CONTAINER DEVICE FOR THE COLLECTION, STORAGE AND PROCESSING OF BLOOD OR A BLOOD COMPOUND (Machine-tr

专利摘要:
Device (1) container for the collection, storage and processing of blood or a blood compound, comprising a tube (10) with a connector (23) at a distal end (13) thereof, a piston assembly (30, 50) displaceable by an interior space (14) of the tube (10), a valve assembly (70, 90) preventing the passage of fluid through said distal opening (16) of the tube (10). The valve assembly (70, 90) is operable to allow passage of fluid through said distal opening (16). The device (1) allows vacuum to be created in the tube (10) when it is to be used, and allows the contents of the tube (10) to be extracted by operating the valve assembly (70, 90) without the need of using a needle. (Machine-translation by Google Translate, not legally binding)
公开号:ES2675824A1
申请号:ES201730029
申请日:2017-01-12
公开日:2018-07-12
发明作者:Eduardo Anitua Aldecoa
申请人:BTI Biotechnology Insttitute；
IPC主号:

专利说明:

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CONTAINER DEVICE FOR COLLECTION, STORAGE AND PROCESSING OF BLOOD OR A BLOOD COMPOSITE
DESCRIPTION
Technical sector
The invention relates to a container device for the collection, storage or processing of blood or a blood compound. In particular, the invention relates to a container device in which the vacuum is created just before use, and in which blood or a blood compound is stored and processed, and from which it is possible to transfer the blood or the compound to a second container, all without the obligation to use a needle.
State of the art
The extraction of a small amount of blood from a human or animal patient is usually done using a small container and a palomilla needle. The container has an interior space in which there is a depression (commonly referred to as "void") and an end or pierceable plug. The butterfly needle, in turn, consists mainly of a thin tube terminated in two needles, a first needle intended to be inserted into a patient's blood conduit, and a second needle intended to pierce the cap of the container.When the end needles of the popcorn needle are punctured in the blood conduit and in the container, a communication is established between the conduit blood and the interior space of the container, and the blood is suctioned by difference of pressures from the blood duct to the interior space of the second container.The butterfly can also comprise a plug to open and close the passage of fluid through the tube, to allow an operator to start and finish the blood collection by activating said shutter.
Once the extraction of blood to the container has been completed, the blood is usually processed within that container. For example, the container can be introduced into a centrifugal machine and centrifuged at a certain speed and for a certain time to separate the blood into fractions (for example, a fraction of red blood cells, a fraction of white blood cells, and a fraction of rich plasma in platelets). During or after blood processing, it is common to need to extract all or part of the contents of the container. To do this, a needle is usually inserted through the
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pierceable cap, sucking through all or part of the contents of the container. Once content is finished extracting, the needle is removed and the pierceable cap seals the container again. In other cases, the cap is removed and the needle or cannula is inserted into the container to aspirate the necessary fraction or fractions.
The use of needles carries certain risks. Of course, there is a risk that the operator will prick with the needle. In addition, there is a risk that the needle is contaminated and that contamination penetrates the pierceable cap and enters the container when the needle pierces and pierces the pierceable cap.
On the other hand, the containers used to draw blood are generally provided with said interior depression during its manufacture. In other words, the containers are already sold with “vacuum.” However, inherently to any plastic container with a vacuum inside, there is a slow loss of vacuum over time (that is, a slow increase of the internal pressure.) Therefore, when a plastic container with vacuum is used enough time after its manufacture, it may happen that the container does not work properly, that is, it is not able to extract the necessary volume of blood.
The objective of the present invention is to solve at least one of the above problems, that is, to solve the problems derived from the use of needles during the use of a blood collection container and / or to solve the problem of loss of vacuum during the time that the container remains stored before use. If possible, a container is also sought that avoids problems of contamination and manipulation of blood and its derivatives (problems that are associated with the execution of open circuit processes in which the contents of the container are exposed to the environment), avoiding the need to use laminar flow hoods.
Brief Description of the Invention
The object of the invention is a container device for the collection, storage and processing of blood or a blood compound. The device comprises a hollow tube, a piston assembly and a valve assembly. The tube comprises a tubular body and delimits a through interior space terminated in a proximal opening located at a proximal end of the tube and in a distal opening located at a distal end of the tube. At its distal end, the tube is provided with a connector. The piston assembly, in turn, is movable in the inner space of the tube and
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It comprises a piston head and a handle, which is preferably disconnectable from the piston head and can be reconnected to the piston head. The piston head is disposed at a distal end of the piston assembly and contacts the tubular body of the tube tightly, delimiting and isolating two regions in the inner space of the tube. The handle extends from the piston head and protrudes from the tube through the proximal end of the tube. The valve assembly, in turn, is arranged by blocking the passage of fluid at a distal end of the interior space of the tube and preventing the passage of fluid through said distal opening of the tube. The valve assembly is operable, for example by a pressure or perforation from the outside, to unblock the passage of fluid through said distal end of the interior space and allow the passage of fluid through said distal opening.
