RU2638623C1 - Method for estimation of efficiency of reconstructive surgery in orbit - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: to assess the effectiveness of reconstructive surgery in orbit, MSCT of both orbits is performed after reconstructive surgery in bulk mode with a cut thickness of 0.5 mm in the axial plane. The symmetrical bone boundaries of both orbits are determined, taking into account their anatomical variations, deformations and bone-traumatic injuries. Each bone wall is marked on each cut. Further, the obtained volumes of the left and right orbits are compared, and when the volume difference is less than 2 ml, a conclusion is made about the positive result of the operation, and when the volume difference is more than 2 ml, the risk of eyelid obsolescence remains.

EFFECT: method provides accurate definition of changes in orbit volumes and, accordingly, the accuracy of estimation of the reconstructive surgical treatment efficiency.

6 dwg, 2 ex

Description

The invention relates to medicine, namely to radiation diagnostics and maxillofacial surgery, is intended to assess the effectiveness of reconstructive surgery in orbit.

The problem of damage to the bone and soft tissue structures of the orbit, as well as post-traumatic defects and deformations of the middle zone of the face, does not lose its relevance. The main late complication of both an “explosive” fracture and an unsuccessful plasty of the lower wall of the orbit is the retraction of the eyeball, which indicates an increase in orbital volume due to the prolapse of the posteromedial part of the lower wall of the orbit, and the resulting violation of the usual anatomical relationship between the fatty tissue of the orbit and the suspension apparatus of the eyeball.

Today, multispiral computed tomography is the standard visualization of bone structures of the facial skeleton, and in particular the walls of the orbits. The capabilities of multispiral computed tomography make it possible to assess the contours, structure, and position of the bone borders of the orbits, as well as to reveal their traumatic and destructive changes of varying severity. An important aspect of the effective diagnosis of pathological conditions of this area is the ability to visualize the contents of the orbit cavity and assess the condition of the oculomotor apparatus. For various pathologies of the bone and soft tissue elements of the orbit, such as developmental abnormalities, endocrinological diseases, traumatic injuries, surgical treatment in the area of the paranasal sinuses and post-traumatic deformities, it is necessary to conduct multispiral computed tomography not only to visualize the immediate pathology, but also to assess changes in orbit volumes and comparing them with the intact side. It is believed that if the increase in orbital volume does not exceed 2 ml, the retraction of the eyeball will remain at the level of 1 mm (Nikolaenko V.P., Astakhov Yu.S. Orbital fractures: a guide for doctors. St. Petersburg, Eco-Vector; 2012. S. 145-210). Then the risk of developing clinically significant enophthalmos will increase in proportion to an increase in orbit volume. In patients with a trauma to the lower wall of the orbit, an increase in the volume of the damaged orbit by more than 2 mm will obviously lead to the lowering of the eyeball by more than 1 mm and to the development of enophthalmos.

However, in a large number of cases it is difficult to visually determine the volume change from the "raw" data of multispiral computed tomography - in such cases a more reliable representation of the orbit volumes is necessary.

A known method of measuring the orbit volume using computer-assisted image processing of multispiral computed tomography (O. Yatsenko. Volume-topographic and structural changes in the soft tissues of the orbit apex during optical neuropathy in patients with edematous exophthalmos. Ophthalmology. 2014; 11 (2): 48-54 ) The main measurement method in this study was the ratio of the length and width of the orbit according to the perpendiculars. The following algorithm was used to calculate the volume-topographic characteristics of the bone orbit and its soft tissue contents: on the axial sections, a perpendicular was drawn from the transverse entrance to the orbit to the inner ring of the optic nerve channel (the line connecting the lateral and medial bone edges of the orbit at the level of the neuroocular section) - thus measured the length of the bone orbit. Then, the middle of the orbit was determined and the perpendicular was drawn through all sections of the bone orbit from its lower to its upper walls. In this way, the volume of the apex of the bone orbit and the volume of extra-ocular muscles were calculated.

The known method has several disadvantages:

- inaccuracy in measuring orbit volumes;

- does not allow to achieve symmetry of the bone borders of the orbits;

- does not take into account the anatomical features of the bone borders of the orbits: an indirect, concave course, with the presence of local curvatures and thinning of the walls;

- does not take into account bone-traumatic changes in the walls of the orbits with prolapse of the soft tissue component into the paranasal sinuses.

A known method for determining the magnitude of the displacement of the eyeball (Perfilyev S.A., Golubeva G.I., Rabukhina N.A., Karayan A.S., Kudinova E.S. Patent No. 2275842; Published: 05/10/2006; IPC: А61В 3/00, A61F 9/00). This method consists in conducting spiral computed tomography of the facial skull, while receiving a slice of the image in the frontal and / or axial planes. On the obtained tomograms, an arbitrary horizontal line is drawn that intersects the images of both eyeballs and chords are measured from the outer to the inner borders of the image of each eyeball and the height of the segments. Then calculate the amount of displacement according to the formula.

