CS250090B1 - Electronic measuring instrument for tooth root's channel length determination - Google Patents

Description

The invention relates to an electronic measuring device for determining the length of the dental root canal. Its use falls within the field of conservative dentistry, where by using a special elbow changing the rotary motion of the dental drill motor to a vertical oscillating motion it serves to find the lower so-called apical end of the tooth root canal.

Since the use of X-rays to determine the tooth length in a living organism, the disadvantages of this method, in particular the anatomical variation of both teeth and teeth in the bone bearing, have been known.

As an alternative to carrying out this method, electrical apparatus is used to determine the length of the tooth root canal. The prior art electronic recording devices work on the principle of starting from a certain patient-independent resistance between the electrode on the oral mucosa and the measuring electrode inserted into the root canal, up to the lower and the lower, respectively. apical end. An embodiment of this method is disclosed, for example, in U.S. Pat. Nos. 4,273,531, 4,302,627, and GB 1,439,835.

Other known devices are based on comparing the actual values of electrical resistance to several corresponding values of the electrical conductivity of the measuring electrode immersed in a certain depth of the root canal of the tooth, for example according to DE-OS No. 3,018,568. . Individual peculiarities and some pathological conditions lead to erroneous measurements.

This also applies to ultrasonic devices, for example according to DE-OS No. 3 211 669 and comparative measurement devices, for example according to DE-OS No. 3 021 302. Differences in humidity may affect the measurement results when using these instruments.

Another known device according to DE-OS no. 2 134 435 indicates the end of the root canal according to the least electrical resistance. However, the resistance may be further reduced as the electrode penetrates through the end of the channel, with the result that the electrode may become too deeply embedded and thus injure the patient.

It is an object of the invention to increase measurement accuracy and reliability independent of individual tooth specialties and reduce the risk of patient injury.

The present invention is based on the state of the art and solves this problem by an apparatus designed to connect a large-scale mucosal electrode to the AC generator and the oscillating metering electrode immersed in the dental root canal is connected to a modulator which is connected in series via a demodulator and filter to a pointer immersion depth of the measuring electrode.

Particularly advantageous is the arrangement of the device such that the filter is connected to the maximum immersion depth evaluator of the measuring electrode and the evaluator is connected to an acoustic, optical or electromechanical signaling device.

The device allows reliable localization of the apical end of the root canal of the tooth with great accuracy, regardless of the individual peculiarities of the individual teeth.

An exemplary embodiment of the apparatus according to the invention is illustrated by the wiring diagram in Fig. 1, and Fig. 2 is a graphical representation of two different dependencies of the measured values from the immersion depth of the oscillating measuring electrode into the tooth root canals.

A large surface mucus electrode 2 is connected to the output of 10 kHz AC generator 1 and an amplitude of several hundred mV. The oscillating measuring electrode 3 with a 1 mm oscillation is connected to a modulator 4 connected in series via a demodulator 5 and a filter 6 with a measuring electrode immersion indicator 7. The filter 6 is further connected to an evaluator 8 of the maximum immersion depth of the measuring electrode 3. The evaluator 8 is connected to an optical-acoustic signaling device 9.

The function of the device according to the invention is as follows: The electric current circuit from the large-area mucosal electrode 2 to the measuring electrode 3 oscillating axially in the root canal of the tooth is closed over the gum and deeper anatomical structures. By shifting the oscillating measuring electrode 3, a measurement is made along a portion of the tooth characteristic of the tooth root canal. The modulated AC voltage signal produced in the modulator 4 and correspondingly indirectly to the instantaneous electrical resistance value is converted by the demodulator 5 and the subsequent filter 6 into a DC voltage signal corresponding to a relative resistance change. The evaluation of this DC voltage is carried out by an indicator 7 or by a signaling device 9.

The operation of the instrument is further illustrated by the graph in Fig. 2, which shows the relationship of the relative change in electrical resistance plotted on the Y-axis to the plunging depth of the measuring electrode 3 plotted on the X-axis. of measured teeth.

Claims (2)

An electronic measuring device for determining the length of the dental root canal by means of measuring electrodes, characterized in that a large-scale mucosal electrode (2) is connected to the AC generator (1) and the oscillating measuring electrode (3j immersed in the dental root canal is connected to a modulator (4) connected in series via a demodulator (5) and a filter (6) BACKGROUND OF THE INVENTION with a plunging depth indicator (7) of the measuring electrode (3). An electronic measuring instrument for determining the length of the dental root canal according to claim 1, characterized in that the filter (6) is connected to an evaluation (8) of the maximum immersion depth of the measuring electrode (3) and the evaluator (8) is connected to an acoustic, or an electromechanical signaling device (9).