DE2942909A1 - Blood running time measurer with digital indicator - has temp. controlled housing with channel for measuring cuvette and sonic tester - Google Patents

Abstract

A metal block (20), which can be temp. stabilised, is formed as a housing and has at least one measuring channel (25) for a measuring cuvette (40). A sonic tester (50) is received in the block (20). It (50) consists of a sound generator (51) and a sound receiver (52) and is coupled to a control switching unit (100). The cuvette(40) can be excited by the sonic pressure of the generator (51). The tester (50) can be ultrasonic. The generator (51) can operate intermittently with adjustable acoustic pressure and frequency. A sound reflector can be installed on one side of the measuring channel. A magnetic exciter can be placed inside (21) the block. A drive can be assigned to it that generates a magnetic rotational field or possesses a horizontal, rotatingly driven permanent magnet.

Description

The invention relates to a blood coagulation timer

Digital display of the blood clotting time at which the measuring cuvette with the Blood sample to be tested in a temperature-controlled housing with a clot formation detecting measuring device can be brought into operative connection.

Such devices for detecting and measuring the clotting time are known in various embodiments. In such a known embodiment a mechanical stirring device is provided with two hook-like stirring arms cause the reagents and the plasma to mix until the fibrin strands are formed, mixing takes place until the time at which the fibrin threads are separated pull together between the ticks. Conductivity measurements are then carried out. At a low fibrin concentration, however, there are no changes in conductivity given, which is also the case with a flocculation of plasma, so that no exact Measurements are more possible. It has already been proposed to avoid this disadvantage been to train a blood coagulation timer so that the measuring cuvette with the Blood sample stored in a measuring channel of a temperature-controlled housing and with a light-optical scanning device consisting of a light source and a photocell to bring into operative connection, with the addition of the photocell via an amplifier is connected to a control switchgear that operates a magnetic stirring device, by means of which one in the measuring cell located freely movable Stirring rod is actuated. This light-optical scanning has the disadvantage that only processed blood samples with larger than normal blood staining Brightness can be used. because if the test sample is dark in color, it is the light transmission is too limited. Prerequisite for perfect functioning of the light-optical The scanning device is that the light emitted by the light source also can be clearly measured by the photocell. So-called whole blood measurements are therefore with blood coagulation time measuring devices with light-optical scanning device not possible The object of the invention is to provide a blood coagulation time measuring device of the generic type to create the independent of the type of reagents used for the test sample preparation a simple and error-free detection of the coagulation formation even with cloudy plasma and permitted for whole blood measurements.

According to the invention, the object is achieved in that in one Housing-like, temperature-controllable metal block with at least one measuring channel for a measuring cuvette as a measuring device, one of a sound generator and a sound receiver Longer existing sound scanning device connected to a control switchgear of this type it is arranged that the measuring cuvette can be acted upon by the sound pressure of the sounder is. Is beneficial es, the sound scanning device as an ultrasonic scanning device to train.

The ultrasonic scanning allows the use of different levels of turbidity Reagents and plasmas or from whole blood. Effect two threshold limits The device is switched off via the control switchgear with increasing and decreasing Intensity. The device also eliminates intermediate cloudiness and interference due to insoluble reagent particles or plasma particles in the threshold range. About that In addition, the device exhibits high sensitivity even at low fibrinogen concentrations on. All plasma coagulation times can be measured with the blood coagulation time measuring device such as "Quick, PTT, thrombin time, plasma recalcification, fibrinogen" and the like.

Accurate values are also obtained when a strong or a weak fibrin concentration is present. The one that occurs with strong fibrin crosslinking Turbidity also leads to the device being switched off, as does a low fibrin concentration and the associated flocculation.

Further features of the invention are described in the subclaims and with reference to the inventive example shown in the drawings Blood coagulation time measuring devices explained in more detail. 1 shows a blood coagulation timer with a sound scanner in a side view in partial Section, Fig. 2 shows a blood coagulation time measuring device with a further embodiment of a Sound scanning device in a side view in section, FIG. 3 shows a blood coagulation time measuring device with a sound scanning device and a magnetic stirring device in a side view in partial cut.

The blood coagulation timer 1,2,3 consists of a box-shaped Housing 10 made of plastics or other suitable materials in its interior 11 a temperature-controllable, housing-like metal block 20 is arranged. The case 10 and the metal block 20 are on the upper side via a into the interior 21 of the metal block 20 extending into the measuring channel 25, which is used for receiving a measuring cuvette 40 serves (Fig. 1 to 3).

In the area of the measuring channel 25 and the measuring cuvette 40 is in the interior of the metal block 20, a sound scanner 50 is arranged, which has a sound generator 51 and a sound receiver 52 comprises. Preferably, the sound generator 51 is as Ultrasonic transducer and the sound receiver 52 as an ultrasonic receiver educated. The arrangement of the sound scanner 50 is such that the through the measuring cuvette 40 passing through or reflecting on this sound from the walls of the measuring channel 25 is not affected. The measuring channel 25 can be in the area of Sound waves of the sound scanning device 50 can be provided with openings. It However, there is also the possibility of the walls of the measuring channel 25 from being sound-permeable To train materials. It is also possible to use rod-shaped brackets for the Provide measuring cuvette 40, between which there is such a sufficient free space is that the sound waves between the sounder 51 and the sound receiver 52 not impaired when passing through the measuring cuvette 40 or when it is reflected on it will.

