DE10156558A1 - Implantable system opening and closing tubular organ has control system reverting automatically to first state - Google Patents

Abstract

The closure is operated by a control system which sets its first state and automatically returns a departure from the first state to the first state. Independent claims are included for the method of opening and closure and an automatic electronic control system for an artificial sphincter implant with sensor system.

Description

The following invention relates to a closure system and a suitable one Method for selectively opening and closing a tubular Body organ.

DE 43 31 658 describes an implantable device for optional opening and closing of tubular body organs known, one in the tubular body organ insertable elongated valve body is provided. The Valve body has a shut-off device, which is optionally closed and can be released. For this purpose, the valve body has an elastic one Hose section in which an inflatable body is arranged, which by a fluid is inflatable and then closes the lumen of the tube section. Both that Opening and closing is done by manual handling, i. H. the The inflatable body is inflated by manually actuating a pump and opening is done by manually operating a switch. Basically, however, in the known system, care must be taken that the inflatable body is not inflated to such an extent that, on the one hand, the body organ in a row frequent opening and closing also increases and expands, and secondly, the pressure generated by the inflatable body, the blood flow to the Would prevent the body organ and thus the tissue of the body organ would die. These requirements therefore require that the closure of the Body organ with the known system only within a limited Pressure range is possible, however, resulting pressure peaks or briefly occurring pressure loads or increases in the body organ, a cannot ensure secure closure of the body organ, as the known System is not suitable for short-term tracking.

The object of the present invention is therefore the known Locking system or the known method for optionally opening and closing a to develop tubular body organ in such a way that in the to be closed Pressure increases occurring in the body organ are briefly counteracted and a risk of necrosis is almost impossible.

Another object of the present invention is to provide a locking system that ensures continence at all times.

In terms of device technology, the tasks are solved with the features of Claim 1 and procedural with the features of claim 9.

According to the application, the closure system or the application system Method for selectively opening and closing a tubular Body organ providing a closing element and the closing element controlling control system, wherein the control system a first State of the locking system and a deviation from the first Self-regulating state returns to the first state. With this measure according to the application is achieved that when pressure peaks occur coughing, sneezing, laughing or stooping can perform the required tasks of the locking system. With this Measure according to the application can be, for example, if the locking system at the urethra is placed, a sphincter replacement system is provided be, which the function of the external sphincter of the urethra adult people replaced. The locking system according to the application can thus be used as an implantable adaptive fine sensory sphincter Replacement system can be used. Because only for a short time Pressure peaks a first state of the control system is left, the Necrosis risk reduced or necrosis symptoms can be prevented. With the closure system according to the application is thus avoided that a constant high closing pressure acts on the body organ or the urethra, which causes the surrounding tissue of the body organ to necrosis or Inflammation. Since the locking system according to the application simply designed self-regulation is also the implantation in the human body harmless. It is also possible to micturition manually controlled by this easy-to-use locking system, including the control of the locking system automatically by tapping the neurological signals directly to the nerve tract of the body organ in the case of Urethra the sphincter urethrer is possible with the help of an artificial synapsis. With the locking system according to the application, it is also possible that low energy consumption due to the simplicity of the locking system is kept and thus a long life is given. With the the patient receives the locking system according to the registration by securing his continence with this implant returned a great deal of quality of life and due to the fact that the system is maintenance-free, it is not within its scope limited.

Further advantageous configurations of the present invention are Subject of the subclaims.

Is the control system with the closing element according to claim 2 as designed closed circuit, so is a separate feed of the Transmission medium, such as hydraulic fluid is not required.

With the features set out in claim 3, the self-regulating Locking system implemented in a simple manner, so that the locking system as such is easy to implant and uses little energy having. Self-regulation is particularly due to the mutual opening and closing the shut-off valves reached. At this point, however, should be on be noted that also in place of the pumping device and first Shut-off valve also a quick-switching pump or quick-switching actuator can be used.

In order to be able to adjust self-regulation as best as possible depending on the body organ, d. H. the closing pressure is kept at a certain threshold and in this regard, an appropriate working pressure can be set, so are Different sensor elements are provided that are positioned appropriately optimally brings about the self-regulating measure.

Other advantageous embodiments are the subject of the rest Dependent claims.

A preferred embodiment of the Subject of registration are described.

In Fig. 1 the closure system is shown, which in this case optionally opens and closes a urethra as a body organ. In the closure system according to the application, the urethra has a closing element 1 , which in this embodiment can be controlled hydraulically. On this occasion it is pointed out that any other control is also conceivable. A control system 3 , in this case hydraulically, can be connected to the closing element 1 . The control system 3 serves to set a first state of the closure system, for example a closed state of the closing element 1 . For this purpose, the control system 3 in the hydraulic version has a first reservoir 5 in order to build up a certain pressure, so-called closing pressure, on the closing element 1 via a pump device 7 . The connecting line arriving at the closing element is divided into a first feed line Z1 and a second feed line Z2, the first feed line having the pump device 7 and preferably a first shut-off valve V1 and the second feed line having a second shut-off valve V2, both the first feed line and the second feed line is also connected to the first reservoir 5 . Conventionally, the closure system according to the application can also be used only as a device for selectively opening and closing a body organ, in this case the urethra. To operate the optional opening and closing, it is advantageous if the pump device 7 , the first shut-off valve V1 and the second shut-off valve V2 are connected to a control unit 11 which takes over the conventional opening and closing of the closing element 1 . The closure system according to the application also has a first sensor unit S1, which is provided on the closing element 1 of the tubular body organ, preferably upstream, a second sensor unit S2, which measures the pressure in the connecting line, and a third sensor unit S3 on the pump device 7 . This enables a differential pressure measurement.

