FI62949C - PROCEDURE FOR THE PURPOSE OF PANORAMAROENT PHENOGRAPHY FOR PATIENTS - Google Patents

Description

62949 ·

METHOD AND APPARATUS FOR PANORAMIC X-RAYING TO DETERMINE PATIENT-SPECIFIC IRRADIATION -FÖRFARANDE OCH ANORDNING VID PANORAMARÖNTGENFOTO-GRAFERING FÖR BESTÄMMANDE AV BESTRMANDE

The invention relates to a method according to the preamble of claim 1 and to an apparatus for applying the method.

5 In panoramic dental X-rays, X-rays pass through the patient's arch and entire head before entering the film or other imaging device. Achieving a clear and well-tinted X-ray image requires a sufficient amount of radiation, the magnitude of which is affected by the attenuation caused by the subject's X-rays, which in turn depends on the amount of material in the path of the rays. On the other hand, the aim is to avoid applying unnecessarily large amounts of radiation to the patient. In practice, the problem is determining just the optimal radiation intensity for each of 15 patients, the shape and size of the head, to prevent bone and other tissue known to share vary quite widely different not only in humans such, but also age and gender. Based on solid experience, people using X-ray equipment can achieve quite good results. Nevertheless, and especially those with less experience, there may be considerable difficulty in determining the correct radiation intensity.

As a solution to the problem, a mau-seri type measuring device has been proposed for measuring the width of a patient's head in a plane comprising the patient's eyes or earlobes. This measure has been claimed to have a certain correlation with X-ray absorption. It is important to know the amount of tissue that X-rays must pass through for proper radiation intensity. In practice, the assessment of the skull mass of patients 62949 · 2 by the above-mentioned measurement can lead to quite erroneous results, since the the measurement does not provide information on the interrelationships between bone tissue and other tissue, i.e., muscle and possibly fat. This information would be necessary in order to reach the actual total mass from the width measurement results. In addition, relying on a separate measuring device to be fitted to the patient's skull slows and complicates the work of the imaging staff and may make the patient feel uncomfortable.

The object of the invention is to provide a new, simple and practical method, and an apparatus for applying the method, for determining the rainfall intensity per patient sufficiently reliably, without the above-mentioned shortcomings and disadvantages of the prior art. The essential features of the invention appear from the characterizing part of claim 1 and the other claims. In practice, it has been found that the total mass of the patient 20 correlates quite well with the mass of the patient's skull, on the basis of which the radiation intensity required for panoramic X-ray imaging of the patient's teeth or possibly other cranial area can be determined with sufficient accuracy. The patient can be weighed simply and easily before the actual X-ray, by connecting an electronic scale to the equipment, which can directly supply a control signal representing the patient's weight to the control system of the X-ray equipment.

The invention will now be described in more detail with reference to the accompanying drawing, the only figure of which shows an apparatus according to the invention.

The apparatus comprises a fixed body 1, in which a protrusion Ib 35 is rotatably mounted on an end 35, at the end of which an X-ray tube 3 with collimating means for directing X-rays 3 62949 through the patient P and alternatively or storage media (cf. electronic imaging). Actuators for rotating the arm 2 and moving the film 5 in the film cassette device 4 are not shown in the figure. The apparatus further comprises a control unit 5, the control system of which is arranged to regulate and control said movements as well as the operation of the X-ray tube 3 (operating voltage and current) and the settings of the coilimation means. These control and steering functions are illustrated by control signal 8.

The apparatus is also provided with an electronic scale by means of which the patient P is weighed before imaging and which is arranged to supply a control signal 7 representing the weighing information to the control unit 5 to select the correct radiation intensity to be applied to the patient. The control system can advantageously be provided with staggered operating programs based on the patient's weight and the corresponding radiation intensity.

The intensity of the radiation can be adjusted, for example, so that certain weight limits correspond to a certain voltage and / or current value. The radiation intensity can also be changed by adjusting the effective, radiation-transmitting size of the coilimation gap (not shown in the figure) or by changing the irradiation time. In the latter case, the control system is arranged to influence the previously mentioned transfer movements (arm 2 and film transfer).

30

The embodiment shown relates in particular to dentition-frame framing X-ray. The method and apparatus according to the invention can also be considered to be applicable to other X-rays, especially in the cranial region.

35 For example, in the case where the patient is depicted in a horizontal position, a solution may be considered to be applied in which the foot of the patient's bed or similar platform

Claims (6)

62949 4, separate weight sensors are placed, from the signals of which the counting unit calculates the patient's weight when the weight of the platform is known, and further inputs the information as a control signal 7 as described above. Such a weighing system is known per se from FI patent 47840 and the corresponding US patent 3722611. Of course, the patient can also be considered to be weighed completely separately from the X-ray device itself and any or all of the scales can be fed into the control system. The advantage of an electronic scale is that in this case the scale itself produces an electrical signal which can control the control unit. The invention is not limited to the embodiment shown, but several variations of the invention are conceivable on the basis of the appended claims. 20 A method for determining and controlling patient-specific radiation, in particular in a panoramic X-ray of a skull area, for example a dentition, taking into account the radiation dose received by the patient and obtaining sufficient information on the selected imaging area weight as a control parameter. A method according to claim 1, characterized in that the patient is preferably weighed on an electronic scale, and that a signal representing the patient's weight is fed to the irradiation control system of the subject to obtain the most optimal irradiation for the selected imaging area. 62949 5 A panoramic X-ray imaging apparatus for applying a method according to any one of the preceding claims, comprising an X-ray source (3), collimating means for delimiting and directing X-rays to the patient (P) and means for adjusting said radiation intensity and / or irradiation time, to control the operation of the means, the patient's weight measurement information 10 is arranged to be used so that the irradiation of the selected imaging area is as optimal as possible. X-ray imaging apparatus according to claim 3, characterized in that it is preferably provided with an electronic scale (6), and that the measurement signal (7) representing the patient's weight thus obtained is used as a control signal arranged to be fed to said device control system (5). ), preferably with a few ready-made action programs graduated according to the patient's weight 20 and the corresponding X-ray intensity. X-ray imaging apparatus according to Claim 3 or 4, characterized in that the control of the intensity of the X-ray radiation 25 is arranged to be achieved by changing the voltage value and / or the current value of the X-ray tube (3). X-ray imaging apparatus according to one of Claims 3 to 5, characterized in that the control of the intensity of the X-rays directed to the patient (P) is arranged to be effected by varying the effective, radiation-transmitting size of the collimation gap of said collimating means. 6 62949