The sound receiver 52 of the sound scanning device 50 is above a Amplifier 60 with a control switching mechanism 100 with balancing device 101 in connection. The measured values determined by the sound scanning device 50 are applied to the in an digital display 70 formed in a known manner as readable coagulation time values displayed.

The beginning or the end of the measuring process is indicated by a change the sound intensity at the sound receiver 52 causes.

It is also possible to design the sound generator 51 in such a way that by this is a time-oscillating sound pressure if necessary also oscillating sound frequency is generated. This allows the sounder 51 at the same time as initiator for the formation of blood clots in the measuring cuvette 40 to serve.

In the embodiment of the blood coagulation timer shown in FIG 2 are on one side of the measuring channel 25, one above the other, the sound generator 51 and the Sound receiver 52 arranged. On the other, to the sounder 51 and the sound receiver 52 on the diametrically opposite side of the measuring channel 25 is a sound reflector 53, which is assigned to the sound generator 51 and the sound receiver 52.

The sound waves emitted by the sound generator 51 are after passage reflected by the measuring cuvette 25 and the measuring channel 40 from the sound reflector 53 in such a way that that they are received by the sound receiver 52. The arrangement of sounder 51, sound receiver 52 and sound reflector 53 to each other is such that the Sound waves arriving at the sound reflector 53 are not or only negligible little influenced by the sound waves reflected by the sound reflector 53 will.

It is also possible in the interior 21 of the temperature-controllable metal block 20 a magnetic stirring device 30 with a rotating magnetic field generating or a horizontally rotating, driven permanent magnet having drive device to order the stirring rods arranged at the bottom in the interior of each measuring cuvette 40 35 made of iron or a permanent magnet is in operative connection (Fig.3), this is in particular expedient if instead of a sounder 51 with amplifying sound pressure a stir bar 35 or the like. assume the function of an initiator in clot formation target. In the blood coagulation time measuring device 3 according to FIG. 3, the measuring channel 25 ends above the magnetic stirring device 30, via which the stirring rod located in the measuring cuvette 40 35 is set in rotation. However, there is also the option of using the Magnetic stirring device 30 to be arranged in the device housing 10, so that then in the area the magnetic stirring device of the metal block 20 with a not shown in the drawing Breakthrough is provided. The measuring cuvette 40 is in this way in the measuring channel 25 held that the stirring rod located in the measuring cell 40 by means of the magnetic stirring device 30 can be set in rotating motion. The sound waves run above of the stirring rod 35, the one lying at the bottom of the measuring cuvette 40 from the magnetic stirring device 30 is driven. This prevents the measurement from being impaired. The magnetic stirring device 30 is switched on and off via the amplifier 60 by means of the control switchgear 100, which is also equipped with a balancing device 101 is connected. The control switchgear 100 is also available via a further amplifier 61 with the sounder 51 in connection.

The blood coagulation time measuring device 1, 2, 3 according to the invention is special advantageous since there is no contamination with the plasma. It fulfills its full Function both with clear and cloudy plasmas as well as with measurements with whole blood regardless of the type of reagents used. Another benefit is there in that the measuring process can be started and ended automatically.

The invention is not limited to those described above and embodiments shown in the drawings. Deviations in training of the device housing and the arrangement of the temperature-controlled metal block in the interior the device housing are also within the scope of the invention as a different arrangement the digital display device.

Claims (5)

TITLE: Blood coagulation timer with digital display Patent claims Blood coagulation time measuring device with digital display of the blood coagulation time, in which the Measuring cuvette with the blood sample to be tested in a temperature-controlled housing with a the measuring device detecting the clot formation can be brought into operative connection, characterized in that in a housing-like temperature-controllable metal block (20) with at least one measuring channel (25) for a measuring cuvette (40) as a measuring device one consisting of a sound generator (51) and a sound receiver (52), with a Control switchgear (100) connected to the sound scanning device (50) arranged in this way is that the measuring cuvette (40) can be acted upon by the sound pressure of the sounder (51) is. 2. Blood coagulation time measuring device according to claim 1, characterized in that that the sound scanning device (50) is designed as an ultrasonic scanning device is. 3. Blood coagulation time measuring device according to claim 1 and 2, characterized in that that the sounder (50) as an intermittent sounder with einstellburem sound pressure and adjustable sound frequency is formed. 4. Blood coagulation time measuring device according to claim 1 to 3, characterized in that that on one side of the measuring channel (25) one above the other the sound generator (51) and the sound receiver (52) and on the other, diametrically opposite to this Side of the measuring channel (25) a sound reflector (53) is arranged. 5. Blood coagulation time measuring device according to claim 1 to 4, characterized in that that in the interior (21) of the temperature-controllable metal block (20) a magnetic stirring device (30) with a rotating magnetic field generating or a horizontal, rotating, driven Permanent magnets having drive device is arranged, which with an in the interior of the measuring cuvette (40) at the bottom arranged stirring rod (35) made of iron or a permanent magnet is in operative connection.