RU98123870A - METHOD OF COMPUTING TOMOGRAPHY AND DEVICE FOR MEDICAL DIAGNOSTICS - Google Patents

Claims (4)

1. The method of computational tomography, which consists in the fact that radiation from a point source of radiation is collimated into a wide fan beam, whose profile at the location of the multi-element position-sensitive imaging device (MFR) corresponds to the dimensions of the MFR-sensitive surface, through a diagnosed object , carry out rotational and reciprocating relative step-by-step movement of the radiation source and the object being diagnosed, projecting The radiation going through the object being diagnosed at the MFR, by means of which the radiation transmitted through the object being diagnosed is converted into electrical signals, the read electrical signals are converted into a digital code in a computer, by means of which the internal structure of the object being diagnosed is restored, characterized in that a narrow beam is formed from a wide fan beam radiation beam and periodically move the narrow beam along the radiation sensitive surface of the MFR, interrupting it in time After each successive cycle of beam movement, step-by-step relative movement of the radiation source and the object being diagnosed is carried out at time intervals corresponding to the beam interruption, and electrical signals are read from each part of the MFIs after the end of exposure of this part of the elements to a narrow beam of radiation and before the next cycle exhibiting this part.  2. A device for medical diagnostics, containing a x-ray emitter with a slotted collimator, mounted on a tripod, and a multi-element position-sensitive X-ray imager (MPFI), a tripod-drive with a spatial position sensor, connected through a synchronization unit to a read control unit, the inputs of which are connected to processor, outputs - with control inputs of the analog-to-digital converter (ADC) and MFPI, whose information outputs are connected in series through These ADCs and the memory unit are connected to a processor connected to the monitor, characterized in that the device additionally contains an obturator material made of an opaque to x-ray radiation, installed between the collimator and the object being diagnosed in the path of the fan beam, the obturator is shaped with slotted orifices of a predetermined shape , between the ends of which there are sectors that are opaque to radiation, the obturator is equipped with an electric drive with a rotation angle sensor connected via a synchronization unit tion with the read control unit and the actuator moving the rack.  3. The shutter to p. 2, characterized in that the slit diaphragms are of such a shape that when the shutter rotates at a constant angular velocity, the exposure time of the beam of radiation of any of the elements of the MPFI is ensured during each exposure cycle. 4. The obturator according to claim 3, characterized in that the number of slit diaphragms is made even with their diametrically opposite arrangement relative to its axis of rotation, and the distance r from the axis of rotation of the obturator to the edge of the aperture slit is determined by the formula
r (α) = r ₀ + L (1-α / α ₀ ),
where r ₀ is the distance from the center of rotation of the obturator to the nearest edge of the projection of the x-ray beam onto the obturator (i.e., almost to the obturator 3 close to the axis of rotation of the obturator 3 of the collimator 2 slot); L is the length of the slit of the collimator 2; α is the current angle of rotation of the obturator within each of the sectors with a diaphragm, 0≅α≅α ₀ ; α ₀ is the angular size of the obturator slot, α ₀ ≪ 180 ^° .