DE202007002592U1 - Brain fluid sampling and measurement device has at least two housing parts that are used to form a sealed measurement chamber around which sensors are arranged - Google Patents

Abstract

Measurement device has a liquid chamber with at least two housing parts that are used to form a sealed closed inner space. A sensor arrangement is placed around the closed measurement chamber to take measurements on the enclosed fluid.

Description

The The invention relates to a measuring device for physiological Parameters with a brain fluid receiving, implantable fluid chamber, with one with the brain fluid in the liquid chamber over a Diaphragm-related sensor device, which is a sensor for one or more physiological parameters, electronic components and a telemetry device for wireless transmission of signals of the Includes sensors.

A such measuring device is described for example in WO 2006/117123 A1. such measuring devices become common outside of the skull bone and implanted below the scalp, partly immediately above one Borehole in the skull, partly next to such a borehole, through which brain fluid from the inside of the skull into the liquid chamber can occur. In the prior art measuring device, the liquid chamber formed as a double chamber through an intermediate wall in two Compartments is divided, one of the compartments takes the sensor device the other compartment is traversed by the brain fluid. In the Partition between the compartments is arranged through a membrane the pressure of the brain fluid is transmitted to a pressure sensor of the sensor device.

A such arrangement must be total prefabricated and must be hermetic be completed, so that in If a malfunction occurs, only a complete replacement is possible. Furthermore the production is complicated.

It The object of the invention is to design a generic measuring device in such a way that that the production is simplified and that if necessary repair work can be made without the entire measuring device to change.

These Task is at a measuring device of The type described above, according to the invention achieved in that the liquid chamber at least two housing parts which seals to form a closed interior attachable and those in the unassembled state have access to it allow the interior and that the Sensor device in a well-closed measuring chamber arranged as independent manageable component formed and in a defined position in the interior of the fluid chamber can be used.

By the formation of the measuring chamber as independent manageable component can this in the open interior of the fluid chamber be used and then in this in a defined position held. By connecting the at least two housing parts the liquid chamber is the liquid chamber then to the outside tightly closed, but can also be opened again if necessary is, so that the Taken out measuring chamber and, if necessary, can be replaced without this Replacement of the liquid chamber necessary is. This can also be a malfunction of the sensor device remain in their implanted position and after insertion of a new measuring chamber be reused.

Of the Surgeon also has the opportunity to measuring chamber only during to use the surgery when the difficult implantation of the liquid chamber is completed. This facilitates the operation and spares the sensitive sensor device during the operation.

Cheap is it if the interior is over at least an inflow with a probe is in communication with the brain fluid from a measuring point of the brain can flow into the interior. In addition, can be provided that the Interior has at least one drain for brain fluid. The liquid chamber is then part of a shunt system with which is known per se Way cerebral fluid removed from the brain is, for example, over a drain line in the abdomen.

at a preferred embodiment is provided that the liquid chamber a first housing part with a bottom and adjoining side walls and has a second housing part, which as sealing on the first housing part attachable lid is trained.

Especially it is advantageous if an area of the wall of the liquid chamber is flexible while the remaining Areas of the wall are rigid. That's the way it is possible, by impressions of the flexible wall area a pressure pulse on the brain fluid in the liquid chamber transferred to. This pressure pulse can act as a pump pulse and thus, for example impurities and blockages of the flow paths for cleaning to lead, but the pressure pulse can also be used to, for example To generate control signals of the sensor and thereby its functionality to check.

Especially For example, the flexible wall portion may be formed by a flexible membrane be, for example, a flexible membrane made of silicone.

Such training continues to have the Advantage that such a flexible membrane made of silicone or a similar material, a cannula can be introduced into the interior of the liquid chamber, can be removed with the samples of the liquid. In this way, even with implanted measuring device is possible to gain access through the scalp and through the flexible membrane access to the brain fluid.

According to one preferred embodiment the flexible diaphragm can be inserted into a sealing ring which together with the membrane a housing part formed, which with a second housing part to form the liquid chamber attachable is. This sealing ring can, for example, in the second housing part be screwed tight.

Especially in an embodiment with a flexible wall portion of the liquid chamber it is advantageous if the measuring chamber such in the liquid chamber is inserted that they on every side of brain fluid is surrounded. This makes the pumping possible with the help of the flexible Improved wall area, as well as directly to the flexible Wall area adjacent part of the interior of the brain fluid flows through becomes.

The measuring chamber is preferably made of metal, for example of titanium or a Titanium alloy, and it's convenient when the measuring chamber is rigid Has walls. It can the walls anyway relatively thin be, for example, the wall thickness is of the order of magnitude by a few tenths of a millimeter.

The liquid chamber can also be made from a biocompatible Consist of metal, for example of titanium or a titanium alloy, but it is also possible the liquid chamber to produce from a sterilizable plastic, for example made of polyetheretherketone. The use of plastic has the advantage that the Shielding effect for the telemetry device is omitted inside the measuring chamber, the given in a metallic formation of the liquid space and the transfer the signals difficult.

