DE19531751A1 - Device for irradiating body fluids with UV light - Google Patents

Abstract

The invention relates to a device for irradiating bodily fluids, especially blood and/or tissue extracts, with UV light and has a container (4) for the bodily fluid samples which can be taken into the radiation range of a UV lamp (5). Inside said container (4) there is a baffle system (6, 26, 36) to agitate a bodily fluid flowing through the container or circulating peripherally therein, by means of which a laminar flow in the bodily fluid is eliminated as far as possible and the agitation produced permits the most uniform UV irradiation possible throughout the volume of the fuid.

Description

The invention relates to a device for irradiating body fluid , especially blood and / or tissue extracts, with UV light after Preamble of claim 1.

Such devices are e.g. B. from the undisclosed German Patent applications No. 195 06 163.2-35 and No. 195 08 279.6-35 known and are used in a number of known therapy procedures to help one Patients body fluids, such as B. blood and / or tissue extracts too to remove them afterwards (in addition to further therapy if necessary steps such as B. an oxygenation) to UV radiation undergo before they are reapplied to the patient.

In the unpublished patent application No. 195 06 163.2-35 Device described is used in medical therapy procedures such. B. among other things, blood is passed through a quartz glass cuvette at rest UV radiation is applied.

It is desirable to have an even and complete through penetration of the entire stream of the irradiated body fluid sample To achieve UV radiation.

However, the following problems stand in the way of achieving this goal: First, UV radiation shows only a relatively small penetration depth in Body fluids, especially blood. Furthermore, due to the relatively high viscosity of body fluids on the one hand and that of the applied therapy methods on the other hand occurring relatively low Flow rates in the quartz glass cuvette are preferably laminar Currents, which swirl individual layers of liquid and thus a uniform mixing of the whole in the quartz glass cuvette prevent flowing volume flow.  

As a result, this results in an essentially stationary one Arrangement of individual layers of liquid sliding over one another trains, the outermost, that is, the one directly with the inner wall of the The quartz glass cell comes into contact with an essential boundary layer Part of the UV radiation is absorbed before it lies radially further inside Can reach areas. This problem is particularly serious if UV radiation only hits the stationary cuvette from one side, since then only the area immediately adjacent to the UV lamp Cuvette is effectively irradiated.

This is evident in the unpublished patent application No. 195 08 279.6-35 The radiation device has a UV lamp built into a housing and a receptacle designed in the form of a quartz glass cuvette provided in which the body fluid is to be poured. With this device is achieved by rotating the ones in the radiation area of the UV lamp The purpose of the quartz glass cuvette is that not only a small one, directly with a beam portion of the body fluids enclosed in the cuvette liquid is irradiated very intensively, as is the case with an egg in the radiation area quartz glass cuvette which would be at rest would be the UV lamp, but that by the rotational movement a more uniform radiation of the entire body rivers liquid test is effected.

The circulation triggered by the rotation of the cuvette in the Liquid inside the cuvette primarily produces a Laminar hollow cylin sliding on top of each other deriform liquid layers in the circumferential direction of the cylindrical Cuvette. In this case, the ones in the radial direction in particular are again outside edge layers in the liquid are preferably irradiated, but not the radially inner areas.

The aim of the present invention is therefore devices for radiation to provide body fluids with UV light, in which a Whirling as complete as possible and consequently uniform Irradiation of the entire volume of the body fluid sample is achieved whereby for cost reasons as well as universal usability to ensure a solution in as many radiation devices as possible is sought, which requires the least possible expenditure on equipment.  

This task is accomplished by a device for irradiating body fluids solved according to claim 1. The dependent claims relate to advantage adhesive further developments of the radiation device according to the invention.

The device according to the invention allows a patient to be in one withdrawn body fluid sample, which through a receptacle flows through or enclosed in a rotating receptacle sufficient swirling of the individual liquid layers reach so that in the course of an irradiation interval the entire Liquid volume as evenly as possible with the inner walls of the Receptacle comes into contact where the highest intensity of the incident UV radiation is present.

For a further embodiment of the invention it is provided that the Body fluid removed from patients for exposure to UV light a double tube cuvette is guided, in the space between the Inner tube and the outer tube the body fluid flows through. According to the invention it is provided that the baffle devices either on the outer surface of the inner tube and / or the inner surface of the Outer tube are attached.

In this embodiment, the design of the space in the double tube cuvette the body fluid in a relatively thin Layer with simultaneous swirling through the space performed so that a uniform irradiation of all liquid particles in the desired way is achieved.

The advantages and features of the present invention also result from the following description of exemplary embodiments in connection with the claim and the figures.

