DE102008042971A1 - Centrifuge for use in e.g. industry for separation of components of liquids from magnetizable particles, has magnet device arranged and designed such that magnetic force acts on lower area of container for holding particles - Google Patents

Abstract

The centrifuge (10) has a centrifuged body (20) rotatable around an axis and provided with a retaining device (50) for accommodation of a container (60), where the container contains fluids (70) e.g. liquids. A magnet device (110) is arranged and designed in such a manner that magnetic force acts on a lower area (90) of the container during completion of rotation of the body for holding magnetizable particles (80) in the lower area of the container by magnetic force. The magnet device is arranged at a distance from the retaining device. Independent claims are also included for the following: (1) a method for separation of components of a fluid from magnetizable particles (2) a software stored on a data medium for controlling or implementing a method for separation of the components of the fluid from the magnetizable particles.

Description

BACKGROUND OF THE INVENTION

The The present invention relates to the separation of fluids.

centrifuges are often used for substance separation, especially for fluids (such as liquids and gases) used. It uses centrifuges by rotation, the inertia. Particles or media with higher density migrate due to the higher inertia reinforced to the outside. At the same time displace they use the lower density ingredients that hereby become the center reach.

Such centrifuges are well known in the art and represent standard equipment in industry and labor. US 4,772,254 A describes a typical construction of a centrifuge, in which the vessels are placed with the content to be separated in a rotor which rotates about an axis of the rotor relative to a stator. Another principle uses the WO 93/10455 A1 in which the vessel with the liquid is rotated about a rotation axis of the vessel itself.

Especially in the field of protein isolation so-called magnetic beads are often used to isolate certain proteins. For example, the proteins to be isolated can be bound to these magnetic beads. In a subsequent separation process, the magnetic beads are bonded by applying a magnetic force and the remaining liquid can be removed. This is described for example in the brochure "Protein Isolation", 2004, Dynal Biotech Company , please refer http://www.invitrogen.com/site/us/eri/home/brands/Dynal.html ,

For the separation of liquids from magnetic beads, a device of the company Invitrogen Dynal AS, Oslo, is known. This "Dyna Mag-2 Magnetic Particle Concentrator" (Catalog No. 123.21 D) . http://www.invitrogen.com/site/us/en/home/brands/Dynal/Magnets.htm , consists of a rack for holding several reaction vessels, which can be hung in corresponding recesses. In the suspended state, the lower region of the reaction vessels is closely spaced from a magnetic wall, so that a magnetic force acts on this lower region of the reaction vessels. By the magnetic force, the magnetic beads are held in the respective lower portion of the reaction vessels and the liquid located above can be removed, for example by a pipetting process.

EPIPHANY

It The object of the present invention is the separation of fluids with To improve magnetic beads contained therein. The task is solved by the characteristics of the independent Claims. Advantageous embodiments are in the dependent claims.

A Centrifuge according to the present invention has a centrifuging and a magnetic device. The centrifuge is rotatable about an axis and has a receiving device for receiving one or more Vessels open. Every vessel can contain a fluid. By rotation of the centrifuging may be components of the fluid due to inertia be separated, so that heavier components of the fluid Increased in a lower area of the vessel accumulate. Typically, the vessel has a Area with an opening referred to as the upper area should be, and the lower area is on the opposite End of the vessel.

The Magnetic device is arranged and designed so that at least from a termination of a rotation of the centrifuging on the lower part of the vessel (or more the vessels) at least for a time a magnetic force acts as magnetizable particles (eg the magnetic beads as described above), located in the lower part of the vessel to hold there by means of magnetic force. It should be the Term "hold" mean that the magnetizable Particles under the influence of magnetic force amplified in the lower area of the vessel opposite a state without magnetic force are retained, or that the magnetisable particles are not magnetizable Particles reinforced under the influence of magnetic force retained in the lower area of the vessel become.

By the magnetic force already acts at least from the end of the rotation (and thus the centrifuging), the magnetizable particles separated by the centrifugation and accumulated in the lower region of the vessel are held immediately from the completion of rotation, and it can thus best a back-diffusion of magnetizable particles are counteracted back into the fluid. The fluid or at least a part thereof can be removed and the magnetisable particles remain largely in the vessel (in particular in relation to a state without application of a magnetic flux). The invention prevents so that the separation takes place again at least partially lost, z. B. by the vessel must be removed from the centrifuge to then hold it in the rack with magnetic wall described above, to remove the fluid there. This leads to an improved separation efficiency and reduces the necessary work steps.

It it is clear that even despite applied magnetic field, a back-diffusion the magnetizable particles will be made, the stronger is, the weaker the applied magnetic field. Yet allows the device according to the invention a significantly improved separation performance, especially by losing time and avoid transport of the reaction vessels becomes.

