the user, such as a surgeon, and ended individually, for example, according to the operational requirements. For example, after the execution of the output profile, the continuous output of high-frequency current may be required (output until the completion of the operation of the switching means). Optionally, the output of the output profile can also be interrupted by simply releasing the switching means.

 In another embodiment, this method may additionally include the step of storing the retrieved output profile. Advantageously, for example, the sequence of applications of the called output profile can be detected.

In a further implementation of this method according to the invention, the output of the stored output profile can be repeated periodically at at least one HF generator output, preferably 1 to 50 times, more preferably 3 to 30 times, even more preferably 5 to 10 times. The repetition of the step is, as stated above, particularly advantageous in output profiles comprising a small number of intervals of only a short period of time, since the operator repeats the output profile generated to the at least one output of the RF generator by reading in once the actuation of the switching means can cause.

 In an advantageous development of the method according to the invention, the at least one output of the HF generator can be connected to at least one surgical instrument. The surgical instrument can be, for example, an electrode, such. B. a sliding electrode for the vaporization and / or coagulation of tissue, a cutting tool, a gripping tool, a sewing tool act.

In another aspect, the invention relates to a surgical RF generator by means of which the method described above can be carried out. The HF Generator includes a control module, signaling means, at least one output of the RF generator for the delivery of high-frequency current and at least one switching means. The control module comprises an activatable interval detection, wherein the interval detection is designed as an evaluation means, which is adapted to detect an interval operation of the switching means. The control module is in turn adapted to create a retrievable output profile from the detected interval operation. The retrievability of the generated output profile for output at the at least one output of the HF generator is signaled by means of the signaling means configured for this purpose. The control module is further adapted to control the output of the created output profile to the at least one output of the RF generator upon signaling the retrievability of the output profile by the signaling means and upon actuation of the switching means to trigger the output of the created output profile. According to the invention, a control module is understood as a control circuit designed as a module, wherein all the control-relevant functions and all operating and display elements, including their mechanical and optical functional elements, are integrated in the module

Advantageously, the interval detection on the control module can be switched, i. be activated or deactivated, for example via a switch. The RF generator constructed in this way allows the execution of the method according to the invention by means of conventional components. A switching means is understood to mean a component which allows the activation of the surgical HF generator for the delivery of high-frequency current to at least one output thereof. A signaling means according to the invention signals the retrievability of the created output profile by means of an acoustic and / or optical signal.

In a preferred refinement, the HF generator additionally comprises a user interface adapted for displaying the interval actuation and / or the retrievable output profile. The user interface can be embodied, for example, in the form of an interactive display, by means of which advantageously the selection of already stored output profiles or the specific storage of created output profiles (for example, after surgical procedure and / or after operator) can be carried out.

In a further embodiment of the HF generator according to the invention, the switching means can be designed as a footswitch. By means of such a switching means formed a variety of interval operations in a simple manner be carried out without obstructing or interfering with the operator in his activity in the surgical field. Alternatively, a hand switch may be formed on the at least one surgical instrument connected to the at least one output of the HF generator.

Brief description of the figures

Hereinafter, by way of example and not limitation, certain particular embodiments of the invention will be described with reference to the accompanying drawings. The particular embodiments are merely illustrative of the general inventive concept, but do not limit the invention.

FIG. 1 shows a flow chart of the method according to the invention in general form.

Figure 2 shows a flow chart of the method according to the invention, wherein the actuation of the switching means for triggering the output of the created output profile is carried out continuously.

FIG. 3 shows an overview of the individual components included in the HF generator and the switching means for carrying out the method according to the invention.

Preferred embodiment of the invention

FIG. 1 shows a flow chart of the method according to the invention in general form. After the start of an RF generator adapted to carry out an interval detection method, the interval detection can be activated, followed by the detection of an interval operation of a switching means (if reading: activation of the interval detection: "yes") In accordance with an embodiment of the method, a corresponding evaluation means must be able to detect at least one interval, ie, at least two actuations of the switching means are required Interval actuation of the switching means by the evaluation means takes place in a defined period of time, the start or the end of this period being indexed by the user, for example, but can also be predetermined by the user can be specified by pressing a pushbutton. After completion of the detection of the interval operation An output profile is generated from the actuation intervals. This output profile is the time profile of the high-frequency current to be output at at least one output of the HF generator. The retrievability of the generated output profile is signaled by signaling means; For example, they can emit an optical or acoustic signal. If a renewed actuation of the switching means is read in, a control module triggers the output of the output profile to the at least one output of the HF generator. The switching means can be actuated in any way; For example, the output of the output profile can be triggered by simple, double or triple actuation. After outputting the output profile, the output of high-frequency current is terminated at the at least one output of the HF generator. The user, for. As an operator, can now save the output profile. If no storage is activated and also no further actuation of the switching means is read in, the procedure is ended. If, however, the switching means is actuated a second time (reading: actuation of the switching means: "yes"), the output profile produced last is reissued.The end of the period of output of the output profile terminates the emission of high-frequency current, which is preferably at least operable a surgical instrument connected to the at least one output of the RF generator, for example a bipolar electrode or a surgical vaporisation electrode.

With appropriate presetting, the output of the output profile can also be repeated. This is particularly advantageous for short output profiles, which include only a few intervals.

