DE102011078711A1 - Implantable vascular access device for creating permanent access to blood vessels of patient and administrating drug, has hollow body that is provided with penetrating membrane, where hose is attached to hollow body with container system - Google Patents

Abstract

The implantable vascular access device (21) has a hollow body (25) that is provided with a penetrating membrane (22). A hose (24) is attached to the hollow body with a container system. A wireless readable memory unit (26) is provided for requesting the information from the access device. The information is comprised of device identification, a personal identification, a drug identification or a drug overdose. The memory unit is provided as a passive or active Radio frequency identificationchip. Independent claims are included for the following: (1) a dosing device for the automated control of dosage of a drug; and (2) a method for automatically dispensing a drug in a vascular system through the implantable access device and the dosing device.

Description

State of the art

The invention is based on an implantable vascular access device, an automated dosing control dosing device and a method of automatically dosing a medicament according to the preamble of the independent claims.

Implantable vascular access devices are implanted in the medical field in a patient's body to provide permanent access to the patient's blood vessels. Such an access device is also referred to in the medical field as a port or implantable catheter. To administer a drug to the patient, the access device is used so that new access does not have to be given for each additional administration of a drug.

In 1 is an implantable vascular access device 1 shown in the prior art. The access device 1 has a hollow body 5 and a hose 4 on. The hollow body 5 is formed from a housing 3 and a membrane 2 , The hollow body 5 has a connection to the hose 4 on. The hose 4 is in the implanted state connected to a vascular system of a patient. The membrane 2 For example, it consists of a soft, pierceable silicone gasket. To administer a drug to the patient, access is gained to the hollow body 5 made from the outside, passing a needle through a skin of the patient and the membrane 2 is stung. This creates an access from outside the patient to the hollow body 5 , A drug can be administered through the needle. After administration, the needle is withdrawn and the membrane and accessway close again.

From the US 2004 / 0,054,352 A vascular access device with a sensor system is already known. The sensor system is used for the continuous observation of a patient by means of physiological measurements.

The US 2010 / 0,321,163 describes a medical implant with a Radio Frequency Identification (RFID) tag. The tag is queried to obtain information about the implant.

Disclosure of the invention

Advantages of the invention

The implantable vascular access device according to the invention with a hollow body having a pierceable membrane, to which a tube for connecting the hollow body to a vascular system is connected, wherein the access device has a wirelessly readable storage unit, has the advantage that information is retrieved from the access device can. The information may be used for the use of the access device, for example in a drug dosage.

The measures listed in the dependent claims advantageous refinements and improvements of the independent claim access device are possible.

It is particularly advantageous if information comprises a device identification, a person identification, a drug identification and / or a drug dosage, because this information can be used to avoid a misallocation of a drug to a patient.

Conveniently, the wireless readable storage unit is a passive or active radio frequency identification chip, since it can be produced inexpensively.

Furthermore, it is advantageous if the access device has an energy storage unit for feeding the memory chip. This operation of the storage unit over a longer period, for example, several months, allows.

Expediently, the access device has an energy recovery unit for feeding the energy storage unit. In this way, the energy storage unit can be charged and thus a replacement of the energy storage unit can be avoided.

Furthermore, it is advantageous if the access device has at least one sensor which is connected to the memory chip so that measured values recorded in the sensor via the memory chip can be read out. Thus, measurement data of the sensor for monitoring the access device or the patient can be queried via the wirelessly readable memory unit.

Conveniently, the at least one sensor is a pressure sensor, an electrical sensor, a chemical sensor and / or a motion sensor, because these are particularly suitable for monitoring physiological functions of a patient and an operation of the access device.

A dosing device according to the invention for the automated dosing control of a medicament with a valve, a needle, an evaluation unit and a wireless data read-out unit for receiving information from the access device is advantageous. Because the evaluation evaluates the information to the effect that a flow of the drug through the needle by means of the valve is controlled by the evaluation. This increases the safety of drug administration with respect to the type of drug or drug dosage.

A method for automated dosing of a drug into a vasculature by the implantable access device and the dosing device provides for enhancement of drug administration by reading the information from the access device storage device through the dosing device data readout unit after puncturing the membrane with the needle the evaluation are evaluated and controlled by the evaluation unit based on the information of the flow of the drug through the needle in the hollow body through the valve.

Short description of the drawing

Show it

1 an implantable vascular access device of the prior art,

2 A first embodiment of an implantable vascular access device according to the invention,

3 A second embodiment of the implantable vascular access device according to the invention,

4 the interaction of an implantable vascular access device according to the invention and a dosing device according to the invention and

5 a block diagram of the method according to the invention.

