DE102015222496B3 - System and method for improving blood flow - Google Patents

Abstract

The invention relates to a system 1 for improving blood flow. The system comprises a thrombus detection unit 2 for detecting a thrombus in a blood stream 3, a thrombus removal unit 4 for removing the thrombus, and a control unit 5 for controlling the thrombus removal unit 4. The control unit 5 controls the thrombus removal unit 4 such that when the thrombus detection unit 2 detects a thrombus has, this is eliminated by means of the thrombus removal unit 4.

Description

The invention relates to a system and method for improving blood flow.

The patent application US 2007/0 213 613 A1 discloses a device for detecting a thrombus, the device comprising a transducer which is attached to a region of a patient to be monitored and transmits and receives ultrasonic waves. The apparatus further includes a transmitting and receiving unit which transmits drive pulses to the transducer and receives echo signals from the transducer. A detector uses ultrasonic waves, processes output signals of the transmitting and receiving unit and detects a thrombus moving in a blood vessel. The device further comprises a light source for generating examination light and a probe, which is attached to the monitored area of the patient and irradiates the patient with the examination light of the light source. A light receiving unit receives the examination light that has been emitted from the probe and passed through the patient, and outputs electrical signals in response to the intensity of the examination light received. Another detector uses the examination light, wherein the output signals of the light receiving unit are processed and a thrombus, which moves through the blood vessel, is detected.

It is known that thrombi result from blood coagulation, whereby a thrombus at its point of origin can lead to clogging of the bloodstream. In addition, a thrombus may detach from its site of origin and then be transported by the bloodstream to another site where the thrombus clogs the bloodstream. This migration of thrombi with subsequent blockage of the bloodstreams can lead to one or more organs being no longer adequately supplied with blood, which can cause heart attacks, in particular strokes or heart attacks.

To reduce the likelihood of a heart attack, blood thinning medicines can be taken. However, the infarction risk can also be relatively high when taking these blood-thinning medications.

It is therefore an object of the present invention to provide a system for improving blood flow that can result in a reduced probability of infarction.

• – eine Thrombusdetektionseinheit zum Delektieren eines Thrombus in einer Blutbahn,
• – eine Thrombusbeseitigungseinheit zum Beseitigen des Thrombus, und
• – eine Steuerungseinheit zum Steuern der Thrombusbeseitigungseinheit, wobei die Steuerungseinheit angepasst ist, die Thrombusbeseitigungseinheit so zu steuern, dass, wenn die Thrombusdetektionseinheit einen Thrombus detektiert hat, dieser mittels der Thrombusbeseitigungseinheit beseitigt wird, wobei die Thrombusdetektionseinheit und die Thrombusbeseitigungseinheit so implantierbar sind, dass in Blutstromungsrichtung die Thrombusdetektionseinheit vor der Thrombusbeseitigungseinheit angeordnet ist.

The object is achieved by a system and method for improving blood flow, the system comprising:

• A thrombus detection unit for detecting a thrombus in a bloodstream,
• A thrombus removal unit for removing the thrombus, and
• A control unit for controlling the thrombus removal unit, wherein the control unit is adapted to control the thrombus removal unit such that when the thrombus detection unit has detected a thrombus, it is eliminated by the thrombus removal unit, wherein the thrombus detection unit and the thrombus removal unit are implantable so that in the blood flow direction the thrombus detection unit is arranged in front of the thrombus removal unit.

The thrombus detection unit can detect a thrombus migrating in the bloodstream and report the detection of the migrating thrombus to the thrombus clearance unit, after which it eliminates the thrombus. This can reduce the likelihood that the migrating thrombus will disrupt the blood supply to an organ, such as the brain or heart, which can significantly reduce the risk of heart attack.

The control unit is preferably implantable. In addition, the thrombus detection unit and / or the thrombus removal unit and / or the control unit are preferably integrated in one unit. For example, the thrombus removal unit and the control unit may be integrated in a first unit, and the thrombus detection unit may be implemented in a second, second unit separate from the first unit. The thrombus detection unit and the thrombus removal unit are implantable so that in the blood flow direction, the thrombus detection unit is arranged in front of the thrombus removal unit.