If the interval detection is not activated after the system is started, an output profile is retrieved. This can advantageously be selected depending on the surgical procedure and / or on the surgeon. After the operation of the switching means has been read in, the respectively selected output profile is output and, after the end of the output, the emission of high-frequency current is terminated, as described above. The output of the output profile can also be repeated periodically in this process, preferably in the range of 1 to 50 times, more preferably 3 to 30 times, even more preferably 5 to 10 times. Again, the output profile can be saved after this step; This may be advantageous, for example, if an output profile is to be used in another operative method and / or for another operator. The method of controlling an RF generator described above in a general form enables the simple recording, storage and output of activation protocols, so that the delivery of high-frequency current through an HF generator is possible. Generator can be adapted to a variety of surgical procedures. The surgeon can conveniently select those output profiles that have proven to be beneficial prior to surgery and retrieve them intraoperatively. The physical loads of the surgeon associated with the activation of the switching means in the interval, in particular at high interval frequencies, and unwanted false activations are avoided with the method according to the invention.

FIG. 2 shows a flow diagram of the method according to the invention, in which the actuation of the switching means for triggering the output of the output profile produced takes place continuously. The first steps of the method, which include the activation of the interval detection, the detection of the interval operation of the switching means, the creation of the output profile and the signaling of the retrievability of the output profile, are identical to the flowchart shown in FIG. After signaling the retrievability of the output of the output profile to the at least one output of the RF generator is triggered by a continuous actuation of the switching means. The delivery of high-frequency current is possible in this configuration, even after the output of the created output profile output to the at least one output of the RF generator; This may be advantageous, for example, in a vaporization electrode connected as a surgical instrument, in which, after passing through a defined output profile for igniting the electrode, the ignited plasma must be permanently maintained for coagulation and vaporization. The cessation of high frequency current delivery is triggered by the setting of the actuation of the switching means, ie, for example, by simply "releasing" a switching means, such as by stopping actuation of the footswitch and the delivery of high-frequency current to the at least one output of the HF generator can be ended. If the switching means is operated continuously again (read-in: actuation of the switching means: "yes"), the output profile can be output again.

Also in this method, the output of the output profile can be repeated with appropriate default. This is particularly advantageous for short output profiles, which include only a few intervals. With the end of the operation of the switching means in this case, the repetition of the output of the output profile is stopped, the delivery of high-frequency current is terminated. FIG. 3 shows an overview of the individual components comprised by the HF generator (1) and the switching means (2) for carrying out the method according to the invention. The switching means (2), preferably a mechanically actuated foot switch, is connected directly to the control module of the HF generator (1), which also comprises the evaluation means for detecting the interval operation of the switching means. The production of the output profile from the detected interval operation takes place in the control module, which enables the output of high-frequency current in accordance with the generated output profile at the RF output of the HF generator (1). Also connected to the control module is preferably a user interface, for example an interactive display. The user interface can be used to retrieve stored output profiles or to save created output profiles and to integrate them with the operating procedure data and / or user / operator information.

LIST OF REFERENCE NUMBERS

(1) RF generator

(2) switching means

Claims

claims

A method of controlling a surgical RF generator for delivery of

 High frequency current at at least one output of the RF generator, comprising the steps

 (a) reading the activation of an interval detection,

 (b) detecting an interval operation of a switching means,

 (c) creating a retrievable output profile from the detected interval operation,

 (d) signaling the retrievability of the generated output profile for output to the at least one output of the HF generator,

 (e) reading an operation of the switching means to trigger the output of the created output profile, and

 (f) output of the created output profile to the at least one output of the HF generator.

2. The method according to claim 1, wherein a period of detection of the interval operation is set by means of a push button.

3. The method according to any one of claims 1 or 2, wherein the interval operation in step (b) comprises 2 to 50 switching signals of the switching means,.

4. The method according to any one of the preceding claims, wherein in step (e) a continuous actuation of the switching means is read.

5. The method according to claim 4, wherein at the end of the actuation of the switching means in step (e) the delivery of high frequency current from the at least one RF generator output is terminated.

6. The method according to any one of the preceding claims, additionally comprising the additional step

(g) storing the retrievable output profile.

A process according to any one of the preceding claims, wherein step (f) is repeated periodically, preferably 1 to 50 times, more preferably 3 to 30 times, even more preferably e to 10 times.

8. A method for controlling a surgical RF generator by means of a

 stored, retrievable output profile according to the method of one of claims 1 to 5, comprising the steps

 (a) 'recalling the stored retrievable output profile,

 (b) reading an operation of the switching means to trigger the output of the created output profile, and

 (c) 'output the stored output profile to at least one RF

Generator output.

9. The method of claim 8, wherein in step (b) 'a continuous actuation of the switching means is read, and terminating the termination of the actuation of the switching means in step (b) ^' the delivery of high-frequency current from the at least one RF generator output becomes.

10. The method according to any one of claims 8 or 9 additionally comprising the step

(d) 'Save the retrieved output profile.

1 1. A method according to any one of claims 8 to 10, wherein step (c) 'is repeated periodically, preferably 1 to 50 times, more preferably 3 to 30 times, even more preferably 5 to 10 times.

12. The method according to any one of the preceding claims, wherein the at least one output of the RF generator is connected to at least one surgical instrument.

13. Surgical RF generator, adapted for carrying out the method according to

 one of claims 1 to 12, comprising a control module, signaling means, at least one output of the RF generator for the delivery of

High-frequency current and at least one switching means, characterized in that the control module comprises an activatable interval detection, wherein the interval detection is designed as an evaluation means which is adapted to detect an interval operation of the switching means, wherein the control module is adapted to generate a retrievable output profile from the detected interval operation,

 wherein the signaling means are adapted to signal the retrievability of the created output profile for output to the at least one output of the RF generator,

 wherein the control module is further adapted to control the output of the created output profile to the at least one output of the RF generator upon signaling the retrievability of the output profile by the signaling means and upon actuation of the switching means to trigger the output of the created output profile.

14. RF generator according to claim 13, additionally comprising a user interface adapted for displaying the interval operation and / or the retrievable

 Output profile.

15. HF generator according to one of claims 13 or 14, wherein the switching means is designed as a footswitch.