Show it:

Fig. 1 shows a longitudinal section through a first radiation device according to the invention, in which a body fluid flows through a receiving device acted upon by UV radiation, inside which a baffle device ensures a uniform swirling of the flow;

Fig. 2 is a longitudinal section through a second inventive irradiation apparatus is enclosed apparatus in which a body fluid in a rotating within the radiation range of a UV lamp receptacle with a baffle device in the interior of the receiving device provides a uniform fluidization of the circulating flow; and

FIGS. 3 and 4 are perspective views of two embodiments of an invention to be used in an irradiation device chicane device.

Fig. 5 is a Doppelrohrküvette for an irradiation device of FIG. 1.

Fig. 1 shows a side view of a first radiation device 1 according to the invention, in which a body fluid such. B. blood flows through a supply line 2 and a discharge line 3 into a UV-radiation receiving device 4 , which is designed in the form of a UV radiation-permeable quartz glass cuvette. The local flow vector v in the flowing liquid is indicated by arrows.

Because of the relatively low flow velocities of typically only a few centimeters per minute to be observed in known medical therapy methods, the cylindrical cuvette 4 would not use devices that force the mixing of the liquid, due to the relatively high viscosity of blood to form the known laminar Pipe flow with a parabolic velocity profile, in which individual hollow cylindrical liquid layers slide on one another in the axial direction, but no flow component occurs in the radial direction.

In the arrangement shown in FIG. 1, only the liquid layer located on the inner wall of the cuvette 4 facing the UV lamp 5 would then be intensively irradiated due to the high absorption capacity of blood for UV radiation, whereas liquid layers further away in the radial direction would not or hardly at all would be irradiated more.

This is prevented by attaching a baffle device 6 inside the cuvette. The baffle device can e.g. B. in the form of a "swirl linkage" shown in FIG. 3 in perspective, on which a plurality of cross rods 6 b is attached to a longitudinal rod 6 a extending in the direction of the cuvette axis, successive cross rods being rotated by 90 ° to one another are arranged. By means of these cross bars 6 b, a laminar tube flow in the interior of the cuvette is largely prevented, so that flow vectors v occur in the interior of the cuvette, which have components in the radial direction, which leads to the desired swirling in the flowing liquid.

In FIG. 2, the housing 12 can be seen a second embodiment of an irradiation device according to Invention 11 in partial section. The housing 12 has a receiving opening 13 for inserting a cuvette 4 . The receiving opening 13 leads into the interior of a guide tube 16 which is axially aligned with a drive shaft 17 and z. B. is attached to the inside of the housing in the region of the receiving opening 13 .

The guide tube 16 consists, for. B. from a UV radiation of a mounted in the housing UV radiation source 5 transparent material, or, as shown in Fig. 2, from a provided with slots 18 for light passage.

In the area of the receiving opening 13 in the housing 12 opposite end of the guide tube 16 , an adapter 20 is provided, which is seated on a drive shaft 17 which is rotated by a drive motor 27 by means of a reduction gearbox consisting of two meshing gears 28 , 29 . The cuvette end located at the front in the direction of insertion can be snapped into the adapter 20 , and the rotary movement of the drive motor 27 can thus be transmitted to the cuvette 4 .

A cuvette 4 can with a syringe 15 , the z. B. contains a blood or tissue extract sample taken from a patient, can be filled by attaching the syringe cone 15 a to a central bore in a stopper 22 . At the opposite end of the cuvette 4 , a second stopper 30 is provided, which is also provided with a central bore. In this second hole, a bacterial filter 29 is secured by means of a smaller auxiliary plug 31 , which is also drilled through. When the body fluid is poured into the cuvette 4 , air flows out of the cuvette which is required for pressure compensation.

The cuvette 4 filled with body fluid, together with the syringe 15 attached to it, is inserted through the receiving opening 13 of the housing 12 into the irradiation device 11 and snapped into the adapter 20 . When the adapter 20 is rotated by means of the drive motor 27 , the cuvette and its contents are also rotated, with the entire outer jacket of the cylindrical cuvette being brought uniformly into the range of the radiation incident from the UV lamp 25 and a circular flow inside the cuvette when a suitable rotation speed is selected adjusts in the circumferential direction.

The use of a baffle device 26 in the interior of the cuvette again has the advantage that turbulence occurs in the circular flow, so that radial components occur in the flow which are necessary for liquid transport to the inner walls of the cuvette and thus for the most homogeneous irradiation of the whole Ensure fluid volume.