In one embodiment, the thrombus detection unit can be arranged in a ring around the bloodstream. This allows implantation of the thrombus detection unit without having to intervene in the bloodstream. As a result, a more gentle for the body implantation is possible.

The thrombus detection unit preferably has a radiation source for emitting radiation into the bloodstream and a radiation detector for detecting the radiation after it has passed through the bloodstream, wherein the thrombus detection unit is adapted to detect a thrombus in dependence on the detected radiation. The radiation is for example optical radiation, ultrasonic radiation, et cetera. The radiation source is, for example, a light-emitting Diode (LED) and the radiation detector is for example a photodiode. This allows a very accurate detection of a thrombus based on the thrombus altered absorption of radiation within the bloodstream.

The thrombus removal unit may be adapted to filter the thrombus from the bloodstream to eliminate it. The thrombus clearance unit may also be adapted to destroy the thrombus to eliminate it. For example, the thrombus removal unit may be adapted to "chop" the thrombus. The filtering and destroying may also be combined so that the thrombus clearance unit is adapted to first filter the thrombus from the bloodstream and then destroy the thrombus filtered out. This allows a very effective removal of the thrombus.

The thrombus removal unit preferably has an alternate bloodstream and is adapted to deliver a thrombus to the alternate bloodstream. The thrombus removal unit may be adapted to clear the thrombus in the alternate bloodstream. For example, a filtering of the thrombus from the blood and / or a destruction of the thrombus in the alternate bloodstream can be performed. This too leads to a very effective removal of the thrombus from the bloodstream.

The control unit may be adapted to control the thrombus clearance unit to activate the eradication of the thrombus after a predetermined time has elapsed after detection of the thrombus by the thrombus detection unit. The predetermined time may be determined in advance based on the distance between the thrombus detection unit and the thrombus clearance unit and the blood flow rate so that the process for eliminating the thrombus is surely activated before the detected thrombus can reach the thrombus removal unit. For example, the control unit may be adapted to start a destructive process such as a chopping process or a diverting process for diverting the thrombus into the alternate bloodstream only after a predetermined time has elapsed after detection of the thrombus. The mechanism for clearing the thrombus is therefore activated only when it is really needed, which can reduce the system's power consumption.

• – Detektieren eines Thrombus in einer Blutbahn mittels einer Thrombusdetektionseinheit, und
• – Beseitigen des Thrombus durch eine Thrombusbeseitigungseinheit, wobei eine Steuerungseinheit die Thrombusbeseitigungseinheit so steuert, dass, wenn die Thrombusdetektionseinheit einen Thrombus detektiert hat, dieser mittels der Thrombusbeseitigungseinheit beseitigt wird, wobei die Thrombusdetektionseinheit und die Thrombusbeseitigungseinheit so implantiert sind, dass in Blutströmungsrichtung die Thrombusdetektionseinheit vor der Thrombusbeseitigungseinheit angeordnet ist.

The invention also relates to a method for improving blood flow, the method comprising:

• - Detecting a thrombus in a bloodstream by means of a thrombus detection unit, and
• Removal of the thrombus by a thrombus removal unit, wherein a control unit controls the thrombus removal unit such that when the thrombus detection unit has detected a thrombus, it is eliminated by the thrombus removal unit, wherein the thrombus detection unit and the thrombus removal unit are implanted such that in the blood flow direction the thrombus detection unit is implanted Thrombusbeseitigungeinheit is arranged.

It should be understood that the system of claim 1 and the method of FIG. 9 have similar and / or identical preferred embodiments as defined in particular in the dependent claims.

Embodiments of the invention will be described below with reference to the following figures, wherein

1 schematically and exemplarily shows an embodiment of a system for improving blood flow,

2 schematically and exemplarily a Thrombusdetektionseinheit of in the 1 shown system shows and

3 a flow chart illustrating an embodiment of a method for improving blood flow illustrates.

1 shows schematically and exemplarily an embodiment of a system for improving blood flow. The system 1 includes a thrombus detection unit 2 for detecting a thrombus in a bloodstream 3 and a thrombus removal unit 4 for removing the detected thrombus. The bloodstream 3 is formed by a blood vessel, which can be an artery or a vein.

