DE4021355A1 - Removing blood from patient's vein - involves catheter connected to evacuated tube - Google Patents

Abstract

Blood is removed from the vein of a patient by means of a tube (11) with a screw cap (12) and elastic sealing disc (15) at one end and a plug (17) fitting in a hole (16) at the other end. The empty tube is placed in a vacuum chamber and the plug (17) is removed so that the interior of the tube (11) is evacuated. The plug (17) is then replaced and the tube removed from the vacuum chamber. The screw cap end of the tube is inserted in a housing fitted with a catheter (14) with pointed ends (13). The end (13') of the catheter is inserted in the patient's vein and the tube (11) pushed further into the housing so that the elastic disc (15) is pierced by the catheter end (11) and blood then flows into the tube (11). USE - Removal of a blood sample from a patient vein.

Description

The invention relates to a method for evacuating a Blood collection device according to the preamble of Claim 1.

With such blood sampling devices, the sample tube already evacuated in the manufacturing plant by the Ver end of the front end first removed and the whole te arrangement is then placed in a vacuum chamber. After which the required vacuum has been created the closure applied at the front end, especially on screwed. Then the sample tube is then removed the vacuum chamber removed, due to the hermetic vacuum at the front and rear ends is maintained inside. A special character The stic of such devices is the lack of a piston and a piston rod for vacuum generation.

Evacuation of blood drawn without a flask measuring devices can also be done in such a way that after the application of the closure, in particular the screwing on ben a screw cap, a Ela in the lock Pierce the stikplatte or membrane with a needle and on close the air in the sample tube the cannula is aspirated. But there is a risk that when piercing the membrane, it is injured where by itself z. B. can form cracks that lead to leaks lead in the membrane.

When using, the first one is preferably on a holder arranged, sharpened at both ends, first into the The patient's vein was inserted, followed by the  Sample tubes to the rear end of the cannula it is stated that this end is the pierceable elastic plate pierces and so a connection between the inside space of the sample tube and the inside of the cannula poses. The vacuum is now also inside the cannula effective, causing the blood to drain from the patient's vein sucks and into the specimen through the rear end of the cannula tube is directed. This process continues as long until the vacuum is applied in the sample tube.

Closing the front end of the sample tube under vacuum, however, is particularly problematic if the closure has to be screwed on. Here is too take into account that always a large number of samples tubes must be evacuated, so that cumbersome Screwing devices must be provided to a lot Number of sample tubes after evacuation at the same time hermetically sealed.

The object of the invention is to draw a blood to create device of the type mentioned at the access to the inside of the sample tube for vacuum production is facilitated.

To solve this problem, the features of the label the part of claim 1 provided.

The idea of the invention can be seen in the fact that in the ground an additional small hole is drilled in the sample tube hen is that by an additional, correspondingly small Sealing plugs can either be opened or closed can, regardless of the closure at the front end another way to access the inside of the sample tube chens is created.  

Such a hole is much easier under vacuum and to seal more rationally than the one in front Screw cap or the front plug, and especially if after a substantial Feature of the invention, the additional hole and the additional plug a much smaller cross section than that Have sample tubes. For the purpose of evacuation needs So only the comparatively small hole is kept open ten while the sample tube is at the front end already be provided with all closure elements can. In this state, the sample tube is placed in a Va arranged in a vacuum chamber. After the evacuation is still in the Vacuum chamber of the small sealing plug in the corresponding de hole inserted tightly. Only then will the sample tube Chen from the vacuum chamber again connected to the atmosphere taken out. The vacuum inside the sample tube is maintained. Preferably on Ver stopper and / or the end of the sample tube provided the insertion of the plug into the bore over a dimension ensuring the required seal prevent the plug from entering the vacuum Inside of the tube can be pulled.

The small hole in the bottom of the sample tube can also for filling in for blood test or blood test used in dance action. On in any case, however, after the filling process and the vacuum generator The plug must be inserted into the bore to allow the Seal the bottom of the sample tube in a vacuum-tight manner.

The small hole in the bottom of the sample tube can continue be used for sampling by placing the stopper after blood collection and, if necessary, centrifugation and a suction cannula is inserted from the outside. If the Stopper according to a preferred embodiment  tical, it can also be pierced by a suction cannula through which the suction into a sampling tube he follows.

Since the closure element is one in the bore insertable plug is a simple and only in mechanical device moving in one direction according to the Fill or evacuate insert the plug into the hole ren, which is also the case with a large number of sample tubes chen can be made.

After exiting the vacuum chamber, the stopper is opened due to the pressure difference between the inside of the sample tube chens and the atmosphere automatically into the hole pulled, so that even without additional fasteners ensure that the plug is properly fixed in the hole is accomplished.

