DE3338758A1 - Device for the perfusion of liquids in body cavities - Google Patents

Abstract

In a device for the perfusion of liquids in body cavities, especially for use in surgical arthroscopy, a roller pump 14 provided with a set pressure generator 19 and a perfusion quantity regulator 18 and an actual pressure pick-up 15 are located on a perfusion pipe 23, 24, 25, and furthermore an electronic measurement and regulating device 26 having a pressure display 2 is interposed between the set pressure generator 19 and the actual pressure pick-up 15. As a result, the pressure load on the body cavity, especially a knee joint 21, can be kept constant, the perfusion volume remaining unchanged. <IMAGE>

Description

Device for the perfusion of fluids in body cavities. The invention relates to a device for perfusing fluids in body cavities According to the preamble of claim 1, such devices are in particular used in operative arthroscopy and urology. In the operational Arthroscopy uses a reservoir that is specifically made with a saline solution is filled, connected via the perfusion tube to an arthroscope, via which the fluid is introduced into a knee joint on which an operation is by means of a cartilage cutter inserted through the arthroscope. The peeled cartilage material is removed together with the perfusion fluid that has been introduced sucked off. In the known device, the amount of liquid supplied to the knee joint is and also the liquid pressure only depends on the height difference between the fluid reservoir and the operating area in the knee joint. As a result, there is a risk of a discharge if the amount of liquid is too low of the peeled cartilage material is not ensured. This can be dangerous If, on the other hand, the fluid reservoir leads to inflammation of the knee is hung high and the body cavity in the knee joint is therefore relatively high Exposure to fluid pressure can cause irreversible swellings in the knee joint take place.

The invention is therefore based on the object of a device for the perfusion of fluids in body cavities, in particular for use in the operative arthroscopy, with which both an exact dosage the amount of liquid supplied as well as an exact setting of the liquid pressure in the operating area.

The solution to this problem results from the characteristic features of claim 1. According to the invention, the amount and the pressure of the perfusion tube liquid flowing through is regulated by means of the pump and the current The pressure of the fluid in the body cavity is measured by means of the actual value pressure transducer. The actual value corresponds to the setpoint of the working pressure set for the pump constantly compared in the evaluation electronics with amplifier As soon as the pressure in the When the body cavity reaches the preselected working pressure, the evaluation electronics are interrupted the further perfusion. The body cavity is thereby at most up to the preselected The setpoint of the working pressure is applied, so that the device according to the invention prevents the maximum allowable pressure in the body cavity from being exceeded . Due to the precise controllability of the working pressure of the fluid in the body cavity an irreversible overstretching, here of the knee joint, is prevented. The volume flow the liquid is kept constant in the desired size while the pump is running This ensures that a constant amount of liquid flows through continuously the body cavity flows, so that, for example, during surgical arthroscopy, there is a discharge of the peeled off Cartilage material is ensured. In the end the constant flow of liquid also provides a clear view for the Surgeon who examines the body cavity, e.g. using a video camera on a screen monitored A preferred embodiment of the device used according to the invention Pump results from the features of dependent claims 2 and 3. The invention is below on the basis of an exemplary embodiment shown in the drawings a device for the perfusion of fluids in body cavities during surgery Arthroscopy of a knee joint explained in more detail. 1 shows an arrangement of the device in a perspective view and FIG. 2 is a functional diagram of the Contraption.

The device shown in the figures is used for the perfusion of Fluids in a knee joint 20 during an operative arthroscopy in which the fluid is introduced into the knee joint using an S21 arthroscope. In a manner not shown in detail, a cartilage milling cutter can pass through the arthroscope 21 be introduced, which at the same time has a suction line for the cartilage material having provided liquid. Furthermore, in a manner not shown by means of a video camera the interior of the knee joint for the surgeon on a screen shown.

The arthroscope 21 receives the liquid from a storage container 22 via a perfusion tube 23, 24, 25, on which in the flow direction the liquid, a pump 14 and a pressure transducer 15 are arranged. This is adjustably attached to a stand 17 by means of a bracket 16.

As FIG. 2 shows, the pump 14 is provided with a perfusion flow regulator 18 with a control button 7 and with a setpoint pressure transmitter 19 with a control button 1 electrically connected. Between the setpoint pressure transducer 19 and the actual value pressure transducer 15, evaluation electronics 26 with an amplifier and with a pressure indicator 2 are switched on As FIG. 1 shows, a housing 27 for the device is in the end plate the control button 1 for the setpoint pressure transmitter 19, the digital pressure display 2, a Adjustment 3 for the digital pressure display 2, a power switch 4, an on / off switch 5 for the pump 14, a control lamp 6 for the pump 14, the control button 7 for the Perfusion volume regulator 18, a connection socket 8 for a connecting cable 9 to Actual value pressure transducer 15 and the pump 14 are arranged.