The device according to the invention allows to draw blood, store the blood, process the extracted blood and deliver all or part of the processed blood to a container, without requiring the use of needles for delivery. This increases user safety and the ease of execution of the process and reduces the risk of contamination of the biological substances involved. In addition, it allows the extraction, storage, processing and delivery of blood to a container in a closed circuit, that is, without opening the device or exposing the blood or its derivatives to the environment; This eliminates the need to require an expensive laminar flow installation.
Brief description of the figures
The details of the invention can be seen in the accompanying figures, not intended to be limiting the scope of the invention:
- Figure 1 shows a top perspective view of a tube of a device according to an embodiment of the invention.
- Figure 2 shows a lower perspective of the tube of Figure 1.
- Figure 3 shows a sectional elevation of the tube of Figure 1.
- Figure 4 shows a top perspective of a handle of a device according to an embodiment of the invention.
- Figure 5 shows a lower perspective of the handle of Figure 4.
- Figure 6 shows a sectional elevation of the handle of Figure 4, the section having been made according to the section plane 6-6 indicated in Figure 4.
- Figure 7 shows a top perspective of a piston head of a
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device according to an embodiment of the invention.
- Figure 8 shows a lower perspective of the piston head of Figure 7.
- Figure 9 shows an elevation of the piston head of Figure 7.
- Figure 10 shows a sectional side view of the piston head of Figure 7, the section taken according to the section plane 10-10 indicated in Figure 9.
- Figure 11 shows a top perspective of a septum of a valve assembly of a device according to an embodiment of the invention.
- Figure 12 shows a lower perspective of the septum of Figure 11.
- Figure 13 shows an elevation of the septum of Figure 11.
- Figure 14 shows a sectional side view of the septum of Figure 11, the
section taken according to section plane 14-14 indicated in Figure 13.
- Figure 15 shows a top perspective view of a base of a valve assembly of a device according to an embodiment of the invention.
- Figure 16 shows a lower perspective of the base of Figure 15.
- Figure 17 shows an elevation of the base of Figure 15.
- Figure 18 shows a sectional side view of the base of Figure 15, the
section taken according to section plane 18-18 indicated in Figure 17.
- Figure 19 shows a top perspective of a bell of a device according to an embodiment of the invention.
- Figure 20 shows a lower perspective of the bell of Figure 19.
- Figure 21 shows an elevation of the bell of Figure 19.
- Figure 22 shows a sectional side view of the bell of the
Figure 19, the section taken according to section plane 22-22 indicated in Figure 21.
- Figure 23 shows a sectional elevation of the assembled device and with the handle in an advanced position according to an embodiment of the invention.
- Figure 24 shows an enlarged view of the distal end of the device of Figure 23.
- Figure 25 shows six steps of an example sequence of use of the device of Figure 23.
- Figure 26 shows four remaining steps of said example sequence of use of the device of Figure 23.
- Figure 27 shows an enlarged view of the distal end of the device in the situation of the fifth step of Figure 25.
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- Figure 28 shows an enlarged view of the proximal end of the tube, with the piston head clipped to said proximal end.
- Figure 29 shows an enlarged view of the distal end of the device in the situation of the third step of Figure 26.
- Figure 30 shows an enlarged view of the upper part of a device according to a second embodiment of the invention.
Detailed description of the invention
Figures 1 to 22 show the different parts or components of a container device (1) according to an embodiment of the invention. Said device serves to collect, store or process blood or a blood compound, as will be explained in detail below.
The container device (1) of the present example comprises a tube (10), shown in Figures 1 to 3, into which a piston assembly (30, 50) is displaced. The piston assembly (30, 50) is formed by a piston or handle shaft (30), represented in Figures 4 to 6, and a piston head (50), represented in Figures 7 to 10. As will be seen in detail below, a distal end of the tube (10) is closed by a deformable and perforable valve assembly (70, 90), which is formed by a septum (70) and a base (90), respectively represented in Figures 11 to 14 and Figures 15 to 18. The device (1) may further comprise a bell (100), shown in Figures 19 to 22.
In Figures 1 to 3, the tube (10) of the device (1) is shown in detail first. Said tube (10) is formed along a longitudinal axis (11) and has a proximal end (12) and a distal end (13). The tube (10) is hollow, presenting an interior space (14) that extends along the entire length of the tube (10) from the proximal end (12) to the distal end (13) and ends in a proximal opening ( 15) and in a distal opening (16). The tube (10) is mainly formed by a tubular body (17) constituted by a cylindrical wall (18) arranged around the interior space (14). Following the wall (18), a second cylindrical wall (19) is arranged, smaller in diameter than the wall (18) and also arranged surrounding the interior space (14). Between said wall (18) and said second wall (19) a shoulder is arranged
(20) transition. After the second wall (19) and after a second shoulder
(21) Transition is provided with a third wall (22) substantially cylindrical and provided with a connector (23). In some embodiments, such as the one represented
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In the figures, the connector (23) is a threaded connection. Said connector (23) is preferably capable of being connected to a syringe; for example, the connector (23) may be a male "luer-lock" threaded termination, of the type defined in ISO 594, DIN / EN 1707: 1996 and 20594-1: 1993. A generally cylindrical skirt (24) extends distally from the second wall (19) surrounding the third wall (22) and the connector (23). The skirt (24) can be constructed as a continuation of the second wall (19), that is to say, have the same shape as the second wall (19). The function of the skirt (24) is to protect the connector (23) from possible contact with other bodies during handling of the device (1), for which it is preferable that the skirt (24) is longer than the connector (23 ), that is, protrudes distally with respect to the connector (23), as for example occurs in the embodiment shown. Finally, at the proximal end (12) of the tube (10) a lip (25) is provided that completely surrounds the proximal opening (15) and causes the proximal opening (15) to have a diameter smaller than the inside diameter of the tubular body (17).