The system 1 further comprises a control unit 5 for controlling the thrombus removal unit 4 , wherein the control unit 5 adapted, the thrombus removal unit 4 so control that when the thrombus detection unit 2 detects a thrombus, this by means of the thrombus removal unit 4 is eliminated. The thrombus detection unit 2 , the thrombus removal unit 4 and the control unit 5 are implanted so that the thrombus detection unit 2 in blood flow direction 6 before the thrombus removal unit 4 is arranged. In this embodiment, the thrombus clearance unit 4 and the control unit 5 integrated in one unit, whereas the thrombus detection unit 2 a forms a separate unit, which is arranged at a distance from the integrated thrombus detection and control unit. In another embodiment, all the units, that is to say the thrombus detection unit, the thrombus removal unit and the control unit, can also be integrated in one unit. In addition, the thrombus detection unit, the thrombus removal unit and the control unit can each also form separate units.

In this embodiment, the thrombus detection unit is 2 ring around the bloodstream 3 arranged as it is schematically and exemplarily in 2 is illustrated. To the thrombus detection unit 2 To implant, it may initially consist of at least two separate parts, which are separated around the bloodstream 3 where they are then joined together to the bloodstream 3 to enclose. For example, these can be at least two parts of the thrombus detection unit 2 Connections to these after arranging around the bloodstream 3 to connect around by means of a plug connection. Other types of connection are possible such as a magnetic connection, which can be done by means of corresponding magnets, which at the ends of the at least two parts of the thrombus detection unit 2 can be arranged. A dashed dividing line 18 between two connected parts of the thrombus detection unit 2 is in 2 indicated by way of example.

The thrombus detection unit 2 includes a radiation source 7 to send radiation into the bloodstream 3 and a radiation detector 8th to detect the radiation after this the bloodstream 3 has irradiated. In this embodiment, the radiation source 7 and the radiation detector 8th each semicircular around the bloodstream 3 arranged. The radiation source 7 For example, one or more semi-circularly arranged LEDs and the radiation detector 8th may comprise one or more semicircular photodiodes. In other embodiments, the radiation source and the radiation detector may also be configured to irradiate the bloodstream by means of another type of radiation. For example, the radiation source and the radiation detector would be adapted to emit and detect ultrasonic radiation.

The thrombus detection unit 2 Also includes a control unit, this control unit 9 adapted, the radiation source 7 and the radiation detector 8th to trigger detection signals, which depend on the detected radiation, from the radiation detector 8th to receive and determine based on these received detection signals, starting from a thrombus in the bloodstream 3 located. For example, the control unit 9 be adapted to determine that a thrombus in the bloodstream 3 is when the received detection signal indicates that the detected radiation is lower than a predetermined threshold value, it being assumed that the reduced radiation has been caused by a thrombus located between the radiation source 7 and the radiation detector 8th located. The thrombus detection unit 2 further comprises a communication unit 19 for communicating with the control unit 5 , This communication can be wireless or wired, in the latter case the thrombus removal unit 2 and the control unit 5 are connected by means of a wire connection. When the control unit 9 the thrombus detection unit 2 has determined that a thrombus in the bloodstream 3 is present, this is done by means of the communication unit 19 to the control unit 5 reported, after which the control unit 5 initiating a removal of the thrombus.

The thrombus detection unit 2 further includes a power supply 10 for supplying the different components of the thrombus removal unit 2 with electrical energy. In this embodiment, the electric power provided by means of the control unit 9 to the various components of the thrombus removal unit 2 distributed. The power source 10 is preferably a battery.

The thrombus removal unit 4 includes an alternate bloodstream 11 passing through a housing 17 is formed. The alternate bloodstream 11 includes an entrance area 20 , by the blood of the bloodstream 3 into the alternate bloodstream 1i can flow, and an exit area 21 through which the blood from the alternate bloodstream 11 into the bloodstream 3 can flow back. The thrombus removal unit 4 is adapted to a detected thrombus in the alternate bloodstream 11 to guide and eliminate there, leaving in the exit area 21 Blood in the bloodstream 3 flows back, in which no thrombus is present. In this embodiment, the removal of thrombus in the evasive bloodstream is accomplished by means of a filter unit 15 , The filter unit 15 is preferably interchangeable and may also be referred to as filter cartridge The filter unit 15 may have openings that allow blood to pass through, but do not allow the thrombus to pass.

