NO128095B - - Google Patents

Description

Device for identification of a sample placed in a container.

The invention relates to a device for automatic identification of a sample placed in a container, especially samples of blood, urine etc. from e.g. patients in hospitals, where one or more coatings, foils etc. are attached to the outside of the container. of magnetisable material that enables the reception, storage and reading of information in a machine-readable form.

At hospital laboratories All over the world, a very large number of samples are received every day from e.g. blood,: urine etc. for analysis. Depending on the nature of the laboratory and the management of the hospital, the number of samples per day can amount to approx. 100-2000. Identification of all these samples often requires extensive writing and office work. Despite extensive Tcontroller, typographical errors and sample changes can occur, which can have the most serious consequences for a patient.

A commonly known way of identifying such sample containers is e.g. to create an identification code in or on the wall of the container. Such identification can be carried out in various ways, but common to all is that the identification code is optically readable and usually expressed in binary form. A container can thus be identified by e.g. a numerically coded label is affixed to the container, which is provided with a predetermined code combination by marking off. number field etc. It is also known to provide the container with optically readable lines on the outside of the container, which lines are arranged in the longitudinal direction of the container and around its circumference. This method is equivalent to the punch card principle and the reading takes place by turning the container around in a suitable reading device. A third method has been to use a special container with an attached identification plate. A previously binary-coded label is affixed to the plate, which in reality involves affixing a "hole" card, where the holes are replaced by black fields. A further method of identification is to provide the container in the base or top with holes in binary code.

Common to all these known methods is that they enable only very limited storage of information on the container, usually only in the form of a binary coded identification number. An auxiliary identification is thus required in order to determine the patient's name and date of birth, the date and time of the test, the hospital's department, the doctor's name, etc. This means that cross-references must be prepared that show the connection between the identification number on the container and the necessary data for the sample to be analyzed. Even if a computer can be used to perform these tasks, the known methods all require parallel open auxiliary identification. In practice, this will make each individual sample that is analyzed more expensive, just as applying the coding to the container is both cumbersome and time-consuming. Likewise, in most cases the container will only be able to be used once, depending on the method used. Such systems are a. known from the U.S. patent no. 3,526,125 where the sample is first placed in glass without any identification whatsoever. Only at a later stage is the identification attached to the sample glass. With this system, there is thus an open

bare risk of changing the sample, which of course can have disastrous consequences for the patient. 'The interface equipment is also both complicated and cumbersome. Blue. According to the patent, the system involves tearing off and sticking on a large number of self-adhesive identification tags. The possibilities for mix-up of the samples will also be present to a large extent at this point. The system is largely destructive in that all pyrometers are thrown away after the analysis. Using the proverors again by putting new adhesive patches on the previously used ones will hardly be practical, bg will offer several uncertainty factors. In addition, there is a limit to how many pieces of paper you can stick on each other. Another important point is also that the system according to this U.S. the patent requires that a laboratory technician must carry out a reasonably laborious operation in order to ensure that adhesive patches are applied promptly. When you then take into account that it can often involve approx. 1 dozen analyzes of each main sample, it is obvious that this system is not very practical, and has little in common with the present invention.

At the systems covered by the U.S. patents no. 3,266,298, 3,350,946 and 3,523,522 base the identification on a mechanical system with notches in plates, holes in bands, or based on an optical system. It appears that all these systems are only based on an identification number. In patent no. 3,266,298, the possibility of using a magnetisable coating on a band that protrudes from the container with the sample is mentioned. But the whole system that patent 3,266,298 deals with is based on the identification being just a number. In the latter patent, which essentially concerns the identification When donating blood, the sample board 34 is equipped with a tab 33 which can either be provided with optically readable markings 43 or electromagnetically readable markings, (column 3, lines 4-7). As is clear from fig. 1, this marking is only intended to provide information about the blood donor's identification number or the sample's number. It is also clear from fig. 2 that this method is destructive, as the prover can only be used once. It is also clearly intended that said prover 34 is to be physically linked to the blood container 21<p>g that only the sample's identification number is affixed to the prover's tab 33. It is clear that the extent of the tab 33 from the container is very limited and that the amount of information: which can be stored is thus also limited. As can be seen from all resistance teams, these are based on registration of the blood sample's serial number. However, it is . It is clear that an LBPE number is not sufficient identification when it comes to patients. You need to know the patient's name, date of birth, etc. Systems that only use numbers as identification must have a parallel computer system that can provide information about the connection between the identification number and which patient it is. Whether you use manual systems with lists or

ler index card, or you use a computer is in it-

ne connection indifferent. The principle is that with the present invention one does not have to use such a parallel lb. pendent computer system. The aforementioned disadvantages are avoided according to the invention by the initially mentioned coating, foil etc. may be arranged as a belt around the container. According to further features of the invention, the aforementioned coating, foil etc. for-

seen with a marking that forms a reference point for in-

and reading data respectively to and from the coating. The aforementioned marking can be a gap in the coating, the foil etc. or a field of non-magnetizable material, e.g. aluminum. Furthermore, between the coating, the foil, etc. and the container is provided with a pad of yielding material, which pad makes a smooth contact with one or more magnetic heads which de-energize the coating, foil, etc.