Figures 4 to 6 show, in turn, the piston shaft or handle (30). Said handle (30) is formed along a longitudinal axis (31) and has a proximal end (32) and a distal end (33). The handle (30) is mainly formed by a tubular body (34) constituted by a substantially cylindrical wall (35). At the proximal end (32) of the handle (30), the handle (30) is provided with a handle or grip area (36), in this case in the form of two flat portions (37) extending transversely with respect to the longitudinal axis (31) and protrude towards the sides of the tubular body (34) in order to facilitate a user to pull or push the handle (30) in the direction of the longitudinal axis (31), as will be seen later. At the distal end (33) of the handle (30) there is a narrower neck (38) (that is, of smaller width or diameter) than the tubular body (34). In the neck (38) a connector (39) is provided, such as a threaded termination, for example male, for the disconnectable connection of the piston head (50), as will be seen in detail below. The connector (39) of the present embodiment, in particular, is a male threaded termination having threads that do not extend along the entire 360 degrees around the longitudinal axis (31) but extend into two projections Threaded opposites (40), this being the reason that the threaded termination (36) is not visible in the cross-section of Figure 6.
Figures 7 to 10, in turn, illustrate the piston head (50). Said piston head (50) is formed along a longitudinal axis (51) and comprises a body (52) with a connector (53) inside, in this case the connector (53) being a connection
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female thread. Both the body (52) and the connector (53) are formed around the longitudinal axis (51) From one proximal end of the body (52) and on opposite sides of the body (two) two projections (54) extend proximally, which they are slightly flexible elastically (that is, with a tendency to recover their resting position, represented in the figure). From each projection (54) two transverse projections (55) separated slightly from each other extend radially outwardly so that a space (56) oriented radically or transversely outwards is delimited between them. The piston head (50) comprises an inner cavity (57) that extends between the two projections (54) and through the connector (53). Said inner cavity (57) is blind, that is, it is closed at its distal end by a wall (58). The piston head (50) further comprises a skirt (59) extending and opening distally from the body (52) and having an edge (60), in this case wavy. Said edge (60), as will be seen in detail below, is capable of contacting the wall (18) of the tubular body (17) of the tube (10) along the entire perimeter of the edge (60) in order of providing a complete seal of the piston head (50) against said wall (18).
Figures 11 to 14 show several views of the septum (70) of the valve assembly (70, 90). The septum (70) is formed around a longitudinal axis (71) and has a first portion (72) and a second portion (73) narrower than the first portion (72) and extending distally therefrom. In the present embodiment, the first portion (72) and the second portion (73) are cylindrical and are connected by a decreasing width portion or conical portion (74). The septum (70) has an inner cavity (75) that extends from the proximal end of the first portion (72), through the first portion (72) and the second portion (73), and which is closed at its distal end by a wall (76). As can be seen, the inner cavity (74) can be slightly conical. As can be seen in Figure 12, through said wall (76) a slit or cut (77) can be arranged, which is normally closed preventing the passage of fluid through the wall (76). The wall (76) can be deformable, so that when the wall (76) deforms the cut (77) it opens allowing the passage of fluid to and from the inner cavity (75). Alternatively or additionally to the cut (77), the wall (76) can be pierceable to allow the insertion of a needle through the wall (76) and into the inner cavity (75). At the proximal end, the septum (70) has slightly flexible lips or circular projections (78) oriented in the direction of the longitudinal axis (71) and between which spaces (79) are defined.
Figures 15 to 18 show, in turn, the base (90) of the valve assembly
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(70, 90). Said base (90) is formed along a central longitudinal axis (91) and comprises a disk (92) arranged concentrically with central longitudinal axis (91). The disc (92) has a proximal side (93) and a distal side (94). A neck (95) extends distally from the distal side (94) of the disc (92). Said neck (95) is slightly tapered, in order to snap into the inner cavity (75) of the septum (70). The base (90) further comprises an internal longitudinal cavity (96) through, that is, which completely crosses the base (90) in the direction of the longitudinal axis (91). Said inner cavity (96) is arranged around said longitudinal axis (91).
Finally, Figures 19 to 22 show the bell (100), which is formed along a longitudinal axis (101) and comprises a hollow main body (102) provided with an interior space (103) sized to receive the body tubular (17) of the tube (10) of Figures 1 to 3. At an proximal end of the bell (100) an opening (104) is arranged to allow insertion of the tube (10) into the interior space (103). At a distal end of the bell (100), a neck (105) extends into the interior space (103). Said neck (105) has a first connector, which in this case takes the form of a first threaded connection (106), for the connection of the connector (23) of the tube (10). The first threaded connection (106) of the present embodiment is female, and more preferably a female "luer-lock" threaded termination, of the type defined in ISO 594, DIN / EN 1707: 1996 and 20594-1: 1993 Additionally, a second threaded connection (107) is disposed distally with respect to the first threaded connection (106). Said second threaded connection (107) is preferably a female threaded connection intended to be connected to a male threaded connection (126) of a throttle needle (120), as shown in Figure 24. An inner conduit (108) extends to through the neck (105), the first threaded connection (106) and the second threaded connection (107), and to a distal opening (109).