The following description of preferred embodiments of the invention used in conjunction with the drawings for further explanation. Show it:

1 a schematic sectional view through the skull of a patient with an implanted measuring device and an external evaluation device;

2 a schematic side view of a measuring device with an insertable into the brain probe and with a drainage line for the brain fluid in a usable over a hole in the skull ceiling measuring device;

3 a view similar 2 in an implantable next to a hole in the skullcap measuring device;

4 a sectional view of a closed fluid chamber without inserted measuring chamber;

5 a view similar 4 with inserted measuring chamber;

6 a longitudinal sectional view through a measuring chamber;

7 a sectional view of an empty and unlocked measuring chamber;

8th a perspective view of a sealed measuring chamber;

9 a longitudinal sectional view similar 5 a measuring device through which brain fluid flows;

10 a view similar 9 with the representation of the flow of the brain fluid when pressing a flexible wall area and

11 an exploded view of another preferred embodiment of a measuring device.

The measuring device shown in the drawing 1 is usually outside the skull bone 2 and below the scalp 3 over a borehole 4 or implanted near such a wellbore. Through the hole 4 passing through a probe 5 or a catheter inside the brain 6 and ends at an intake point 7 , on the brain fluid from the brain 6 into the probe 5 can occur. This brain fluid gets through the probe 5 the measuring device 1 fed so that in the measuring device 1 physiological values of the brain fluid can be measured, for example, the pressure of the brain fluid and / or the temperature.

The in this way in the measuring device 1 recorded measured values of the physiological parameters are transmitted wirelessly to an external evaluation device, which via a measuring line 9 with a coil 10 connected is. This coil 10 can be near the measuring device 1 be arranged so that they can wirelessly exchange signals with a corresponding coil of the measuring device. About these coils can also be the measuring device 1 be supplied with external energy.

The measuring device 1 supplied brain fluid can via a drainage line 11 be discharged, for example, ends such a drainage line in the abdominal cavity of the patient. The probe 5 , the measuring device 1 and the drainage line 11 thus form a shunt system, with the brain fluid can be removed from the skull.

When the measuring device 1 immediately above the borehole 4 is placed, then it is advantageous if the measuring device 1 one in the borehole on its underside 4 dipping head start 12 has and an adjoining connection 13 for example, via a flexible line 14 with the probe 5 can be connected ( 2 ) or to which the probe 5 immediately postponed ( 11 ).

If, however, the measuring device 1 next to a borehole 4 is arranged, it is advantageous if a borehole cover 14 is provided, which also has a projection on its underside 12 and a connection 13 carries and performs a deflection of the brain fluid parallel to the skull bone, so that the brain fluid via another line 15 laterally in the measuring device 1 entry ( 3 ).

The measuring device 1 includes a fluid chamber 16 with a can-shaped lower part 17 with a level bottom 18 and on the outside adjoining vertical walls 19 , Preferably, this can-shaped lower part 17 a circular cross-section. In the in the 4 and 5 illustrated embodiment, the bottom carries 18 a downward connection 13 for the inflow of cerebral fluid and a horizontal out of the wall 19 exiting outlet 20 for the drainage of cerebral fluid.

The can-shaped lower part 17 is open at the top and can there through a lid-shaped housing part 21 be sealed tightly. This cover-shaped housing part 21 includes a ring 22 , which is designed as a sealing ring and sealing against the wall 19 of the lower part 17 can be connected, for example by screwing or by gluing. In the ring 22 is sealed a hood-shaped flexible membrane 23 used, which preferably consists of silicone, while the ring 22 For example, may consist of polyetheretherketone. In the assembled state form the bottomed bottom part 17 and the lid-shaped housing part 21 a box-like liquid chamber with an interior 24 That's up to the connection 13 and the outlet 20 closed is. This interior 24 is traversed in the implanted state of the brain fluid and is completely filled by her. This is the flexible membrane 23 in the in 9 arched way outward.

By pressure on the membrane 23 This flexible membrane can be pushed inwards as in 10 is shown. As a result, the brain fluid from the interior 24 both over the outlet 20 as well as over the connection 13 from the liquid chamber 16 pushed out, ie there is a backwash the probe 5 and increased flushing of the drainage line 11 , This rinsing effect can be used to clean the corresponding lines, but it is also possible by this pressure on the flexible membrane 23 to transmit a pressure pulse to the brain fluid, which then from the measuring device 1 can be registered. As a result, the measuring device can be controlled in their function.

In the interior 24 is a completely sealed measuring chamber 25 used, which is also a can-shaped and circular in cross-section lower part 26 and one on this base 26 sealed lid 27 includes ( 7 ). This measuring chamber is preferably made of metal, in particular of titanium or a titanium alloy, the walls are rigid with the exception of a central region 28 on the ground 29 of the lower part 26 , In this area is either a flexible membrane 30 used or the ground 29 formed by material removal so thin that it is a flexible membrane 30 forms.