This Advantage according to the invention already results from that the magnetic force at least from the completion of the rotation of the centrifuging on the lower part of each vessel acts and this at least for a time, z. B. until that the above Fluid is at least partially removed is maintained. Naturally The magnetic force can already during the rotation and especially before the rotation is completed.

For Many applications will not require the magnetic force shut off so that permanent magnets can be suitably used and the magnetic force acts permanently. Alternatively, the magnetic device be executed so that the magnetic force is switched on or off, z. B. by use of electromagnets.

The Magnetic device can be found both in a moving element of Centrifuge, ie in particular the centrifuging, as also in a stationary element of the centrifuge, a so-called Stator, are located. In addition, the magnetic device can also be up distribute both movable and immovable elements of the centrifuge. By Arrangement of the magnetic device within the centrifuging body, in particular closely spaced from the receiving device can the magnetic field particularly adapted to the particular vessel become. By reducing the distances between magnet devices and vessel can also increase the strength of increases the vessel acting magnetic field be or must be applied only a lower magnetic field.

alternative or in addition, the magnetic device may be in the Stator be located or be arranged as part of it. In a preferred embodiment the stator is designed to be along and spaced located to a circular path, which is the lower area of a in the Recording device of Zentrifugierkörpers located vessel at a rotation describes. Preferably, the magnetic device in the stator rotationally, in particular annular, arranged to the circular path.

at an embodiment in which the vessels during a rotation (at an angle opposite the axis of rotation) are pivoted so that the vessels increasingly horizontal or at least at a reduced angle held against the horizontal, is the magnetic device preferably arranged so that they at least from a termination the rotation of the lower portion of a respective vessel (as close as possible). A pivoting The magnet device can be done, but for many Applications may not be required and the increased mechanical Justify the effort.

A further preferred embodiment is the so-called "swinging bucket" mode or pivoting cup centrifuge, as well known in the art and z. B. in the US 3,399,105 A or the EP 0612565 A1 described. In the swing cup centrifuge, the vessels are held so that they can "swing out" during centrifugation, ie the vessels reduce during centrifuging an angle relative to the horizontal. The advantage of such a pivoting cup centrifuge is that it can be carried out so that the reaction vessels after centrifuging almost vertically, also z. B. relative to the magnetic device, may be what the removal of the fluid z. B. greatly simplified by pipetting. (ie no pipetting must be made against the angle of the centrifuge rotor). The magnetic device can be realized in the stator. During centrifugation, the reaction vessels then swing outward and move away from the magnet device. After completion of the centrifugation, the reaction vessels then come into close contact with the magnetic device, whereby the magnetizable particles (eg iron-containing particles) at the bottom of the reaction vessel 60 collect and hold. However, the magnetic device can also be directly connected to or in the receiving device 50 be provided and held so that it remains in contact with the vessel during centrifugation and swings with.

DESCRIPTION OF THE DRAWINGS

The The invention will be further described below with reference to the drawings explained, with the same reference characters to the same or functionally identical or similar features.

1 schematically illustrates an embodiment according to the present invention.

2 shows a further embodiment of a centrifuge according to the invention 10 ,

In 1 has a centrifuge 10 a centrifuge 20 and a stator 30 on. The centri fugierkörper 20 can be compared to the stator 30 around an axis 40 be rotated and is preferably driven by a (not shown) motor, as is well known in the art.

The centrifuge 20 has one or more receiving devices 50 on, each for receiving a vessel 60 are formed. In the illustration in 1 is a part of the outer wall of the centering body 20 graphically broken out so that the recording device executed in this area 50 with a receptacle contained therein 60 becomes visible. The vessel shown there 60 contains a fluid 70 , which further comprises magnetizable particles 80 , z. B. as the initially mentioned magnetic beads has.

By rotation of the centrifuging 20 around the axis 40 become the components of the fluid 70 separated due to inertia, so that heavier components of the fluid increases in a lower region 90 of the vessel 60 accumulate. The lower area 90 is located at one opposite an opening 100 opposite end of the vessel 60 , By centrifuging the magnetizable particles 80 which are typically heavier than others in the fluid 70 contained ingredients, increasingly in the lower range 90 move and accumulate there.

In the embodiment according to 1 is at least one and preferably each receiving device 50 with a magnetic device 110 provided so on the lower area 90 an inserted vessel 60 a magnetic force can act. Preferably, the magnetic device 110 executed by a corresponding permanent magnet, the shape of the inserted vessel 60 can be adjusted. Correspondingly, in particular electromagnets can be used, so that the magnetic field can be switched on and off.

By the magnetic device 110 can be a magnetic force (in particular) on the lower area 90 of the vessel 60 act, so that the magnetizable particles 80 in this lower area 90 being held. In the case of a non-permanent magnet, the magnet device is 110 designed so that the magnetic field at least from a termination of rotation of the centrifuging 20 acts. In addition, the magnetic force can already be applied during centrifugation.