Figures 23 and 24 show the assembled device (1). As can be seen, the valve assembly (70, 90) is placed inside the tube (10), in the interior space (14). The second portion (73) of the septum (70) of the valve assembly (70, 90) is in the inner space (14), surrounded by - and preferably fitted against - the third wall (22) of the tube (10), so that the septum (70) is held fixed to said third wall (22) by friction. In turn, the base (90) is coupled to the septum (70), the neck (95) of the base (90) being inserted and retained by friction into the inner cavity (75) of the septum (70). The septum (70) is coupled to the base (90) with a slight pressure towards the base (90) so that the circular projections (78) of the septum (70) contact the distal side (94) of the base ( 90),
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consequently producing a seal that guarantees the seal with the base (90). The disc (92) of the base (90) is supported against the shoulder (20) of the tube (10).
The handle (30), meanwhile, is inserted into the tube (10), in the interior space (14) thereof. The connector (39) (in this case a threaded termination) of the handle (30) is connected in a disconnectable way (in this case unscrewable) to the connector (53) (in this case a threaded connector) of the piston head (50 ). When connected, the handle (30) and the piston head (50) can be moved together or in unison along the interior space (14) of the tube (10). The proximal end of the handle (30) protrudes from the proximal end (12) of the tube (10), so that the grip area (36) remains outside the tube (10) and accessible by a user's hand to push or pull of the shooter (30). The lip (25) of the proximal end (12) of the tube (10) fits against the tubular body (34) of the handle (30).
In the situation of Figures 23 and 24, the edge (60) of the skirt (59) of the piston head (50) contacts the wall (18) of the tubular body (17) of the tube (10) in a sealed manner along the entire perimeter of the edge (60), providing a complete seal of the piston head (50) against said wall (18) and separating the interior space (14) from the tube (10) into two chambers or regions ( 14a, 14b). The region (14b) located distally (in front) of the piston head (50) is sealed or sealed tightly by the piston head (50), by the wall (18) of the tube (10) and by the assembly valve (70, 90), and more particularly by the wall (76) of the septum (70) of the valve assembly (70, 90) that closes the inner cavity (75) of said septum (70).
In the situation of Figures 23 and 24, the handle (30) is in an advanced position with respect to the tube (10), that is, inserted to the maximum or almost maximum within the tube (10). If, from this situation, the user proceeds to pull the handle (30) backwards by exerting adequate force against the flat portions (37) of the handle (30) as if to attempt to extract it from the tube (10), the handle (30 ) begins to move proximally, increasing the volume of the region (14b) located in front of the piston head (50) and reducing the volume of the region (14a) located behind the piston head (50). The air from the region (14a) can pass between the lip (25) and the tubular body (34) and outward from the tube (10), allowing the pull of the handle (30); said air leaving the interior space (14) of the tube (10) between the lip (25) and the tubular body (34) of the handle (30) prevents the entry of bacteria and pollutants into the interior space (14) of the tube (10) In turn, the increase in volume of the sealed region (14b) causes a depression in said region (14b). When backing up
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enough to the handle (30), there comes a time, illustrated in Figure 28, in which the rear projection (55a) of the piston head (50) exceeds the lip (25) of the tube (10) and said lip (25 ) is received in the space (56) between the projections (55a, 55b) causing the piston head (50) to be clipped to the proximal end (12) of the tube (10).
Figures 25 and 26 show a sequence of steps according to an example of use of the device (1) above, where Figure 25 comprises six steps and Figure 26 illustrates four steps of the sequence.
As can be seen in Figure 25, the sequence of use is started with the step of obtaining the device (1) in the situation of Figure 23, that is, with the handle (30) in an advanced position inside the tube (10 ). Then, in a second step, the user pulls the grip area (36) of the handle (30) and causes the handle (30) to retract into the tube (10) until the piston head (50) is clipped to the proximal end (12) of the tube (10) (as described above with reference to Figure 28) and that in the region (14b) a depression has formed. In a third step, the user proceeds to rotate the handle (30) with respect to the longitudinal axis (31), unscrewing the connector (39) from the handle (30) of the connector (53) of the piston head (50), and proceeds to remove the handle (30), the device (1) remaining in a configuration in which it resembles a tube with conventional vacuum, of the type used to extract relatively small doses of blood from a human or animal body. Then, in a fourth step of the sequence, a popcorn needle (120) is taken, of the type known in the prior art. The popcorn needle (120) comprises a flexible tube (121), which one end has a first needle (122) accompanied by a flat piece or popcorn (123) and at the opposite end has a second needle (124) which is It extends from a connector (125) that has a male threaded connection (126). In said fourth step of the sequence, the first needle (122) is inserted into a patient's vein, pressing the knob (123) against the patient's skin to stabilize the first needle (122), and the second needle ( 124) in the inner duct (108) of the bell (100) while the threaded connection (126) of the connector (125) is screwed into the second threaded connection (107) of the bell (100). Then, in the fifth step of Figure 25 (illustrated in greater detail in the enlarged view of Figure 27) the device (1) is introduced under vacuum (i.e., with a depression in the region (14b)) in the space inside (103) of the bell (100) and screw the connector (23) of the tube (10) to the first threaded connection (106) of the bell (100), causing the second needle (124) of the needle knob (120), either drill the wall (76) of the septum (70) of the valve assembly (70, 90), or cut through the cut (77), and consequently the second