In the entrance area 20 the alternate bloodstream 11 there is an active flow controller 12 by the control unit 5 is controlled. In this embodiment, the active flow controller comprises 12 a closure element 14 that by means of a motor 13 , which could also be conceived as a micromotor, is actuated. In particular, the engine 13 and the closure element 14 adapted so that the closure element 14 between a closed position, the in 1 is illustrated in solid, and an open position, the in 1 is illustrated by dashed lines, is pivotable. In the closed position is the alternate bloodstream 11 through the closure element 14 closed, so no blood in the alternate bloodstream 11 can flow. In the open position is the entrance area 20 the alternate bloodstream 11 open, allowing blood from the bloodstream 3 into the alternate bloodstream 11 can flow. In addition, the closure element is overslept in the open position 14 the bloodstream 3 so that the thrombus is not on the alternate bloodstream 11 past the bloodstream 3 can flow. The control unit 5 is with the engine 13 preferably connected by means of a wire, so that the control unit 5 the active flow controller 12 can drive. In another embodiment, this connection can also be wireless.

Basically, there is the active flow controller 12 in the closed position, allowing the blood through the bloodstream 3 at the alternate bloodstream 11 can flow past. However, if the thrombus detection unit 2 detects a thrombus, this detection is made by the thrombus detection unit 2 to the control unit 5 reported, after which the control unit 5 the active flow controller 12 controls so that it changes from the closed position to the open position and the blood and thus the thrombus in the entrance area 20 the alternate bloodstream 11 is directed into this and through the filter unit 15 flows, in which the thrombus is restrained. The control unit 5 Can be designed to be the active flow regulator 12 so controls that is immediately changed from the closed position to the open position after the control unit 5 has been informed about the detection of the thrombus. The control unit 5 but can also be adjusted so that of the closed position of the active flow controller 12 to the open position of the active flow controller 12 is changed after, after the detection of the thrombus by the thrombus detection unit 2 , a given time has expired. This predetermined time is preferable considering the distance between the thrombus detection unit 2 and the thrombus removal unit 4 and the maximum expected blood flow rate. Especially 1st this predetermined time is determined so that the active flow controller 12 safely located in the open position when one of the thrombus detection unit 2 detected thrombus the thrombus removal unit 4 has reached.

In the exit area 21 the alternate bloodstream 11 there is a passive flow regulator 16 which can also be construed as a passive valve and the blood only from the alternate bloodstream 11 into the bloodstream 3 flow.

The thrombus removal unit 4 further comprises a communication unit 22 for communicating with the thrombus detection unit 2 and preferably also for communicating with an external communication unit external to the patient. In addition, the thrombus removal unit includes 4 a power source 23 , in particular a battery. The power source 23 is adapted, the individual components, in particular the control unit 5 and the engine 13 to supply with electrical energy. In this embodiment, the communication unit 22 and the power source 23 in the control unit 5 integrated. In other embodiments, these units may also be separate from the control unit 5 be arranged. In addition, in one embodiment, the entire system may have only one power source, which power source then includes both the thrombus detection unit 2 as well as the thrombus removal unit 4 supplied with electrical energy.

The following is a method for improving the blood flow of the 3 described in more detail.

In step 101 detects the thrombus detection unit 2 a thrombus in the bloodstream 3 and reports this to the control unit 5 , In step 102 controls the control unit 5 the thrombus removal unit 4 such that the thrombus removal unit 4 eliminated the detected thrombus.

