RU2312607C1 - Method for predicting splenic traumatic lesion - Google Patents

Abstract

FIELD: medicine, surgery.

SUBSTANCE: it is necessary to carry out bioimpedansometry of the upper (Z1) and the lower (Z2) splenic poles to compare the data obtained and if Z1 is above or equal to Z2 one should sate upon splenic traumatic lesion. The innovation enables to carry out diagnostics of splenic traumatic lesion objectively and reliably.

EFFECT: higher accuracy of diagnostics.

1 ex, 1 tbl

Description

The invention relates to medicine and can be used in surgery to diagnose damage to the spleen, accompanied by rupture of the capsule, with blunt trauma to the abdomen.

A known method for the diagnosis of traumatic damage to the spleen, in which an ultrasound examination of the abdominal cavity is performed. Fluid is found around the spleen, in the lateral canal of the abdominal cavity and in the douglas space.

The existing method for diagnosing traumatic damage to the spleen is subjective, since the ultrasound image obtained on the monitor can be interpreted in different ways and requires periodic ultrasound monitoring. Moreover, direct signs of rupture of the spleen can rarely be detected. (Krestin G.P., Choike P.L. Acute abdomen: Visualization diagnostic methods: Translated from English / Edited by I.N. Denisov. - M.: GEOTAR MEDICINE, 2000. - 242 p.)

The objective of the invention is the objectification of a method for the diagnosis of traumatic damage to the spleen.

The essence of the proposed method is that bioimpedanceometry (BIM) of the upper (Z1) and lower (Z2) spleen poles is performed and the obtained data are compared with each other; if Z1 is greater than or equal to Z2, then traumatic damage to the spleen takes place.

It is known that bioimpedansometry can objectively assess the intensity of blood flow. Which is based on the fact that all biological tissues are capable of conducting both direct and alternating electric current and are characterized by a certain resistance.

It is known that in rats, the impedance values in the lower pole of the spleen are higher than in the upper.

When the integrity of the organ is not broken, there is a difference in impedances (ΔZ = Z2-Z1) between the upper (Z1 = 205.5 ± 5.8) and the lower (Z2 = 212.5 ± 5.5) spleen poles, which is due to the peculiarity of its blood supply . But if the organ is damaged, the difference in the impedances of the poles tends to zero (ΔZ → 0), or Z1 becomes larger than Z2.

Example. A rat weighing 180 g under ethereal raush anesthesia performed a mid-median laparotomy, dislocated the spleen into the wound and performed using BIM needle electrodes of the poles, for which electrodes were introduced into the spleen tissue to a depth of 2 mm. It was found that the impedance of the upper pole (Z1) is 197.8 Ohms, and the lower (Z2) is 220.4 Ohms.

Then, several incisions were made with scissors in the central part of the organ, thereby simulating the traumatic damage to the spleen.

Then BIM was performed 5 minutes after the injury, with Z1 = 215 Ohms, a Z2 = 215.8 and 60 minutes after the injury - Z1 = 215 Ohms, a Z2 = 215.5. Got approximately equal values of Z1 and Z2, therefore, after an injury, the impedance of the upper and lower poles is equalized.

We performed experimental modeling of spleen injury in 5 experimental animals (rats of the Wistar strain, weighing 170-190 g) according to the scheme described above. The data obtained are summarized in a table.

In all animals, when the integrity of the organ is violated, the difference in the impedances of the upper (Z1) and lower (Z2) poles either tends to zero, or Z1 was greater than Z2. This phenomenon is possibly associated with the release of adrenaline and subsequent spasm of the vessels that feed the spleen. In this case, the blood flow intensification is uniform for the whole organ, and, consequently, the impedance is equalized.

It should be noted that the blood supply to the spleen of a person and a rat is identical, and therefore, between its upper and lower poles, an impedance difference will also be observed.

Thus, the proposed method for diagnosing traumatic damage to the spleen is objective and reliable and can be widely used in the clinic and performed percutaneously under ultrasound control.

A method for the diagnosis of traumatic damage to the spleen. Table Rat number Z intact spleen 5 minutes after injury 60 minutes after injury Z1 Z2 Z1 Z2 Z1 Z2 one 198.4 202.8 200 201 200 200,2 2 197.8 206.7 202 202.3 202 202 3 210 215.7 216 210 215 20,4 four 197.8 220,4 215 215.8 215 215.5 5 197.8 202 206 205 205 204.8

Claims (1)

A method for diagnosing traumatic damage to the spleen by determining the physical parameters of the damaged organ, characterized in that bioimpedanceometry of the upper (Z1) and lower (Z2) spleen poles is performed and the obtained data are compared with each other; if Z1 is greater than or equal to Z2, then traumatic damage to the spleen takes place.