DE2827488A1 - Encephalographic volume measuring instrument - has light guide tube terminating in probe with funnel shaped termination enclosing photoelectric sensor (NL 13.2.79) - Google Patents

Abstract

The diagnostic device for measuring the quantity of fluid inside the skull of a patient, is based on an encephalograph. At one end of a light guide protection tube (9) with a protective helical coil (7) around it is the volumetric measuring unit. At the other end is the measuring probe (16) housing a photoelectric sensor (13). This end of the light guide (10) is in line with the sensor, i.e. on the central axis of the tube. Between them is a funnel shaped light guide termination (12) also enclosing the sensor. Around this is an end sleeve (14) matching the shape of the termination.

Description

Encephalovolumenometer

The invention relates to an encephalovolumenometer, comprising a feed device, a light source and a measuring system. Such Encephalovolumenometer are used to Determination of the distance between the brain and the cranium and for evaluation changes in brain volume.

From the Polish patent specification No. 61 846 is a device for Known evidence of excessive accumulation of cranial fluids. This known device is characterized in that it is a photoelectric Has encoder, which is in a fixed on a ring of a lamp equipped with a lens attached telescope is housed.

The geometrical axes of the photoelectric encoder and of Lamp lenses are parallel to each other. The distance between the lamp lens and the photoelectric encoder is chosen such that the light-sensitive surface this giver is completely within the circle of light, which after the Applying the lamp lens to the surface of the brain shell results. The lamp lens forms the light source and contains a light bulb and a lens system, the Lens diameter is 3 cm or less.

The measurement of the light intensity of the brain shell is made in the dark room carried out by applying the lamp lens to certain points on the head. the Reading takes place on a suitably calibrated microammeter.

The aim of the invention is to develop an encephalovolumenometer, which makes it possible to measure the distance between the brain and the cranium continuously bloodless and to be carried out under normal lighting, in order to change the brain volume to be able to evaluate.

This goal is achieved by the fact that it is with a Encoder and a light guide is equipped, the photoelectric sensor the encoder and the light guide have a common geometric axis, and that the transducer is terminated with a locking ring and an optical fiber end piece is, which has mutually parallel conical-cylindrical surfaces.

Due to the configuration according to the invention, the influencing of the Measurement results from outside light are eliminated and the sensor is completely heated eliminated. In previous processes, this heat penetrated the leather and others Tissue and thus made continuous measurements impossible.

In addition, the measurement sensitivity has been increased by not only to determine the accumulation points of the cranial fluids, but also to be able to precisely measure the layer thickness of this liquid, which den-space between the brain and the cranium fills up and with an increase in brain volume is displaced.

There is thus an essential feature of the solution according to the invention in that the device contains a transducer, its photoelectric element and the light guide have a common geometric axis, the light guide supplies the light energy necessary for the measurements and the encoder with a Completed end piece having parallel, conical-cylindrical surfaces is.

The device according to the invention thus uses a cold light beam for the measurement the distance between the brain and the cranium.

The brain volume can be evaluated on the basis of this measurement.

The light penetrating through the tissues of the human body is subject to g a first distribution. The size of this scattering of light.

changes depending on the layer thickness of the cranial Liquids that fill the space between the brain and the cranium. By Measurement of this light scattering can determine the distance between the brain and the cranium will.

The following is an exemplary embodiment of the invention by reference explained in more detail on the associated drawing.

Fig. 1 shows a schematic overall view of the invention Encephalovolumenometer, and Fig. 2 shows a longitudinal section through the transducer.

The encephalovolumenometer according to the invention is provided with a light source feed device 1 equipped with an in a reflector 3 arranged, a light source 2 forming light bulb is connected.

An end piece 4 of a light guide contains a plug connection 5 and a light guide connector 6, which is reinforced with a spring 7 light guide 10 is connected to a measuring transducer 16. The encoder 16 consists of an encoder holder 8, in which the jacket 9 of the light guide 10 is attached, and a locking ring 14, which is detachably connected to the transducer holder 8. Inside the locking ring 14 is a conical-cylindrical light guide end piece 12 and a cable 11 with a measuring system 15 connected photoelectric sensor 13 is arranged. The measuring method Using the encephalovolumenometer is based on the measurement of what is going through the leather, the bone and the cranial fluid of scattered light. The size of this scattering of light changes depending on the layer thickness of the cranial fluid. The light source, via the light guide and its conical-cylindrical end piece supplies the light in the form of a circle, in its geometric axis the photoelectric Sensor is arranged.

The luminous intensity of the circle of light is several tens of times higher than that the outside light and forms an effective barrier against the penetration of outside light into the measuring zone. This eliminates the need to carry out the measurement in the dark room.

The photoelectric transducer converts the light intensity into a proportional one electrical quantity, which is subsequently transferred to a measuring device, for example a digital voltmeter, calibrated in millimeters, can be.

In this way the layer thickness can be measured directly on the voltmeter of the fluid filling the space between the brain and the cranium will.

In summary, this results in the following structure and function: The encephalovolumenometer is equipped with a supply device 1, which the voltage to the light source 2 supplies.

The light is transmitted into the measuring transducer 16 via the light guide 10. The encoder 16 has the coaxially arranged with the light guide 10 photoelectric Sensor 13 open. The light guide 10 has a conical-cylindrical end piece 12 closed. Because of this end piece, a light beam becomes in the shape of a circle generated. The light intensity in this beam is very high, which means that the measurements from Influence of the outside light are independent. The changes in light scatter will be picked up by the photoelectric sensor 13 and transmitted to the measuring system 15.

Claims (1)

Encephalovolumenometer claim comprising an encephalovolumenometer a power supply, a light source and a measuring system, thereby g e k e n n z e i c n e t that it is equipped with a measuring transducer (16) and a light guide (10) is, wherein the photoelectric sensor (13) of the encoder (16) and the light guide (10) have a common geometric axis, and that the encoder (16) with a locking ring (14) and a light guide end piece (12) is completed, which has parallel conical-cylindrical surfaces.