While the outer structure in principle according to 1 corresponds, is in the embodiment according to 2 the magnetic device 110 not in the centrifuge 20 but in the stator 30 arranged. In the embodiment according to 2 is the magnetic device 110 designed so that the lower area 90 a respective vessel 60 at least upon completion of a rotation of the magnetic device 110 as closely spaced as possible. Preferably, the magnetic device exists 110 in 2 from one or more annularly arranged permanent magnets. Alternatively, non-permanent magnets such as in particular electromagnets can be used. By choosing the spacing between the magnet device 110 and the respective lower area 90 a vessel 60 The shape and strength of the generated magnetic field can be adapted to the particular application and the required conditions. In particular, by reducing the distance between the lower area 90 and the magnet device 110 the strength of the magnetic field can be increased.

For separating components of the fluid from those in the fluid 70 contained magnetizable particles 80 First, a centrifugation of the fluid 70 by rotation of the centrifuging 20 , so that the magnetizable particles 80 increased in the lower area 90 of the vessel 60 accumulate. By the action of the magnetic force of the magnetic device 110 become the magnetizable particles 80 in this lower area 90 even after completion of centrifuging. For this purpose, the magnetic field is held before and at least for a while after completion of the centrifuging. Preferably, the magnetic field can also already be applied during centrifuging. Components of the fluid 70 can then leave the vessel 60 be removed, for. B. by pipetting, while the magnetizable particles 80 in the lower area 90 remain (at least reinforced against a state without magnetic force). Removal of the constituents during the action of the magnetic field results in back-diffusion and thus remixing of the constituents of the fluid 70 counteracted.

In case of using a magnetic device 110 , Which allows switching on and off of the magnetic field, the control of switching on and off in a suitable manner via an appropriate software, which with a control of the rotation of the centrifuging 20 can be coupled, so that the application of the magnetic force can be ensured before the completion of the rotation.

In an embodiment according to the present invention, which is not detailed in the figures, the centrifuge is 10 designed as a swivel cup centrifuge, allowing the vessels 60 can swing out during centrifugation. The magnetic device 110 can, as in 2 to be realized in the stator. During centrifugation, the reaction vessels oscillate 60 then to the outside and move away from the magnet device 110 , After completion of the centrifugation, the reaction vessels come 60 then in close contact with the magnet device 110 , which causes the magnetizable particles 80 (eg iron-containing particles) in the lower area 90 of the reaction vessel 60 collect and hold. Accordingly, the magnetic device 110 but also according to 1 directly on or in the receiving device 50 provided and held so that they during centrifugation in contact with the vessel 60 stay with and swing out.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - US 4772254 A [0003]
• - WO 93/10455 A1 [0003]
• - US 33997105 A [0016]
• - EP 0612565 A1 [0016]

Cited non-patent literature

• - "Protein Isolation", 2004, Dynal Biotech Company [0004]
• - http://www.invitrogen.com/site/us/eri/home/brands/Dynal.html [0004]
• - "Dyna Mag-2 Magnetic Particle Concentrator" (Catalog No. 123.21 D) [0005]
• - http://www.invitrogen.com/site/us/en/home/brands/Dynal/Magnets.htm [0005]

Claims (25)