Embodiments of the invention

In 2 is a first embodiment of an implantable vascular access device according to the invention 21 shown. The access device 21 has a hollow body 25 , a hose 24 and a wireless readable storage unit 26 on. The hollow body 25 has a pierceable membrane 22 and a housing 23 on. The hollow body 25 is over the hose 24 connected to a vascular system of a body of a patient such that a fluid, such as a drug, from the hollow body 25 over the hose 24 enters the vascular system. The pierceable membrane 22 is for example made of silicone and has the same properties as a membrane described in the section "prior art". The wirelessly readable storage unit 26 is also in the case 23 arranged, but over an intermediate wall of the hollow body 25 separated. The wirelessly readable storage unit 26 includes, for example, data representing information for medical personnel treating the patient accessing the device 21 implanted. This data can be obtained by means of a wireless data readout unit 26 be read out and displayed to the staff, for example, on a display.

In 3 is a second embodiment of an implantable vascular access device according to the invention 31 shown. The second embodiment of the access device 31 also has a hollow body 35 , a hose 34 and a wireless readable storage unit 36 on. The second embodiment of the access device 31 differs from the first embodiment of the access device 21 in that the second embodiment of the access device 31 a sensor 37 having. The hollow body 35 has a membrane 32 and a housing 33 on. The hollow body 35 has a connection to the hose 34 on. The wirelessly readable storage unit 36 and the sensor 37 are by an intermediate wall in the housing of the hollow body 35 separated. The hose 34 again provides access between a vascular system of a patient and the hollow body 35 ago. The sensor 37 For example, a pressure sensor for measuring a blood pressure of the patient, an electrical sensor for measuring a pulse beat of the patient, a motion sensor for measuring a movement of the patient or a chemical sensor for measuring a concentration of chemical elements in the bloodstream of the patient. A motion sensor is for example a yaw rate sensor or an acceleration sensor.

In a further embodiment, the wirelessly readable storage unit 26 . 36 a so-called Radio Frequency Identification Chip (RFID). An RFID chip includes, for example, an antenna, an analog circuit for receiving and transmitting data, a digital circuit, and a memory. A reader emits an electromagnetic wave for reading out the RFID chip. The RFID chip takes over its antenna energy from the electromagnetic wave and in turn uses this for sending the information stored with the RFID chip in its memory. Such an RFID chip, which uses the energy of the radiated wave, is called a passive RFID chip. A passive RFID chip is preferably operated battery-free.

In a further embodiment, an access device according to the invention has an active RFID chip. An active RFID chip is powered by means of an energy storage unit. Such a memory unit may be, for example, a battery which supplies the active RFID chip with energy for several months.

In a further embodiment, an access device according to the invention has an energy recovery unit for feeding the energy storage unit. This energy recovery unit can be operated by means of a method of so-called energy harvesting. For example, the energy recovery unit may obtain energy by thermal methods, such as from the body heat of the patient, or by vibrations, such as movement, breathing, or pulse rate of the patient.

For example, in the wirelessly readable storage unit of an access device according to the invention information for the query is stored, which detect a device identification, a person identification, a drug identification and / or a drug dosage. Inquiring and thus taking note of this information by medical personnel treating a patient wearing the access device as an implant allows the medical staff to assign a correct drug to the patient. This assignment can be achieved, for example, by means of the device identification and person identification and a query of a database thus carried out. For example, this assignment can also be made by using the stored in the storage unit drug identification and / or drug dosage such that the medical staff gets this information displayed and thus makes a corresponding medication.

In a further embodiment, information which is obtained from measurement data of the at least one sensor is stored in the readable memory unit. This information can be stored in the memory unit for immediate readout and / or buffered in the memory unit and thus provided for later reading of the memory unit.

In 4 is the interaction of an access device according to the invention 21 . 31 according to the first embodiment or second embodiment and a dosing device according to the invention 51 shown. The access device 21 . 31 is in a patient 60 implanted. The dosing device 51 has a valve, a needle, an evaluation unit and a data read-out unit. Furthermore, the metering device 51 a connection to a hose 52 on. The hose 52 connects a reservoir 53 with the dosing device 51 , The dosing device 51 is by means of the needle with the hollow body of the access device 21 . 31 connected. The needle of the dosing device 51 pierces the membrane of the access device 21 . 31 , The evaluation unit of the dosing device 51 is designed to control the valve of the dosing device. The valve is in turn connected to the needle. The evaluation unit regulates a flow of a drug from the reservoir 53 over the supply line 52 and the needle by means of the valve in the hollow body of the access device 21 . 31 , Furthermore, the evaluation unit is designed so that this from a data reader unit of the dosing device 51 can process received information. The dosing device 51 receives information from the implanted access device via the wireless data readout unit, for example by means of an RFID transponder function 21 . 31 , In this way, an automatic evaluation of the in the access device 21 . 31 filed information through the dosing device 51 carried out so that an automatic metering, for example by an electrical control of the valve, can take place. Furthermore, the evaluation unit of the dosing device 51 by means of a comparison, whether the information received with information about the drug from the reservoir 53 agree, determine if the right drug for the treatment of the patient 60 is present. Such a comparison can be made, for example, via a data comparison of the information from the access device 21 . 31 with pre-filed information in the dosing device 51 about the drug in the connected reservoir 53 respectively. If these data are different, it is not the right medication for the patient 60 in front. The dosing device 51 then close the valve so that the patient 60 before giving a wrong drug is safe.

