The present invention relates to blood collection systems in general, and in particular to a mixer for a blood bag in which blood is collected from a donor.
The task of taking blood from a donor requires many manual operations on the part of the person taking the blood. The blood collecting bags which are normally used, and also the hose connected to the bags and intended to be fitted to a cannula are prefilled with an anticoagulant.
In order to ascertain adequate mixing of blood and antigoagulant there are provided mixers provided with so called cradles in which the blood bag is placed.
Various mixers of this kind are known to the art. For instance, mixers are known which include a bag-carrying surface which is caused to rock forwards and backwards with the aid of a crank device which rotates about an axle which extends perpendicularly to the bag-carrying surface. It is also known to provide such mixer with a weight-measuring device which functions to measure the amount of blood that has flowed into the bag. It is also known to provide such mixers with means which function to produce an alarm signal when blood flows too quickly or too slowly into the bag.
Such a product is described in the granted U.S. Pat. No. 5,147,330. It relates to a mixer (in the patent the entire device is referred to as a cradle) of the kind which includes a bag-carrying surface which is intended to be rocked reciprocatingly about an axle which extends perpendicularly to said surface, by means of a crank device or the like, said mixer being provided with a weight measuring device which functions to measure the quantity of blood that has flown into the blood bag. The mixer is also provided with a clamping device which functions to squeeze said hose so as to prevent blood from flowing therein, said clamping device being electromagnetically operable, and wherein the mixer is provided with a control circuit which functions to at least control said clamping device.
US 2012/010553 (A1) (Carlson et al) a blood collection system that exhibits features such as a support structure, a tray (describe as a “scale”, but functions as a tray for a bag), a pump inherently disclosed since there must be some kind of pump in order to extract blood from the donor and a tilting mechanism (“blood agitating system”).
An object of the present apparatus disclosed herein is to provide a blood mixer that will enable an operator to position the mixer at a convenient elevated position higher than the patient, and which ascertains that no blood will flow back from the collecting bag to the patient.
This object is achieved with a blood mixer as defined in claim 1.
It comprises a support structure supporting the components of the mixer, a tubing fastening and guiding arrangement, configured to secure a blood collecting tubing in the mixer, a weigh bowl adapted to house a blood collecting bag having a blood supply tube attached thereto, and configured to measure the weight of the collected blood in the blood collecting bag and a pump configured to draw blood from the donor to a blood collecting bag through said tubing. In particular the pump is configured to exert a kneading action on the blood supply tubing by means of at least two kneading elements arranged to alternatingly displace the contents of the tube in the direction towards the bag, over one segment of the tubing each, thereby preventing back flow inside the tubing. There is preferably also provided a cooling arrangement configured to cool the blood in the blood collecting bag.
The detailed description given hereinafter is to be read with reference to the accompanying drawings which are given by way of illustration only, and thus not to be considered limiting on the present invention, and wherein
For the purposes of this application the term “blood mixer” shall be taken to mean an apparatus comprising at least one movable part adapted to receive a blood colleting bag. The movement is preferably a tilting action, either a simple rocking or a multiaxis movement, so as to ascertain proper mixing of the contents of the bag, i.e. collected blood and any agents provide in the bag, such as anticoagulants. The entire apparatus could in principle be moveable/tiltable.
In particular the part adapted for receiving the blood collecting bag is referred to as a “bowl” or “tray”. If a weighing function is integrated in the bowl it is referred to as a “weighing bowl” or “weighing tray”.
In
The mixer 10 comprises a support structure 11 on which all components are supported, i.e. a tray 18 adapted to hold a blood bag 16, a pump 20, a sensor unit 22 and a transceiver unit 23. There are also provide guide and fastening means, schematically indicated at 13, for securing tubing 14, coupled to the blood bag 16, to the mixer 10.
In
The blood bag 16 is placed in a tray 18, which as is conventional is coupled to a weighing device for weighing the collected blood so as to indicate when the appropriate amount of blood (normally 450 ml) has been collected.
The tray 18 can be tilted at least between two positions, as indicated by a broken line contour, for allowing the blood to mix with agents provided in the bag, such as anticoagulants. Alternatively, the entire mixer can be tiltable. Of course the tilting can implemented with a multi axis system so as to allow tilting in several directions.
A cooling arrangement 19, schematically indicated by arrows only, is implemented in the tray 18 to reduce the temperature of the collected blood to 22° C. to improve the quality of the blood. Such cooling can be provided by feeding tempered cooling liquid, such as water, through a channel system in the tray 18. Of course any cooling system known to the skilled man that provides appropriate cooling is usable.
The system 10 comprises a pump 20 for ascertaining a controlled flow of blood from the patient to the blood collecting bag 16. A preferred pump type is a non-intervening pump, i.e. it performs its pumping action by engaging on the outside of the tubing in a kneading action. Thus, it will not affect sterility of the system.
