CH619363A5 - Apparatus for investigation of the human body using a high-voltage source - Google Patents

Abstract

The apparatus intended for the investigation of the human body with a view to making a diagnosis comprises a device for recording images of the human body, composed of a light detector (B) with two photosensitive layers beneath which is found a filtering dielectric (C), a light converter/amplifier (D), an insulating layer (E) and a metal plate (F) connected to a high-voltage current source (IT). The high-voltage current is obtained by discharging a capacitor into a transformer, possibly then passing through a rectifying device. <IMAGE>

Description

619 363

2

Claims (3)

1. Apparatus for investigating the human body using a high voltage source, characterized in that it comprises a device for recording images of the human body (A) consisting of a photographic film or a light detector (B) with two photosensitive layers, on either side, the body thus establishing a contact zone (Zc) with the film, or the detector, under which is placed a dielectric plate (C) in homogeneous optically transparent and polarizing glass, an electro-optical converter (D) insulated by an insulating layer (E), and finally the metal plate (F) connected to the high voltage current source (IT) and insulated by a protective dielectric (G). 2. Apparatus according to claim 1, characterized in that the high voltage current is obtained from alternating current by a rectifier (4) connected to a capacitor (5) comprising a manual or automatic control (6) connected to a high-voltage transformer (7), a discharge thus obtained being able to be applied directly, or modified, in the rectifying device and forming pulses (8) applied to the metal plate (F). The invention relates to an apparatus intended for the investigation of the human body with a view to establishing a diagnosis and carrying out functional exploration. Various types of devices are known which explore living organs using high frequency and high voltage current or with pulses having controlled characteristics. The living organs are placed between the plates of a capacitor and subjected to the action of the electric field generated by the high voltage source. These devices have the disadvantage that they are difficult to use for the exploration of human organs and that, to be effective, they require high electrical voltages and large current strengths. The present invention avoids the disadvantages mentioned by the fact that it has a device for recording images of the human body, which is connected to the ground of the device, the body being in direct contact with a photographic film or a light detector with two photosensitive layers, on either side, the body thus establishing a zone of contact with the film, or the detector, under which is placed a dielectric plate of optically transparent and polarizing homogeneous glass and having a suitable capacitance to the applied voltage, under which is placed an electro-optical converter insulated by an insulating layer, and finally a metal plate connected to the high voltage current source and insulated by a protective dielectric. Here is an embodiment of the invention comprising FIGS. 1 to 4 which represent: fig. 1: a diagram of the device for recording the image of the apparatus for the investigation of the human organism; fig. 2: a current supply diagram of the device; fig. 3: a block diagram of the device; fig. 4: a block diagram of the recording device of FIG. 3. The image recording device (fig. 1) applies to human organs A which are connected to the system ground M and rest on the light detector B having photosensitive layers on both surfaces. The detector B has a zone of contact with the film Zc, and is in contact with the dielectric plate C, made of homogeneous glass, the thickness of which is chosen according to the high voltage current applied. Plate C is polarizing in a transverse plane, in order to eliminate diffuse radiation. It has a high dielectric constant (over above 9). Under the plate C is placed a light converter D such as, for example, of the type of a phosphor or liquid crystal transformer. The light converter D can be an electroluminescent layer formed by a phosphor which is excited by an electric voltage of a certain level. The converter D is insulated by a dielectric layer E from the metal plate F, to which the high voltage current IT between 1 and 40 kV is applied. This metal plate is in turn isolated from the environment by the protective dielectric G. fig. 2 shows an embodiment of the apparatus which generates the high voltage current used for the image recording device. The electric current supply can be the network a or an autonomous source b composed of batteries or an accumulator 1, an oscillator 2 and an intermediate voltage transformer 3, which generates an alternating current. The alternating current is rectified by the rectifier 4 and charges the capacitor 5. This can be discharged by the manual or automatic control 6 into the primary winding of a high voltage transformer with alternating components. This discharge can be used directly or the current can be rectified and transformed into a pulse with a slope controlled by the rectifying device and forming high voltage pulses 8. Figs. 3 and 4 represent a schematic example of the operation of the apparatus. The explored organism A rests on the photosensitive film B comprising two photosensitive layers (one on each side). A high voltage electric pulse (1-60 kV) is applied to it. During the supply of capacitor 5, which is done by one of the two alternating sources a and b, the human organ is separated from the current source. By discharging capacitor 5 and high voltage transformer 7, a pulse is generated with a series of alternating components which are rectified by device 8, from which results a pulse with characteristics of controlled slope, duration and amplitude. This pulse is applied to the metal plate F, placed under the light converter and separated from it by a dielectric layer E. The layers E, the light converter D, the transparent glass dielectric layer C, the photographic film and the layer of air included in the contact zone Zc between the body and the photographic film, constitute a dielectric having determined parameters which are placed between the pulse applied to the armature F and the human organ A. Inside this dielectric appear the rays of light coming from the converter D which impress the photographic plate, or the light detector B, on the part in contact with the living organism, reproducing the surface electrical phenomena. The system works as follows: the electromagnetic field generated by a single monopolar pulse with specific characteristics propagates through the living organism undergoing differentiated attenuations depending on the impedance of the tissues. This results, at the contact surface with the screen, in non-uniform distribution zones; this causes uneven luminescence of the light converter D; the light obtained is transmitted by the optically polarizing dielectric plate C and impresses the lower layer of the photosensitive film B; in this way, the film reproduces the distribution of the electromagnetic field through the living organism. The upper layer of photographic film B is in contact with the organism and reproduces the surface electrical phenomena. The lower layer shows the depth electrical phenomena of the living organism. The apparatus, according to the invention, has the following advantages: — it has high reliability and has no harmful effect on the human organism; — the quality of the images is superior to other devices; — it can be produced at a reduced cost price. 5 10 is 20 25 30 35 40 45 50 55 60 65 R 2 drawing sheets