It is be for a hermetic seal at the rear end particularly useful if the hole and the plug are taper conically or step-like from the outside to the inside. There the vacuum strengthens the sealing effect.

After the evacuation, the rear end is now through the Plug hermetically sealed, so that the vacuum despite the Provide a hole at the rear end safely up to the Ge need is maintained. Vacuum generation and that The plug can be used for a variety of bleeding devices simultaneously in one operation gene.

The sample tube is also through the small hole easier to manufacture.

The invention is described below, for example, with the aid of Drawing described; in this shows

Fig. 1 is a partially sectioned side view of a blood collection device, for evacuation according to the inventive method, and

Fig. 2 shows a further embodiment of a sample tube provided for an inventive blood sampling device.

According to Fig. 1 of a circular cylindrical sample tube is at the front end 11 is provided a closure member 12, on which an external thread 23 having front end of the sample tube is 11 screwed on the screw cap from a having a central aperture 24 and screwed to stand a Elastikplatte 15 with a the sample tube sealed andruckt 11 corresponding cross-section towards the front end edge 25 of the sample tube. 11

On the outer circular cylindrical screw cap 12 , a complementary guide sleeve 26 is axially slidable from the front, in the front closed end of which a cannula 14 protruding at the front is held, the rear end 13 of which protrudes into the cylindrical interior 27 of the guide sleeve 26 and also the front end 13 'is sharpened. The protruding into the interior 27 of the guide sleeve 26 de rear part of the cannula 14 can also be covered in a manner not shown by an elastic hose.

At the rear end, the sample tube 11 stood at a small distance from the rear end edge 28, preferably with a transverse wall 11 'with it, in which a conically tapering bore 16 is provided from the outside, in which a correspondingly conical elastic stopper 17 so is arranged that the bore 16 is hermetically sealed. The cross section of the bore 16 and the stopper 17 are considerably smaller than the cross section of the sample tube 11 . The cross section 16 is preferably only a fraction, for example less than half, of the cross section of the sample tube 11 . From the transverse wall 11 'extends rearward around the bore 16 around a one-piece collar 29 , within which there is a conical channel 30 which merges continuously into the small bore 16 . The channel 30 and the bore 16 thus together form a conical channel which tapers continuously from the rear to the front. At the front, the plug 17 , which also fills the channel 30 , has an annular flange 31 which seals against the front end of the bore 36 the front surface of the transverse wall 11 'creates.

The use and production of the blood according to the invention removal device are as follows:

First of all, the plug 17 is not yet inserted into the bore 16 , but the screw cap 12 is already screwed onto the front side of the sample tube 11 in such a way that the elastic plate 15 is printed close to the front end edge 25 .

In this state, the sample tube 11 is preferably brought with the bore 16 upward into a vacuum chamber (not shown). After the vacuum has been established, the plug 17 is then inserted tightly into the bore 16 by a suitable mechanical device (not shown). In particular, the annular flange 31 must have sufficient elasticity for this, so that it can be pressed under with a resilient pressure from the outside through the channel 30 and the bore 16 . Then the vacuum is switched off.

After the vacuum has disappeared, the plug 17 is pulled even more firmly into the bore 16 . There is thus a hermetic seal of the rear end of the sample tube 11 .

In use, the cannula 14 is first inserted into the patient's vein. After this has been done, the screw cap 22 is pushed into the guide sleeve 26 from behind, finally the rear end 13 of the cannula 14 piercing the elastic plate 15 . As soon as this has been done, the interior of the cannula 14 is connected to the vacuum present in the interior of the sample tube 11 , and the blood is now drawn more from the patient's vein through the cannula 14 into the sample tube 11 .

After the sample tube 11 is filled with blood in the desired manner, the guide sleeve 26 is pulled off again and either used again with a further sample tube or thrown away after being pulled out of the patient's vein.

The elastic plate 15 closes again by itself, and the blood contained in the sample tube 11 can now be transported to the destination, for example an investigation laboratory, without there being a risk that the blood contained in the sample tube 11 can escape anywhere.

The screw cap 22 can then be unscrewed at the destination and the blood can now be withdrawn in the desired manner or examined within the tube.

If the sample tube 11 is used as a centrifuge tube, the stopper 17 must be seated so tightly in the bore 16 that there is no risk during centrifugation that the stopper 17 is released from the bore 16 . This contributes to the transverse wall 11 'encompassing elastic ring flange 31 .