The identification takes place by data such as the patient's name, address, number etc. transferred to the magnetisable element which can be arranged on the surface of the container in which the sample is stored. When transferring data to or from the element, the container is placed in a suitable mechanical device which - rotates the container around, while one or more magnetic heads rest against the element. Input and output resp. to and from the element ... takes place in a manner known per se, i.a. known, from computer technology. The input can be done via a manual keyboard, punched cards, optically readable cards, punched tape, magnetic fields on cards or forms, other containers with a magnetizable coating, etc. This data is first sent into a suitable, "interface" equipment where said data is coded and stored by, at a specific time then transferred via the magnetic head to the rotating element. After the analysis has been carried out, the data from the element is transferred to a decoder unit, after which the retrieved data from the container's magnetisable element is presented in readable form together with the analysis results on suitable reading equipment, such as e.g. computer printer, computer monitor etc.

Fig. 1 shows a typical sample container, provided with a magnetisable coating or magnetic tape according to the invention,

In fig. 1 shows how a magnetizable element 1 is arranged to a sample container 2. To form a reference point on the element, this can be provided with a marking 3 in the form of a gap in the element or a non-magnetizable field in the element, e.g. formed from a thin aluminum strip, etc. In another embodiment, the element can be continuous and the container itself equipped with a reference device.

With the present invention, a prover is thus provided which can have one or more magnetisable coatings, foils, etc. arranged parallel to the circumference of the rudder. This entails the advantage that the identification is located directly in the wall of the cylindrical container which also serves as a container for the sample.

At the systems covered by the U.S. the patents No. 3,266. 698, 3,350,946 and 3,523,522 the identification is in a forward

spring on the containers or in a strip or band which is attached to it but which protrudes from the container. With the system according to the invention, the glasses with the sample can be placed

can be installed in standard racks and standard inserts for late trifugers. The containers that must be used in connection with said U.S. patents require special racks and special centrifuge inserts for each container type. This is a

obvious disadvantage which is overcome according to the invention. System-

one that is discussed in the U.S. patent no. 3,526,125 uses rik-tighok ordinary test tubes, but only for the main samples 54. By

that the magnetizable material can be incorporated into the wall of the container, makes it possible to obtain an even recording surface and consequently the sample container is easier to clean. The possibilities of damage to the magnetism-vulnerable material are reduced at the same time as the recording capacity is increased. Likewise, standard test tubes can now be used without having to discard these after each sample.

The information indicated on the container's magnetizable coating does not in itself indicate features of a technical nature, which are only used industrially or are industrially applicable, but only serve to identify the container's contents. To some extent, the same also applies to such information that was stored by the previously known methods, e.g. by punch card etc.

The system according to the invention with storage of the identification

in a magnetisable coating has such a large capacity that the patient's full name, date of birth, address, time of sampling and the like can be stored directly in the wall of the glass.

There you have a complete identification directly linked to the test. If necessary, this identification can be transferred automatically to other glasses where the chemical analysis of the sample takes place. When the results of the analysis are available, the complete identification can be retrieved from the wall in these glasses and the patient's name, date of birth etc. can be printed out. together with the result of the analysis.

Although the device is described in connection with a sample container as shown in fig. 1, there is of course nothing to prevent special containers being used within the scope of the invention where the magnetizable element is placed in the container's longitudinal direction, and even if the device is preferably intended to be used for medical purposes, there is of course nothing preventing it from being used for other purposes. With the present invention, it is also possible that the containers can be used several times, by the fact that the data that has been stored is deleted in a suitable device for a new sample to be analyzed when new data is read in. Likewise, it has been achieved that all the necessary data in connection with the analysis of the sample can be found on the sample container itself.'■'"■*■ "•-;'• ■

Claims (4)

1. Device for identification of a sample placed in a container, especially samples of blood, urine etc. from e.g. patients in hospitals, where one or more coatings, foils etc. are attached to the outside of the container. (1) of magnetisable material which enables the reception, storage and reading out of information in machine-readable form, characterized in that said packaging, foil etc. (1) can be arranged as a belt around the container (2). 2. Device as specified in claim 1, characterized in that said coating, foil etc. is provided with a marking (3) which forms a reference point for the input and output of data respectively to and from the coating (1). 3. Device as specified in claim 2, characterized in that said marking (3) can be a gap in the coating, foil etc. or a field of non-magnetizable material, e.g. aluminum. 4. Device as stated in claims 1-3, characterized in that between the coating, the foil etc. and the container can be provided with a pad of resilient material, which pad causes a smooth contact against one or more magnetic heads which deflect the coating, the foil etc. (1).