The thrombus removal unit 4 is preferably closer to the heart or brain in the flow direction of the blood than the thrombus detection unit. The control unit 5 is preferably adapted, the active flow regulator 12 To control that, having detected a thrombus in the alternate bloodstream 11 has been redirected, the active flow regulator 12 again in the closed position, allowing the blood back to the alternate bloodstream 11 past the actual bloodstream 3 can flow. For example, the control unit 5 be adapted to the active flow regulator 12 to control so that the active flow regulator 12 again in the closed position, after after detection of the thrombus by the thrombus detection unit 2 a predetermined time has expired. This predetermined time preferably depends on the distance between the thrombus detection unit 2 and the thrombus removal unit 4 and the minimum expected blood flow rate. Taking the given parameters into account, the predetermined time is preferably selected so that it can be assumed that the thrombus is safely in the alternative bloodstream 11 is located when the active flow regulator 12 is moved again from the open position to the closed position. Alternatively or additionally, a sensor for detecting the Thrombus in the alternate bloodstream 11 to be available. This sensor can, similar to the thrombus detection unit 2 , a radiation source and a radiation detector, it being possible to determine whether the substance detected by the thrombus detection unit is dependent on the detected radiation intensity 2 delektierte Thrombus meanwhile in the alternative bloodstream 11 located.

For example, if the detected radiation intensity in the alternate bloodstream 11 after detection of the thrombus by the thrombus detection unit 2 may decrease by a predetermined percentage and / or fall below a predetermined intensity threshold, it may be determined that the thrombus is entering the alternate bloodstream 11 has been diverted. The thrombus removal unit 4 may also include a sensor to determine if the filter unit 15 For example, due to already filtered out thrombi is so filled that it must be emptied or replaced. A combination of a radiation source and a radiation detector can also be used for this purpose. The radiation source and the radiation detector can be arranged such that a filter unit to be emptied or exchanged 15 is noticeable by a decrease in the detected radiation intensity. Again, for example, threshold comparisons may be used to determine if the filter unit 15 to empty or exchange is.

Although in the embodiment described above with reference to the 1 and 2 In other embodiments, the thrombus remedy unit may be adapted to remove the thrombus in a different manner, the thrombus remedy unit being adapted to filter out the thrombus. For example, the thrombus removal unit may be adapted to destroy the thrombus, for this purpose may have a chopping work, which is preferably powered by a motor. The control of the engine for the chaff can be done via the control unit 5 respectively. The shredder can, for example, have small, oppositely rotating knife blades, which reduce the thrombus so much that it no longer represents a risk of infarction.

Although in the above with reference to the 1 and 2 described embodiment, the thrombus removal unit has an alternative bloodstream, in another embodiment, no alternate bloodstream may be present, in which case the thrombus removal unit is preferably implanted directly into the bloodstream. In this case, the thrombus removal unit is preferably adapted to destroy the thrombus, for example by means of the chopping unit mentioned above.

Although in the above with reference to the 1 and 2 described embodiment, the thrombus detection unit 2 ring around the bloodstream 3 is arranged, in another embodiment, the thrombus detection unit may also be arranged differently. For example, this unit can enter the bloodstream 3 be implanted.

Although in the above with reference to the 1 and 2 described embodiment in the exit region of the alternate bloodstream 11 a passive flow regulator 16 is present, this may be missing in other embodiments, so that in this output area 21 Blood unhindered by the alternate bloodstream 11 into the bloodstream 3 can flow. This is possible because the thrombus by means of the filter unit 15 has been filtered out or in other embodiments the thrombus has been destroyed. That in the exit area 21 flowing blood is therefore sufficiently fluid. The system 1 , in particular the thrombus removal unit 4 , may also include a velocity sensor for measuring the velocity of blood flow. With this information and the known distance between the thrombus detection unit 2 and the thrombus removal unit 4 can the control unit 5 calculate a time that the detected thrombus needs to get from the thrombus detection unit 2 to the thrombus removal unit 4 to stream. This time can be used to ensure that the active flow regulator 12 the thrombus into the alternate bloodstream 11 This warms the thrombus removal unit 4 has reached. In addition, the control unit 5 Using this information, calculate when the thrombus safely bypasses the alternate bloodstream 11 has reached, so the control unit 5 can specify a corresponding time. This time can then be used to select the active flow controller 12 so control that the evasive bloodstream 11 closed again and the main bloodstream 3 Released when the thrombus is in the alternate bloodstream 11 located. In another embodiment, these times may also be predetermined, for example, by a surgeon implanting the system.

Although in the above with reference to the 1 and 2 described embodiment, the closure element of the active flow regulator is actuated by means of a motor, the closure element can also be actuated in a different way. The closure element can be actuated, for example, electromechanically, electrically, pneumatically, et cetera.