The evaluation electronics 26 with amplifier is together with other electrical and electronic components not shown in detail, in particular the speed-stabilized electric drive motor for the pump 14 within of the housing 27 is arranged.

The pump 14 is designed as a roller wheel pump, the roller wheel 13 is approximately semicircular surrounded by a roll bar 12, against which the rollers 28 of the roller wheel 13, the perfusion tube 23, 24 for effecting the pumping movement to press. The roll bar 12 is on two at a distance from one another and parallel to one another located guide rods 29, 30 and can be moved from its in the figures working position shown against the action of spring elements that are not in are arranged in more detail within the guide rods 29,30, in be moved to a rest position.

For this purpose, an unlocking button 11 must be depressed, which a spring-loaded locking lever 31 releases. Bringing the roll-off bar 12 from its rest position to its working position is through a pressure on the Locking button 10 against the action of the spring elements, not shown possible.

By means of the device shown and described, the liquid from the reservoir 22 through the perfusion hose line 23,24 and 25 to Arthroscope 21 and thus pumped into the body cavity of the knee joint 20.

The perfusion tube 23, 24 lies in the area of the roller wheel pump 14 between the roller wheel 13 and an approximately semicircular curve of the roll bar 12 and is by means of the rollers 28 of the roller wheel 13 against the roll bar 12 for Achieving a pumping action depressed. The amount of perfusion can be adjusted using the rotary knob 7 can be set on the perfusion volume regulator 18. The setpoint of the working pressure the liquid can be adjusted by means of the rotary knob 1 on the setpoint pressure transmitter 19 will. The drive motor of the roller pump 14 is electronically speed-stabilized, so that the preselected speed is retained even with increasing pressure. Of the Actual value of the working pressure of the fluid within the body cavity in the knee joint 20 is determined by means of the pressure sensor 15. As long as the one on the pressure transducer 15 measured actual value does not reach the setpoint set on pressure transmitter 19, pump 14 runs. As soon as the actual value of the pressure reaches the setpoint value, the pump 14 is switched off. As a result, the Pressurization of the body cavity in the knee 20 is constant. The amount of perfusion of the The liquid itself is kept constant by the perfusion regulator 18, as long as the pump 1-4 is running In the perfusion tube 23,24 is in the direction of flow Immediately behind the pump 14 is a tube piece 31 made of two nested Hoses 32,33 are used, which are airtight at both ends are connected and form an air cushion around the inner thin tube 32 . The tube piece 31 thus forms a damping element for the perfusion tube 23,24, in that when the pump 14 is switched on, first the air pocket in the hose piece 31 must be built up, which is dismantled again when the pump 14 is switched off , whereby the system pressure in the perfusion tube is slowly reduced As it shows the Fig. 2, the actual value pressure transducer 15 must be at the same level as the Knee joint 20 are set (dash-dotted line), so that the actual value pressure transducer 15 actually also measures the current pressure in the body cavity of the knee joint 20.

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Claims (4)

Claims' 1. / device for the perfusion of liquids in Body cavities, in particular for use in operative arthroscopy, with a Perfusion tube for connecting a liquid storage container to a medical instrument, in particular arthroscope, for introducing the liquid into the body cavity, it is not indicated that on the perfusion tube (23,24,25) in the direction of flow of the liquid one with a setpoint pressure transmitter (19) and a perfusion regulator (18) provided pump (14) and an actual value Pressure sensors (15) are arranged and that evaluation electronics (26) with amplifier and with a pressure indicator (2) between the setpoint pressure transmitter (19) and the actual value Pressure sensor (15) is switched on. 2. Apparatus according to claim 1, characterized in that the pump (14) is designed as a roller wheel pump, the roller wheel (13) of which is approximately semicircular is surrounded by a roll bar (12) against which the rollers (28) of the roller wheel t13) press the perfusion tube (23,24) to effect the pumping movement, and that the roll bar (12) on two im Distance from each other and parallel mutually located guide rods (29,30) from a working position into a Rest position is movable. 3. Apparatus according to claim 2, characterized in that the roll bar (12) can be locked in its working position against the action of spring assemblies. 4. Device according to one of the preceding claims, characterized that in the perfusion tube (23,24) a tube piece (31) made of two one inside the other arranged hoses (32,33) is used, which are airtight at both ends connected to each other and an air cushion around the inner thin tube (32) make up around