The locking system according to the application now works according to the following Operating principle.

The pump device 7 uses a reservoir from the reservoir 5 and generates a closing pressure on the closing element 1 , which is selected such that the closing pressure seals the body organ via the closing element, but does not impair the blood flow to the body organ. The closing pressure corresponds to a pressure range that is influenced by different parameters, such as. B. body organ, vessel thickness, blood flow, etc. is dependent.

In the event of a brief increase in pressure in the body organ, for example in the urethra in the bladder due to coughing, sneezing, laughing or any other exertion, the closing pressure is insufficient and the flow in the body organ would take place briefly. In this case, it is advantageous if the closing pressure also increases briefly in order to maintain the tightness of the body organ. However, the short-term increase in the closing pressure caused by the closure system according to the application does not lead to necrosis, ie the blood flow to the body organ is only briefly influenced and is therefore not harmful to the body organ. In order to maintain this mechanism, it is necessary for the control system 3 to have different pressure ranges. In the embodiment shown in FIG. 1, the pump device 7 , which is designed, for example, as a fast-switching pump or also as a fast actuator, generates the required closing pressure via the first shut-off valve V1. To do this, the second shut-off valve V2 must be closed. When the closing pressure is reached, the first shut-off valve V1 is closed, the pump device 7 building up to the first shut-off valve V1 a working pressure that is higher than the closing pressure. If the flow through the body organ is to be carried out with the closing element, then only the second shut-off valve V2 has to be opened in order to reduce the closing pressure via the reservoir 5 . If, however, pressure peaks or briefly lasting pressure loads occur upstream of the closing element 1 , they are registered or detected with the sensor device S1 and passed on to the control unit 11 . The control unit 11 opens the first shut-off valve V1 almost simultaneously, so that the increased working pressure acts on the closing element 1 and thus ensures for a short time that the body organ is also sealed from the pressure peaks. It is conceivable that, depending on the blood flow function of the body organ, the control unit 11 closes the first shut-off valve again after a time constant and opens the second shut-off valve in order to regulate down from the increased working pressure to the required closing pressure. At the same time or in the meantime, the pump device 7 can then again build up an increased working pressure which is present at the first working valve V1 and can thus prepare for a second process.

In this way, according to the application, the control system 3 is able, from a first state of the closure system, which is conventionally to be compared with the closure of the body organ via the closing element 1 via the optional opening, a self-regulating deviation from the first state to the first state traced. This measure ensures that the locking system fulfills the task placed on the locking system in every situation, including loads such as coughing or sneezing. Since the closing pressure is adapted to the pressure or bladder pressure in the urinary bladder upstream in the body organ by means of a fine sensor control, necrosis symptoms are prevented, which are normally caused by a constantly high closing pressure, which suppresses the blood flow to the body organ and thus causes long-term damage.

At this point it should be emphasized again that, as shown in FIG. 1, the pump device 7 can also be replaced by a normal pump in conjunction with a second reservoir R2 and a third shut-off valve V3. In this case, the working pressure, which is higher than the closing pressure, is achieved in that the pump acts on the reservoir R2 up to the required working pressure when the third shut-off valve is open, and then the third shut-off valve V3 is then closed. With this measure it is achieved that the use of a fast-switching pump is not necessary, since the short-term loading of the closing element 1 is applied to the closing element when pressure peaks occur above the working pressure built up in the second reservoir R2 by opening the first shut-off valve.

Basically, it should be noted that the sensor elements are not just are considered as pressure sensors, but also with capacitive or inductive sensors the pressure can be determined, as well Changes in volume can be measured using ultrasound or stretch marks, or a change in distance that occurs when the pressure increases, with light is measured.

Claims (11)

1. Locking system, preferably implantable locking system, for optional opening and closing of a tubular body organ consisting of a closing element and a closing element controlling control system, the control system being a first State of the locking system and a deviation from that leads the first state back to the first state in a self-regulating manner. 2. Locking system according to claim 1, wherein the control system with the Closing element represents a closed circuit. 3. Locking system according to one of claims 1 or 2, wherein the Control system a first reservoir and with a control unit in Connected sensor elements, and the Connection line from the closing element into a first feed line and divides a second feed line, the first feed line a pump device and a first shut-off valve and the second Supply line a second shutoff valve between the first reservoir and the closing element. 4. Closure system according to one of claims 1 to 3, wherein on Closing element a first sensor unit, between the first shut-off valve and the closing element a second sensor unit and on the Pump device a third sensor unit is provided as a sensor element is. 5. Closure system according to one of claims 1 to 4, wherein the Pump device is a fast-switching pump. 6. Closure system according to one of claims 1 to 5, wherein the Pump device is a feed pump that has a third shut-off valve is connected to a second reservoir. 7. Locking system according to claim 1, wherein the control system via a Fluidum controls the closing element. 8. Closure system according to one of claims 1 to 7, wherein the Sensor units are pressure sensors. 9. A method for selectively opening and closing a tubular body organ, in particular using the closure system according to one of claims 1 to 7, which comprises the steps: a) Providing a closing element for the tubular body organs and a control system b) setting a first state of a locking system by the control system c) Self-regulating return of the locking system to the first state in the event of a deviation from the first state. 10. The method of claim 9, wherein setting the first state by Providing a reservoir takes place from which a pump device pressure is applied to the closing element and by Closing a shut-off valve the pressure on the closing element is kept. 11. The method according to claim 9 or 10, wherein a pressure increase in tubular body organ is detected by a sensor unit and counteracted briefly by increasing the pressure on the closing element becomes.