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needle (124) is communicated with the inner cavity (75) of the septum (70) and with the inner cavity (96) of the base (90). In this way, a fluid passage space is established between the patient's vein and the region (14b), the passage of blood from the vein into the region (14b) being initiated due to pressure differences. There comes a time that the situation of the last step of Figure 25 is reached, in which the region (14b) has been filled with blood (130).
In a next step (first step of Figure 26), the user unscrews and disconnects the popcorn needle (120) from the tube (10), leaving a tube (10) closed and filled with blood (130), ready to process. For example, the processing may consist of centrifuging the tube in a centrifugal machine to separate the blood (130) into two or more fractions (131, 132, 133) as is well known in the fields of medicine and dentistry. Once the blood is separated into fractions (131, 132, 133), the user proceeds with the second step of Figure 26, consisting of reconnecting the handle (30) to the piston head (50), in this case by twisting the connector (39) of the handle (30) to the connector (53) of the piston head (50). Then, as shown in the third step of Figure 26, the user proceeds to connect a conventional syringe (140), of the type comprising a female threaded connection (141) "luerlock" at its distal end, screwing said threaded connection (141) "female luer-lock" to the male connector (23) threaded "luer lock" of the tube (10). As can be seen in the enlarged view of Figure 29, when connecting the threaded connection (141) to the tube (10), the threaded connection (141) pushes the septum (70) of the valve assembly (70, 90) inwards, causing the compression of the second portion (73) and causing the cut (77) to open and therefore a fluid passage space is formed through the wall (76) of the septum (70), leaving the inside of the syringe (140) communicated with the region (14b) of the device (1) through the open cut (77), the inner cavity (75) and the inner cavity (96). Then, as shown in the last step of Figure 26, the user pushes the handle (30) with some force causing the clipping between the projections (55a, 55b) of the piston head (50) and the lip ( 25) of the tube (10) is released. It can also happen that the clipping between the projections (55a, 55b) of the piston head (50) and the lip (25) of the tube (10) has already been released previously by the action of the centrifugal force during the centrifugation process . By continuing to push the handle (30), said handle (30) and the piston head (50) move forward along the interior space (14) of the tube (10), pushing the fraction or fractions (133, 132 , 132) that are desired, completely or partially, and causing their transfer to the syringe (140) (by way of example, in the illustrated method, only the entire forward fraction (133) is transferred). Once the fraction or fractions have been transferred (133, 132, 131)
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desired, the user can unscrew the syringe (140) from the device (1) and use the fraction or fractions (133, 132, 131) (in this case the fraction (133)) contained in the syringe (140) for various medical applications . Note that in other examples of use of the device (1), the same syringe (140) can receive the contents of more than one device (1).
That is, the device (1) according to the invention allows to draw blood, process the extracted blood and deliver all or part of the processed blood to a conventional syringe, without requiring the use of needles for delivery or exposing the contents of the device to the outside. . This increases user safety and the ease of execution of the process and reduces the risk of contamination of the biological substances involved.
Alternatively to what is illustrated in the sequence of Figures 25 to 26, a conventional bell of the type of which does not comprise a first threaded connection (105) could be used instead of the bell (100). In that case, the bell would be fixed by pressure or friction to the skirt (24) of the tube (10) and / or to the surface of the tubular body (17) of the tube (10). That is, the hood (100) described herein is optional and the device (1) is perfectly usable with conventional blood collection hoods. However, the bell (100) described herein is advantageous because it makes it possible to choose precisely the depth at which the needle is to be placed. Furthermore, by rotating the first threaded connection (106) of the bell (100) with respect to the tube (10), a progressive opening of the valve assembly (70, 90) can be made, allowing to regulate the flow of fluid flowing through the assembly valve (70, 90).
Figure 30 shows an alternative embodiment of the invention, in which the tubular body (34) of the handle (30) comprises protrusions (41) radially protruding from the tubular body (34). As can be seen, between two consecutive protuberances (41) there is a valley or retention space (42), preferably dimensioned so that the lip (25) is retained and relatively adjusted between said two consecutive protuberances (41) and within the space (42), retaining the handle (30) so that it does not move longitudinally unless the user pulls or pushes the handle (30) with a force above a predetermined threshold. Preferably also, as can be seen in the figure, the protuberances (41) are organized in pairs, the handle (30) counting with at least two pairs of protuberances (41). Between each pair of protuberances (41) there is a separation greater than the length of the space (42). Thus, the shooter (30) provides at least two
lip retention spaces (42) (25). The user can pull the handle (30) and, as he removes the handle (30) from the tube (10), the lip (25) goes through the tubular body (34) and is retained in each space (42), while the device emits a slight clicking sound every time the lip (25) overcomes a protuberance (41) and enters 5 into the space (42). In summary, the present embodiment allows the handle (30) to be adjusted in different discrete positions with respect to the tube (10), each position corresponding to a specific chamber volume (14b) with vacuum. The adjustment is very intuitive thanks to the successive audible clicks issued each time a discrete position is reached.
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Finally, in alternative embodiments of the invention, it is contemplated that the piston head (50) and the handle (30) may be formed as a single piece, manufactured for example by injection in mold.