In this embodiment, the active flow controller comprises 12 a closure element 14 that by means of a motor 13 , which could also be conceived as a micromotor, is actuated. In particular, the engine 13 and the closure element 14 adapted so that the closure element 14 between a closed position, the in 1 is illustrated in solid, and an open position, the in 1 is illustrated by dashed lines, is pivotable.

All components that come into contact with the patient's body are preferably made of biocompatible material.

The filter unit 16 is preferably a filter cartridge, wherein the housing 17 the thrombus removal unit 4 preferably has a closable opening, which allows a surgeon to remove the filter cartridge so that it can be emptied and cleaned or replaced. While removing the filter cartridge, the active flow regulator is located 12 in the closed position, in which no blood enters the alternate bloodstream 11 flows.

In the claims, the words "comprising" and "comprising" do not exclude other elements or steps, and the indefinite article "a" does not exclude a plurality.

A single unit or device can perform the functions of several elements listed in the claims. The fact that individual functions and elements are listed in different dependent claims does not mean that a combination of these functions or elements could not be used to advantage.

The control of the system for improving the blood flow according to the method for improving the blood flow may be implemented as program code of a computer program and / or as corresponding hardware.

A computer program may be stored and / or distributed on a suitable medium, such as an optical storage medium or a solid state storage medium, distributed along with or as part of other hardware. The computer program can also be distributed in other forms, for example via the Internet or other telecommunication systems.

The reference signs in the claims are not to be understood as limiting the subject matter and the scope of the claims to these references.

Claims (9)

System for improving blood flow, wherein the system ( 1 ): - a thrombus detection unit ( 2 ) for detecting a thrombus in a bloodstream ( 3 ), - a thrombus removal unit ( 4 ) for removing the thrombus, - a control unit ( 5 ) for controlling the thrombus removal unit ( 4 ), wherein the control unit ( 5 ), the thrombus removal unit ( 4 ) so that when the thrombus detection unit ( 2 ) has detected a thrombus, this by means of the thrombus removal unit ( 4 ), the thrombus detection unit ( 2 ) and the thrombus removal unit ( 4 ) are implantable so that in the blood flow direction ( 6 ) the thrombus detection unit ( 2 ) in front of the thrombus removal unit ( 4 ) is arranged. System according to claim 1, characterized in that the thrombus detection unit ( 2 ) ring around the bloodstream ( 3 ) can be arranged. System according to one of claims 1 and 2, characterized in that the thrombus detection unit ( 2 ) a radiation source ( 7 ) for emitting radiation into the bloodstream ( 3 ) and a radiation detector ( 8th ) for detecting the radiation after it has passed the bloodstream ( 3 ), wherein the thrombus detection unit ( 2 ) is adapted to detect a thrombus depending on the detected radiation. System according to one of claims 1 to 3, characterized in that the thrombus removal unit ( 4 ), the thrombus from the bloodstream ( 3 ) to remove it. System according to one of claims 1 to 4, characterized in that the thrombus removal unit ( 4 ) is adapted to destroy the thrombus to eliminate it. System according to one of claims 1 to 5, characterized in that the thrombus removal unit ( 4 ) an alternate bloodstream ( 11 ) and is adapted to introduce a thrombus into the alternate bloodstream ( 11 ). System according to one of claims 1 to 6, characterized in that the thrombus removal unit ( 4 ), the thrombus in the alternate bloodstream ( 11 ) to eliminate. System according to one of claims 1 to 7, characterized in that the control unit ( 5 ) is adapted to control the thrombus clearance unit so as to activate the elimination of the thrombus after the thrombus detection unit has detected the thrombus ( 2 ) a predetermined time has expired. A method of improving blood flow, the method comprising: - detecting a thrombus in a bloodstream by means of a thrombus detection unit, and - removing the thrombus by a thrombus removal unit, wherein a control unit controls the thrombus removal unit so that when the thrombus detection unit has detected a thrombus is removed by means of the thrombus removal unit, wherein the thrombus detection unit ( 2 ) and the thrombus removal unit ( 4 ) are implanted so that in the blood flow direction ( 6 ) the thrombus detection unit ( 2 ) in front of the thrombus removal unit ( 4 ) is arranged.

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