Pumps of this type are often referred to as peristaltic pumps, although other terms are used, such as hose pumps or tube pumps, which differ in construction depending i.e. on the pressure levels prevailing in the systems where the pumps are to be installed.
For the purpose of this application the term “peristaltic pump” is taken to mean any pump type that acts on the exterior surface of tubing and displaces portions of the contents inside the tubing in a desired direction so as to feed it forward.
Furthermore, the present blood mixer is provided with a number of sensors, arranged in a sensor unit schematically indicated at 22. The purpose of the sensors is to increase the safety for the blood donor. To this end there is preferably provided a hemoglobin meter, said hemoglobin meter being configured to continuously measure the hemoglobin value of the collected blood. This is suitably achieved by spectrophotometric principles, using a light source of appropriate wavelengths and a detector for the selected wavelength.
A flow sensor is also preferably provided which is coupled to a regulator configured to regulate the flow of blood by feeding control signals to the pump. The purpose is to prevent pressure build-up in the collecting bag, such that the bag is not damaged, or the patient's veins are undamaged.
Thus, the sensors are configured to:
a) regulate the flow of blood to the collecting bag 16 to prevent pressure build-up in the collecting bag, by monitoring the flow rate and direction,
b) measure the hemoglobin value in the drawn blood using a Hb meter to ensure quality of the blood.
If required, the reading from the flow sensor can be used to activate a stop function if it is registered that blood inadvertently flow backwards and into the patient again in order to prevent blood from flowing from the bag to the donor.
The sensor unit is schematically illustrated in
There can also be provided a pressure sensor for monitoring the pressure inside the tube. Such sensors can be of a piezo-resistive type or any other type that are able to sense the mechanical properties of the tube and correlate them to internal pressure. Any other detection means is of course applicable as long as a reliable flow rate value can be obtained.
The present apparatus comprises a function that prevents the blood to flow from the collecting bag to the donor. This is essential when the blood mixer is placed at an ergonomic level for the staff monitoring the blood collecting procedure since the elevation of the blood mixer may be higher than the position of the blood donor. In cases where a pump that is integrated in the flow path is used, this stop flow function is suitably implemented in the form of a check valve which may be integrated in the pump.
In the preferred embodiments of the present blood mixer the stop flow function will be inherent in that the peristaltic pump type, due its design, will never allow a back flow. Namely, the pump is configured to exert a kneading action on the blood supply tubing. This is achieved in that the pump comprises at least two kneading elements arranged to alternatingly displace the contents of the tube in the direction towards the bag, over one segment of the tubing each, thereby preventing back flow inside the tubing.
In a classic peristaltic pump this kneading and displacing action is performed by rollers often provided on a wheel. The tubing is positioned over at least a part of the circumference of the wheel and suitably clamped against the wheel with a suitable holder, suitably along half the circumference, such that at any time at least one roller will press on the tubing and during a revolution of the wheel the roller will displace liquid inside the tubing over a distance corresponding to half the circumference of the wheel. In this embodiment the pump 20 itself will also act as a fastening means for securing the tubing to the mixer 10.
A welder is used for sealing the blood bag by a clamping and melting action to provide a sterile seal.
The blood mixer may also be provided with a wireless communication device, such as a transceiver, configured to exchange information with a welder 24 and/or a computer 25. The communication can used for recording approved welds of tubing, for traceability purposes, to meet standards of GMP.
All information recorded in the mixer by the sensors is preferably stored in the unit, and is suitably provided as exportable text files although any kind of data format is of course possible. Furthermore, information is suitably used for controlling continued operation of the system. For example a low Hb value could be triggering a system warning to the operator in the form of a question if operation is to be discontinued.
The invention provides for a real-time assessment of the quality of the blood to be extracted by continuously measuring the Hb value of the blood.
The main issue for blood sampling is that the amount of haemoglobin be sufficient in each bag, and preferably the same in all blood bags in a blood bank. Due to the fact that Hb values vary between patients, this is not always the case. The method according to e.g. '553 (mentioned above) will not enable a precise prediction of the amount of haemoglobin in the sampled blood.
By using the apparatus according to the invention, the operator can monitor the accumulation of Hb and terminate the sampling when the exact amount is reached. If the Hb value is high, less blood needs to be collected, and if it is found that the Hb value is too low it is possible to terminate the collection.
Alternatively, the system processor can be programmed to make such decisions automatically.
The invention in a beneficial manner enables a reduction in process steps in blood collection.
Number | Date | Country | Kind |
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1551163-7 | Sep 2015 | SE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/SE2016/050844 | 9/9/2016 | WO | 00 |