Are in the sample tube in the manufacture of any chemical substances, such as coagulation-promoting substances or a release agent are arranged, these substances can either be introduced into the interior of sample tube 11 12 before application of the screw cap, even before the plug 17 after the preparation of Vacuum is applied. However, it is also possible to introduce treatment liquids to be provided in the sample tube 11 after screwing on the screw cap 12 through the bore 16 into the interior of the sample tube 11 before the vacuum is generated and the bore 16 is closed with the stopper 17 .

According to FIG. 2, the elastic plate 15 extends over the entire cross-section at the front end of the sample tube 11, as in the exemplary embodiment according to FIG. 1. It is tightly pressed against the front end edge 25 of the sample tube 11 by the screw cap 12 provided with the concentric central bore 24 , which is screwed onto the front end of the sample tube 11 provided with an external thread 23 .

The bottom 11 'of the sample tube 11 is formed from flat again and provided with the small concentric cylindrical bore 16 in the middle. The annular collar 29 ', however, extends somewhat less backwards in this embodiment than the wall of the sample tube 11, so that in addition to a first step 36 there is a further ring step 37 for supporting a correspondingly two-stage stopper 17 . In this way, the plug 17 is particularly well supported in the axial direction against the vacuum force sucking it towards the interior of the sample tube 11 and a good seal is achieved.

In the illustrated embodiments, the sample tube 11 is simultaneously formed as a centrifuge tube. In this case, the plug 17 must sit tight enough in the channels 16 , 30 and 16 , 30 ', which can also be achieved in that it is glued or welded into the bore 16 or the channel 30 , 30 '. But you can also ensure that the stopper 17 is supported during centrifugation at the bottom of the receiving space of the centrifuge, so that the centrifugal forces acting on the stopper 17 are absorbed by the support element of the centrifuge.

If there is blood drawn from a patient in the sampling tube 11 , this can be divided according to FIG. 2 by centrifugation into the blood cake 32 collecting below and the serum 33 collecting above. A separating gel 34 can also be located between the blood cake 32 and the serum 33 .

In the embodiment of Fig. 2, the stopper 17 is also made soft, so that a suction cannula 35 pierce the stopper 17 and Chen can get into the Blutku 32 , part of which by applying a vacuum to the cannula 35 and the subsequent Suction device can be suctioned off. Instead, the stopper 17 could also be removed and the cannula then inserted through the bore 16 , which is particularly useful when the stopper 17 is made of hard elastic material.

The bore 16 does not necessarily have to be used to pull the vacuum; rather, the vacuum can also be drawn through the front opening 22 and then closed with a rubber stopper. In this case, too, the second opening 16 at the rear end of the tube offers significant advantages, namely the possibility of preparation on both sides and later sampling from below.

The sample tube 11 can be made of plastic, but also of glass or another material.

Claims (6)

1. A method for evacuating a blood collection device with an open at the front end, but by a screwable closure member ( 12 ) tightly closable and at the rear end by a preferably integrally molded bottom ( 11 ') hermetically sealed sample tube ( 11 ) in which a Vacuum can be maintained, the closure ( 12 ) preferably being provided with a sharpened rear end ( 13 ) of a cannula ( 14 ) by a pierceable elastic plate ( 15 ) which separates the interior of the sample tube ( 11 ) from the atmosphere, thereby characterized in that in the bottom ( 11 ') of the sample tube ( 11 ) a through-hole from the inside ( 16 ) is provided, which can be closed with a stopper ( 17 ) in a vacuum-tight manner, and that this is already at the front end by a screw cap or another screwable closure member ( 12 ) hermetically sealed sample tube ( 11 ) at not yet set plug ( 17 ) in the bottom is next brought into a vacuum chamber, that then the vacuum is established and, after reaching the prescribed vacuum, preferably by a suitable mounting device of the plug ( 17 ) in the bore ( 16 ) from the outside, that then the vacuum is switched off and the sample tube ( 11 ) is removed from the vacuum chamber. 2. The method according to claim 1, characterized in that the stopper ( 17 ) is additionally designed such that it can be pierced or removed with a cannula for taking a sample. 3. The method according to claim 1 or 2, characterized in that the bore ( 16 ) and a possibly adjoining to the outside channel ( 30 , 30 ') and the plug ( 17 ) taper conically or step-like from the outside to the inside. 4. The method according to any one of the preceding claims, characterized in that the stopper ( 17 ) is flexible. 5. The method according to any one of the preceding claims, characterized in that the bore ( 16 ) has a significantly smaller cross-sectional area than the interior of the sample tube ( 11 ) and / or the bare front opening ( 22 ) closed by the closure member ( 12 ). 6. Device according to one of the preceding claims, characterized in that the plug ( 17 ) used is flush with the rear end ( 28 ) of the sample tube ( 11 ).