Inside the measuring chamber 25 are a sensor chip 31 and a surrounding coil 32 added. The sensor chip 31 carries at least one sensor, for example a pressure sensor and / or a temperature sensor, as well as electronic components for processing and digitizing the electrical signals generated by the sensors and for power supply, further electronic components of a telemetry circuit, which generates the signals generated by the sensors via the coil 32 sends out, these signals can then from the coil 10 the external evaluation device 8th be received.

The interior of the measuring chamber 25 is filled with a pressure-transmitting medium, for example with air, with an oil or with a gel, it is also possible that between the flexible membrane 30 and the sensors on the sensor chip 31 mechanical transmission members are provided, for example, piston or lever, it is only essential that the pressure of the brain fluid through the flexible membrane 30 the sensors on the sensor chip 31 can reach and leads there to corresponding measurement signals.

The measuring chamber 25 carries at its lower end downwardly projecting, extending over part of the circumference supporting projections 33 and on her lid 27 radially projecting centering webs 34 , so that the measuring chamber 25 when inserting into the lower part 17 the liquid chamber 16 is arranged in a well-defined position, thereby supporting the supporting projections 33 on the ground 18 of the lower part 17 off, the radial centering webs 34 either on the wall 19 of the lower part 17 or after closing the liquid chamber on the ring 22 , In any case, it is achieved by this arrangement that the measuring chamber 25 can be flowed around on all sides of the brain fluid, ie the measuring chamber 25 got off the ground 18 , from the walls 19 and also from the lid-shaped housing part 21 everywhere a distance, so that through these spaces the brain fluid can flow unhindered.

This is particularly important when using the flexible membrane 23 a backwash or pressure pulse is to be transmitted to the brain fluid, but it is also important that the free flow through the interior 24 no distortions in the pressure measurement occur.

The measuring chamber 25 can get into the fluid chamber 16 can be used after it is implanted, and it is also readily possible to replace the measuring chamber, if malfunction of the measuring chamber should show or if other readings should be of interest.

Claims (14)

Measuring device for physiological parameters with a brain fluid receiving, implantable fluid chamber, with a communicating with the brain fluid in the fluid chamber via a membrane sensor device comprising a sensor for one or more physiological parameters, electronic components and a telemetry device for wireless transmission of signals from the sensor characterized in that the liquid chamber ( 16 ) at least two housing parts ( 17 . 21 ), which form a closed interior ( 24 ) are sealingly joined together and the unassembled state access to the interior ( 24 ) and that the sensor device ( 31 . 32 ) in a measuring chamber which is closed on all sides ( 25 ) is arranged, which formed as a self-handle component and in a defined position in the interior ( 24 ) of the liquid chamber ( 16 ) can be used. Measuring device according to claim 1, characterized in that the interior ( 24 ) via at least one inflow ( 13 ) with a probe ( 5 ) is connected via the brain fluid from a measuring point of the brain ( 6 ) in the interior ( 24 ) can flow. Measuring device according to claim 1 or 2, characterized in that the interior ( 24 ) at least one drain ( 20 ) for brain fluid. Measuring device according to one of the preceding claims, characterized in that the liquid chamber ( 16 ) a first housing part ( 17 ) with a floor ( 18 ) and adjoining side walls ( 19 ) and a second housing part ( 21 ), which as sealing on the first housing part ( 17 ) attachable lid is formed. Measuring device according to one of the preceding claims, characterized in that a region of the wall of the liquid chamber ( 16 ) is formed flexible, while the remaining areas of the wall are rigid. Measuring device according to Claim 5, characterized in that the flexible wall region is formed by a flexible membrane ( 23 ) is formed. Measuring device according to claim 6, characterized in that the flexible membrane ( 23 ) consists of silicone. Measuring device according to claim 5 or 6, characterized in that the flexible membrane ( 23 ) in a sealing ring ( 22 ), which together with the membrane ( 23 ) a housing part ( 21 ), which with a second housing part ( 17 ) for forming the liquid chamber ( 16 ) is joinable. Measuring device according to one of the preceding claims, characterized in that the measuring chamber ( 25 ) into the liquid chamber ( 16 ) is inserted, that it is surrounded on all sides by brain fluid. Measuring device according to claim 9, characterized in that between the liquid chamber ( 16 ) and the measuring chamber ( 25 ) for determining the measuring chamber ( 25 ) in the liquid chamber ( 16 ) Fixing projections ( 33 . 34 ), which are part of the liquid chamber ( 16 ) and / or the measuring chamber ( 25 ) are. Measuring device according to one of the preceding claims, characterized in that the measuring chamber ( 25 ) consists of metal. Measuring device according to one of the preceding claims, characterized in that the measuring chamber ( 25 ) has rigid walls. Measuring device according to one of the preceding claims, characterized in that the liquid chamber ( 16 ) consists of a sterilizable plastic. Measuring device according to claim 13, characterized in that the liquid chamber ( 16 ) consists of polyetheretherketone.