Centrifuge ( 10 ) comprising: a centrifuging body ( 20 ), which is rotatable about an axis and a receiving device ( 50 ) for receiving a vessel ( 60 ), wherein the vessel ( 60 ) a fluid ( 70 ) and components of the fluid ( 70 ) by rotation of the centrifuging body ( 20 ) can be separated due to the inertia, so that heavier components of the fluid ( 70 ) increased in a lower range ( 90 ) of the vessel ( 60 ) and a magnetic device ( 110 ), which is arranged and designed so that at least from a termination of a rotation of the centrifuging ( 20 ) to the lower area ( 90 ) of the vessel ( 60 ) acts at least for a time a magnetic force so as to magnetizable particles ( 80 ), which are in the lower area ( 90 ) of the vessel ( 60 ) are there to hold by means of magnetic force. Centrifuge ( 10 ) according to claim 1, wherein the magnetic device ( 110 ) is arranged and executed such that the magnetic force is at least for a time during a rotation of the centrifuging ( 20 ) to the lower area ( 90 ) of the vessel ( 60 ) acts. Centrifuge ( 10 ) according to one of the preceding claims, wherein the magnetic device ( 110 ) is arranged and executed such that the magnetic force is also at least for a time before completion of a rotation of the centrifuging ( 20 ) to the lower area ( 90 ) of the vessel ( 60 ) acts. Centrifuge ( 10 ) according to one of the preceding claims, wherein the centrifuging body ( 20 ) a plurality of recording devices ( 50 ) each for receiving a vessel ( 60 ) having. Centrifuge ( 10 ) according to the preceding claim, wherein the magnetic device ( 110 ) is arranged and executed in such a way that the magnetic force in each case on the lower area ( 90 ) of one or more of the vessels. Centrifuge ( 10 ) according to one of the preceding claims, wherein the magnetic device ( 110 ) is designed so that the magnetic force can be switched on or off. Centrifuge ( 10 ) according to the preceding claim, wherein the magnetic device ( 110 ) has one or more electromagnets for the expression of the magnetic force. Centrifuge ( 10 ) according to one of the preceding claims, wherein the magnetic device ( 110 ) has one or more permanent magnets for the expression of the magnetic force. Centrifuge ( 10 ) according to one of the preceding claims, wherein the magnetic device ( 110 ) in the centrifuging body ( 20 ) or at least during a rotation of the centrifuging ( 20 ) is rotated with this. Centrifuge ( 10 ) according to the preceding claim, wherein the magnetic device ( 110 ) closely spaced to the receiving device ( 50 ) is arranged. Centrifuge ( 10 ) according to the preceding claim, wherein when receiving a vessel ( 60 ) in the receiving device ( 50 ) the magnetic device ( 110 ) closely spaced to the vessel ( 60 ) or to the vessel ( 60 ) is present. Centrifuge ( 10 ) according to one of the preceding claims, further comprising a stator ( 30 ), opposite to the centrifuging body ( 20 ) is arranged statically, wherein the magnetic device ( 110 ) in the stator ( 30 ) or is arranged as part of it. Centrifuge ( 10 ) according to the preceding claim, wherein the stator ( 30 ) is at least partially along and spaced from a circular path, the lower portion of a in the receiving device ( 50 ) located vessel ( 60 ) during a rotation of the centrifuging body ( 20 ) describes. Centrifuge ( 10 ) according to the preceding claim, wherein the magnetic device ( 110 ) in the stator ( 30 ) is disposed in a rotational and / or annular manner with respect to the circular path, which is the lower region of a in the receiving device ( 50 ) located vessel ( 60 ) during a rotation of the centrifuging body ( 20 ) describes. Centrifuge ( 10 ) according to one of the preceding claims, wherein the centrifuging body ( 20 ) is designed so that the lower region of the vessel ( 60 ) or the vessels are closely spaced from the magnet device ( 110 ) is arranged. Centrifuge ( 10 ) according to one of the preceding claims, wherein the receiving device ( 50 ) is set up so that the lower region of a receptacle ( 60 ) at the lowest point of the vessel ( 60 ) is at least from a termination of a rotation of the centrifuging ( 20 ). Centrifuge ( 10 ) according to any one of the preceding claims, wherein the vessel ( 60 ) an upper with an opening ( 100 ) provided at one of the lower area ( 90 ) opposite end of the vessel ( 60 ) is located. Centrifuge ( 10 ) according to the preceding claim, wherein the magnetic device ( 110 ) has a permanent magnetic or magnetizable device which is at least partially along and spaced from a circular path, the lower portion of a in the receiving device ( 50 ) located vessel ( 60 ) during a rotation of the centrifuging body ( 20 ) describes. Centrifuge ( 10 ) according to the preceding claim, wherein the permanent magnetic or magnetizable device is rotationally formed around the axis. Centrifuge ( 10 ) according to the preceding claim, wherein the permanent magnetic or magnetizable device is annular. Centrifuge ( 10 ) according to one of the preceding claims, wherein the axis about which the centrifuging body ( 20 ) is rotated, separated from an axis of the vessel. Centrifuge ( 10 ) according to one of the preceding claims, wherein the vessel ( 60 ) is oscillating and is almost vertical at rest. Process for the separation of constituents of a fluid ( 70 ) of in the fluid ( 70 ) contained magnetizable particles ( 80 ), comprising: centrifuging the fluid ( 70 ) in a vessel ( 60 ) by rotation of the vessel so that heavier constituents of the fluid ( 70 ) increased in a lower range ( 90 ) of the vessel ( 60 ) and applying a magnetic force to the lower area ( 90 ) of the vessel ( 60 ) before and at least for a time after completion of the centrifuging so as to magnetizable particles ( 80 ), which are in the lower area ( 90 ) of the vessel ( 60 ) are there to hold by means of magnetic force. A method according to the preceding claim, further comprising: removing constituents of the fluid ( 70 ) from the vessel ( 60 ) during the application of the magnetic force to the lower region ( 90 ) of the vessel ( 60 ). A software, preferably stored on one Disk to control or execute a Method according to one of the preceding claims, when this runs on a data processing system like a computer.