权利要求:
Claims (15)
[1]
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1. Device (1) container for the collection, storage and processing of blood or a blood compound, characterized in that it comprises:
- a hollow tube (10), which comprises a tubular body (17) and that delimits an interior through space (14) terminated in a proximal opening (15) located at a proximal end (12) of the tube (10) and in a distal opening (16) located at a distal end (13) of the tube (10), wherein said tube (10) further comprises a connector (23) at said distal end (13),
- a piston assembly (30, 50) movable in the interior space (14) of the tube (10) and comprising a piston head (50) and a handle (30), where the piston head (50) is arranged at a distal end of the piston assembly (30, 50) and tightly contacts the tubular body (17) of the tube (10) delimiting and isolating two regions (14a, 14b) in said interior space (14) of the tube (14) 10), and where the handle (30) extends from the piston head (50) and protrudes from the tube (10) through the proximal end (12) of the tube (10),
- a valve assembly (70, 90) arranged by blocking the passage of fluid at a distal end of the interior space (14) of the tube (10) and preventing the passage of fluid through said distal opening (16) of the tube (10) ), and wherein said valve assembly (70, 90) is operable to unlock the passage of fluid through said distal end of the interior space (14) and allow the passage of fluid through said distal opening (16).
[2]
2. Device (1) according to claim 1, characterized in that the valve assembly (70, 90) is operable by a pressure exerted on a wall (76) distal of said valve assembly (70, 90) towards the proximal end (12) of the tube (10), said pressure producing a deformation of the valve assembly (70, 90) that causes the formation of a fluid passage space through the valve assembly (70, 90).
[3]
Device (1) according to claim 2, characterized in that said wall (76) comprises a through cut (77) that adopts a closed and sealing configuration in the absence of said pressure and an open configuration in the presence of said pressure .
5
10
fifteen
twenty
25
30
35
[4]
Device (1) according to claim 1, characterized in that the valve assembly (70, 90) is operable by means of a perforation made by a needle through said valve assembly (70, 90), producing said drilling the formation of a fluid passage space through the valve assembly (70, 90) and said needle.
[5]
5. Device (1) according to claim 1, characterized in that the handle (30) is disconnectable from, and reconnectable to the piston head (50).
[6]
Device (1) according to claim 1, characterized in that the handle (30) is connected to the piston head (50) by a threaded joint between a threaded connector (39) of the handle (30) and a threaded connector (53) of the piston head (50).
[7]
7. Device (1) according to claim 1, characterized in that the piston head (50) can be fixed by clipping to the proximal end (12) of the tube (10).
[8]
Device (1) according to claim 7, characterized in that the piston head (50) comprises at least one or more projections (54) elastically and radially deformable, which are clipable to the proximal end (12) of the tube (10) for retaining the piston head (50) in a position adjacent to said proximal end (12) of the tube (10).
[9]
Device (1) according to claim 1, characterized in that the handle (30) has a tubular body (34) that contacts a lip (25) of the tube (10) throughout the perimeter of the tubular body ( 34) during the movement of the handle (30) with respect to the tube (10).
[10]
Device (1), according to claim 9, characterized in that the handle (30) comprises at least two spaces (42) where the lip (25) can be housed alternately to define discrete positions of the handle (30) with with respect to the tube (10), each discrete position corresponding to a different volume of a region (14b) to the vacuum of the device (1).
[11]
11. Device (1) according to claim 1, characterized in that the connector (23) of the tube (10) is a luer connection.
[12]
12. Device (1) according to claim 11, characterized in that the connector (23) of the tube (10) is a male luer connection.
[13]
13. Device (1) according to claim 1, characterized in that it further comprises a bell (100) comprising an interior space (103) sized to receive the tubular body (17) of the tube (10), and comprising in addition a neck (105) is
5 extends from a distal end of the bell (100) towards the interior space (103), said neck (105) comprising a threaded connection (106) for the connection of the connector (23) of the tube (10).
[14]
14. Device (1) according to claim 1, characterized in that the threaded connection 10 (106) of the bell (100) is a luer connection.
[15]
15. Device (1) according to claim 14, characterized in that the threaded connection (106) of the bell (100) is a female luer connection.
16. Device (1) according to claim 1, comprising a bell
friction coupled to the distal end (13) of the tube (10).