In 5 the inventive method is shown. In the first process step 100 the membrane of an access device according to the invention, which is implanted in a patient, is pierced with the needle of a dosing device according to the invention. In the following second process step 101 First information is read from a memory unit of the access device by a data readout unit of the dosing device. This happens, for example, via an RFID transponder technology, ie the dosing device initializes, by means of a radiated electromagnetic wave, a transmission of the first information present in the memory unit of the access device. For example, these first information are then received by the data read-out unit and stored in a memory for further processing with an evaluation unit of the dosing device. In the following third step 102 the evaluation unit of the dosing device evaluates the received first information as to whether the identified with the first information identification of a drug to be administered with second information about a drug match, which holds the dosing device for administration. Likewise, an evaluation of the first information about a dosage of the drug to be administered can take place. In the following fourth method step 103 For example, a flow of the stored medicament is controlled by the needle of the dosing device into a hollow body of the access device. This control is performed such that the evaluation unit controls a valve of the dosing device. The evaluation unit locks the valve if the first information about the medication to be administered does not match the second information about the stored medication. Similarly, if the first information contains dosage information, the flow of the drug to be administered is controlled based on the first information. In this case, the valve is closed when it is determined that the administered dose of the drug to be administered has flowed through the valve.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US 2004/0054352 [0004]
• US 2010/0321163 [0005]

Claims (9)

Implantable vascular access device ( 21 . 31 ) with a hollow body ( 25 . 35 ), which has a puncturable membrane ( 22 . 32 ) and to which a hose ( 24 . 34 ) for connecting the hollow body ( 25 . 35 ) is connected to a vascular system, characterized in that the access device ( 21 . 31 ) a wirelessly readable memory unit ( 26 . 36 ) for retrieving information from the access device ( 21 . 31 ) having. Access device ( 21 . 31 ) according to claim 1, characterized in that the information comprises a device identification, a person identification, a drug identification and / or a drug dosage. Access device ( 21 . 31 ) according to one of the preceding claims, characterized in that the memory unit ( 26 . 36 ) is a passive or active radio frequency identification chip. Access device ( 21 . 31 ) according to one of the preceding claims, characterized by an energy storage unit for feeding the storage unit. Access device ( 21 . 31 ) according to claim 4, characterized by an energy recovery unit for feeding the energy storage unit. Access device ( 31 ) according to one of the preceding claims, characterized by at least one sensor ( 37 ) connected to the storage unit ( 36 ) is connected in such a way that with the sensor ( 37 ) recorded measurements via the memory chip ( 36 ) are readable. Access device ( 31 ) according to claim 6, characterized in that the at least one sensor ( 37 ) is a pressure sensor, an electrical sensor, a chemical sensor and / or a motion sensor. Dosing device ( 51 ) for automated dosing control of a medicament having a valve, a needle and an evaluation unit, wherein a flow of medicament through the needle by the valve is controllable by the evaluation unit, characterized by a wireless data readout unit for receiving information from an access device according to one of the preceding claims that can be evaluated by the evaluation unit. Method for automatically dosing a medicament into a vascular system by means of an implantable access device ( 21 . 31 ) and a metering device ( 51 ), the access device ( 21 . 31 ) a hollow body ( 25 . 35 ), which has a puncturable membrane ( 22 . 32 ) and to which a hose ( 24 . 34 ) is connected for connection to the vascular system, and a wirelessly readable storage unit ( 26 . 36 ), and wherein the metering device ( 51 ) comprises a valve, a needle, an evaluation unit and a data read-out unit, characterized by the steps: a. Piercing the membrane ( 22 . 32 ) with the needle, b. Reading out information of the storage unit ( 26 . 36 ) by the data readout unit, c. Evaluating the information by the evaluation unit, d. Controlling a flow of the drug through the needle into the hollow body ( 25 . 35 ) by means of the valve controlled by the evaluation unit on the basis of the evaluated information.

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