After the end of the irradiation process, the cuvette 14 is released from the adapter 20 and removed from the housing 12 . Then z. B. the irradiated contents are again sucked out of the cuvette with the syringe 15 in order to be applied back to the patient. The bacterial filter 29 prevents contamination of the cuvette contents when air flows back into the emptying cuvette.

The baffle device 6 shown in Fig. 3 in the form of a "swirl linkage" has the advantage that it can be produced in an inexpensive manner as a plastic injection molded part, and thus can be disposed of together with the same as a sterile disposable item after irradiation of a body fluid sample in a quartz glass cuvette .

In principle, in addition to the embodiment shown in FIG. 3, baffle devices of any other shape can also be used, as long as sufficient swirling is achieved in the interior of the cuvette.

If a baffle device is used in the cuvette 4 shown in FIG. 2, which is closed at both ends with plugs 22 , 30 , it is particularly advantageous if at the two ends of the longitudinal bar of the baffle device there is an obliquely outwardly extending ring of lamellae 26 a is formed, which serve that the central longitudinal rod keeps a certain distance from the holes in the center of the stopper closing the cuvette, so that they are not blocked and an effortless filling and emptying of the cuvette is possible.

Furthermore, the baffle device z. B. instead of in the form of a "swirl linkage" shown in Fig. 1-3 also in the form of a "coral tree" 36 shown in Fig. 4, in which a variety of a in the direction of the cuvette axis extending stem 36 a irregularly arranged branches 36 b with increasingly fine, irregular branches 36 c is attached. These fine ramifications 36 c prevent a laminar tube flow in the interior of the cuvette in a particularly effective manner, since the laminar flow is torn open again and again and thus extensive swirling of the flowing liquid occurs.

In contrast to other conceivable means of swirling inside to achieve the cuvette, in particular magnetic stirring devices such as these from chemical laboratory practice for mixing liquids or for Acceleration of dissolution processes in the form of themselves in an external circulating magnetic field rotating magnetic stirring bars are known the use of a baffle device inside the one to be irradiated Cell has the advantage that it is much cheaper and none requires additional equipment, as it is especially for generation such rotating fields would be necessary.

In Fig. 5, a double tube cuvette 40 is shown for a further embodiment of the invention, in which an inner tube 44 is plugged onto a stopper 43 at the front and rear ends. This arrangement is inserted into an outer tube 24 which is connected at both ends to pushed-on hose nozzles 42 , via which the body fluid is supplied and removed. On the outer surface of the inner tube 44 , baffles 46 are attached, which baffles can be carried out in any way to ensure that the body fluid passed through the space experiences a swirl. In order to allow the body fluid to enter or leave the intermediate space, the plugs are provided with ribs 48 , which at the same time serve to center the plugs with the inner tube in the outer tube. This measure ensures that the body fluid flowing through the space between the double tube cuvette is sufficiently swirled and displaced transversely so that a uniform radiation effect is ensured.

Although not shown in the drawing, 42 rotating bodies can be provided in the area of the hose nozzles, which make it possible to rotate the double-tube cuvette during the UV radiation. For this purpose, in a manner known per se, e.g. B. via a gear connection to a torque on the double tube cuvette.

Claims (5)

1. Device for irradiating body fluid samples, in particular blood and / or tissue extracts, with UV light, with a receptacle for the body fluid samples to be irradiated, which can be introduced into the radiation area of a UV lamp, characterized in that inside this receptacle ( 4 ) is provided a baffle device (6, 26, by flowing to the swirling of the receptacle (4) or in this circulating body fluid 36) comprising a plurality of the body fluid which flows around baffles (6 b, 36 b, 36 c), whereby a laminar flow in the body fluid is largely prevented. 2. Device for irradiating body fluid samples according to claim 1, characterized in that the baffle device is designed in the form of a swirl linkage ( 6 ) with a longitudinal rod ( 6 a) extending in the direction of the cuvette axis and transverse rods branching therefrom ( 6 b). 3. Device for the irradiation of body fluid samples according to claim 2, characterized in that the longitudinal rod is provided at its two outer ends with a ring obliquely outwardly rising slats ( 26 a). 4. Apparatus for the irradiation of body fluid samples according to claim 1 with two coaxially inserted glass tubes, wherein the outer diameter of the inner tube by a predetermined, the desired thickness of the blood film is smaller than the inner diameter of the outer tube, and the body fluid through the coaxial space between Double tube cuvette can be passed through, characterized in that the baffle devices ( 6 ; 26 ; 36 ; 46 ) are attached to the outer surface of the inner tube ( 44 ) and / or the inner surface of the outer tube ( 24 ). 5. The device according to claim 4, characterized, that the double tube cuvette between rotating bodies in the area of UV irradiation lung is rotatably arranged.