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同族专利:

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公开号 | 公开日

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EP3569146A1|2019-11-20|

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EP3569146B1|2020-09-23|

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CL2019001872A1|2019-10-18|

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BR112019014436A2|2020-02-27|

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PT3569146T|2020-12-09|

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MX2019007450A|2019-08-29|

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AR110827A1|2019-05-08|

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PE20191223A1|2019-09-11|

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CN110167442A|2019-08-23|

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CA3048784A1|2018-07-19|

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US20180192933A1|2018-07-12|

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PL3569146T3|2021-03-08|

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KR20190102064A|2019-09-02|

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RU2019125029A|2021-02-12|

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ES2832754T3|2021-06-11|

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TW201831139A|2018-09-01|

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WO2018130734A1|2018-07-19|

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RU2019125029A3|2021-02-26|

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CO2019007353A2|2019-07-31|

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ES2675824B1|2019-04-29|

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JP2020505101A|2020-02-20|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

CN2726529Y|2004-09-22|2005-09-21|萨摩亚商质量管理有限公司|Hemostix structure with readily detachable needle|

---

CN1994224A|2006-01-06|2007-07-11|张洪杰|A suction type hemostix|

---

EP2327434A1|2008-09-10|2011-06-01|Terumo Kabushiki Kaisha|Medical device|

---

EP2870913A1|2012-07-03|2015-05-13|Biotechnology Institute, I Mas D, S.L.|Device for the extraction, storage and/or treatment of blood or other substances of human or animal origin, and for the use of blood compounds or other biological compounds|

---

US20160354020A1|2015-06-03|2016-12-08|Biotechnology Institute, I Mas D, S.L.|Device for the collecting of blood or a blood compound|

---

DE1127031B|1958-12-04|1962-04-05|Karl Erik Harry Danielsson|Syringe for medical purposes|

---

CA928600A|1967-12-05|1973-06-19|Ims Ltd.|Blood sampling tube holder|

---

US3577980A|1968-05-28|1971-05-11|Milton J Cohen|Fluid extraction device|

---

US3931815A|1973-08-29|1976-01-13|Jintan Terumo Company, Ltd.|Assembly having an adapter and a holder with a double ended needle|

---

US4133863A|1977-03-23|1979-01-09|Sherwood Medical Industries, Inc.|Collection tube assembly and method for collecting biological fluids|

---

DE3018262C2|1980-05-13|1983-01-20|Walter Sarstedt Kunststoff-Spritzgußwerk, 5223 Nümbrecht|Blood collection device|

---

US4370987A|1980-10-07|1983-02-01|Seymour Bazell|Medical fluid collection device|

---

US4890627A|1987-11-09|1990-01-02|Habley Medical Technology Corporation|Manually evacuated suction tube|

---

FR2660544B1|1990-04-10|1993-12-24|Collin Joel|DEVICE FOR TRANSFERRING ARTERIAL OR VENOUS BLOOD FROM A VACUTAINER TO A SYRINGE.|

---

US5086783A|1990-10-31|1992-02-11|Sherwood Medical Company|Blood sampling device|

---

AU6494300A|1999-08-17|2001-03-13|Porex Technologies Corporation|Self-sealing materials and devices comprising same|

---

US6994699B2|2002-06-12|2006-02-07|Baxter International Inc.|Port, a container and a method for accessing a port|

---

US7140592B2|2002-12-31|2006-11-28|Cardinal Health 303, Inc.|Self-sealing male Luer connector with biased valve plug|

---

US7651481B2|2004-12-30|2010-01-26|CareFusion 303 Inc.|Self-sealing male connector device with collapsible body|

---

CN101528243B|2006-10-27|2012-07-18|尼普洛株式会社|Platelet-rich plasma separator and platelet-rich plasma separation method|

---

CA2646261A1|2007-12-14|2009-06-14|Tyco Healthcare Group Lp|Blood collection device with tube retaining structure|

---

US9174007B2|2010-03-15|2015-11-03|Becton, Dickinson And Company|Medical device including an air evacuation system|

---

ES1073745Y|2011-01-19|2011-05-06|Ventosa Enric Jorda|DEVICE FOR EXTRACTION AND OBTAINING BLOOD PLASMA AND / OR FAT|

---

IT1403656B1|2011-01-28|2013-10-31|Frattini Paolo Giuseppe Gobbi|HERMETIC CLOSURE CONNECTOR, PERFORTABLE WITHOUT NEEDLE AND AUTOMATICALLY CLOSABLE FOR TIGHTENING, FOR FLEXIBLE PIPES INTENDED FOR THE COLLECTION AND DISTRIBUTION OF LIQUID SOLUTIONS FOR PHARMACOLOGICAL AND / OR NUTRITIONAL USE.|

---

WO2012170855A1|2011-06-08|2012-12-13|Becton, Dickinson And Company|Safety blood collection syringe having manually retractable needle|

---

AU2012326110B2|2011-10-20|2015-08-20|Becton, Dickinson And Company|Syringe with breakable plunger for arterial blood gas sample collection|

---

ITMI20121133A1|2012-06-27|2013-12-28|Frattini Paolo Giuseppe Gobbi|BOTTLE FOR PHARMACOLOGICAL AND / OR NUTRITIONAL ACTIVE SUBSTANCES WITH PERFORABLE ERMETIC CLOSURE WITH NEEDLE SYRINGE AND AUTOMATICALLY CLOSABLE TO HOLD.|

---

DE102012016936A1|2012-08-27|2014-02-27|Sarstedt Ag & Co.|Device for taking body fluids and method for mounting such a device|

---

CN104884026B|2012-12-28|2018-04-24|株式会社Jms|Bottle shield|

---

EP3769681B1|2015-06-12|2022-03-02|Magnolia Medical Technologies, Inc.|Bodily-fluid sampling and transfer device|

---

US20170153165A1|2015-11-30|2017-06-01|Chidozie O. Nwadigo|Syringe assembly for withdrawing two separate portions of fluid following a single engagement with fluid port|

---

WO2017093838A1|2015-12-03|2017-06-08|Lacerta Technologies Inc.|Method and apparatus for preparing blood fraction concentrate|GB2568968A|2017-12-04|2019-06-05|Rocket Medical Plc|Drainage apparatus|

---

WO2020194565A1|2019-03-27|2020-10-01|テルモ株式会社|Barrel for female syringe and female syringe assembly|

---

WO2020250853A1|2019-06-13|2020-12-17|株式会社トップ|Blood collection tube holder and blood collection kit|

法律状态:
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优先权:

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申请号 | 申请日 | 专利标题

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ES201730029A|ES2675824B1|2017-01-12|2017-01-12|CONTAINER DEVICE FOR THE COLLECTION, STORAGE AND PROCESSING OF BLOOD OR A BLOOD COMPOUND|ES201730029A| ES2675824B1|2017-01-12|2017-01-12|CONTAINER DEVICE FOR THE COLLECTION, STORAGE AND PROCESSING OF BLOOD OR A BLOOD COMPOUND|

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CA3048784A| CA3048784A1|2017-01-12|2018-01-09|Container device for collecting, storing and processing blood or a blood compound|

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PL18709056T| PL3569146T3|2017-01-12|2018-01-09|Container device for collecting, storing and processing blood or a blood coumpound|

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CN201880006550.0A| CN110167442A|2017-01-12|2018-01-09|For collecting, storing and handling the case of blood or blood compounds|

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ES18709056T| ES2832754T3|2017-01-12|2018-01-09|Container device for the collection, storage and processing of blood or a blood compound|

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CL2019001872A| CL2019001872A1|2017-01-12|2019-07-05|Container device for the collection, storage and processing of blood or a blood compound|

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CONC2019/0007353A| CO2019007353A2|2017-01-12|2019-07-09|Container device for collecting, storing and processing blood or a blood compound|