The known method does not have the necessary information for accurate measurement of orbit volumes.

The objective of the invention is to assess the effectiveness of reconstructive surgery in orbit.

The technical result consists in accurate measurement of orbit volumes before and after reconstructive surgery in order to obtain additional diagnostic information to assess the effectiveness of the surgical treatment.

The problem is solved by a method of evaluating the effectiveness of reconstructive surgery in orbit, including multispiral computed tomography (MSCT) and measuring orbit volumes, characterized in that after the reconstructive operation, MSCT of both orbits is performed in volume mode with a cut thickness of 0.5 mm in the axial plane, determine symmetrical bone borders of both orbits, taking into account their anatomical variations, deformations and bone-traumatic injuries, mark each bone wall on each section, then compare was obtained volumes of the left and right orbits and at a difference of less than 2 ml conclude positive result of the operation, and when the difference more than 2 ml volume - the continuing risk of depressions eyeball.

The method is as follows:

1. The patient is placed on the table of the tomograph in a supine position. Multispiral computed tomography is performed in volume mode with a slice thickness of 0.5 mm in the axial plane.

2. To mark the research area, a topogram is performed. Tomography begins 1 cm above the infraorbital margin of the orbit and ends at the level of the body of the lower jaw.

3. Tomography is carried out according to the protocol:

4. After scanning, the bone borders of the orbits along which the marking will pass are determined on the images. A necessary condition for the correct implementation of the study is the symmetry of the bone borders for both orbits. To do this, it is necessary to draw a line through the entire length of the orbit and the perpendicular to its length to determine the outer border of the marking, performed immediately for both orbits (Fig. 1a-1b).

5. At each axial section, marking of all bone boundaries of the orbits is carried out, starting from the upper wall to the level of the bottom of the orbit (Fig. 2a-2b). For measurement accuracy, it is necessary to strictly observe the bone borders and take into account anatomical structural variations, and if the integrity of the wall is damaged and the soft tissue structures are prolapse into the paranasal sinuses, it is necessary to follow the displaced soft tissue component of the orbits and include it in the zone of interest.

6. The patient is repeatedly performed multispiral computed tomography after reconstructive surgery in the supine position, in volumetric mode with a slice thickness of 0.5 mm in the axial plane.

7. After measuring the volumes of the orbits, the results obtained are compared before and after the reconstructive operation. With a volume difference of more than 2 ml, the retraction of the eyeball increases by 1 mm and, as a result, the risk of developing enophthalmos increases.

To test the technique, 60 patients with traumatic injuries of the orbits (men - 57, women - 3) aged 17 to 49 years were examined. Multi-spiral computed tomography with measurement of orbit volumes before surgery was performed on the day of admission. Postoperative multispiral computed tomography with volume measurement was performed within 7-10 days after surgical treatment. At the preoperative stage, an increase in orbit volume was determined in 15 patients (25%). Of these, in the postoperative period, the orbit volume did not recover in 7 patients; therefore, in 12% of cases, the risk of eyeball retraction increased.

EXAMPLE 1. Patient A., 22 years old, facial skeleton injury received as a result of a traffic accident. The study was performed on a Toshiba 640-spiral Aquilion ONE computed tomograph in volumetric mode with a cut-off thickness of 0.5 mm for 2 seconds before and after reconstructive surgery. The data of multispiral computed tomography in the coronal, axial and sagittal planes made it possible to determine multiple fractures of the bone structures of the facial skeleton with an increase in the volume of the left orbit. To assess the effectiveness of the treatment and to predict the development of enophthalmos, the volumes of both orbits were calculated. Before treatment, the initial volume of the left orbit differed with the contralateral side by 14 ml (Fig. 3, 1a-1c), after reconstructive surgery, the difference in volumes decreased to 5 ml (Fig. 4, 2a-2c). Since the difference in volumes after surgical treatment was more than 2 ml, the patient remained at risk of developing postoperative sagging of the eyeball by more than 2 mm.

EXAMPLE 2. The patient. M, 55 years old. Condition after surgical treatment in the region of the left maxillary sinus in 2006 and in 2015. The study was performed on a Toshiba 640-spiral computer tomograph Aquilion ONE in volume mode with a cut-off thickness of 0.5 mm for 2 s before reconstructive surgery and after. The shape of the lower wall of the orbit on the left is changed, prolapses in the maxillary sinus, mainly in the posterior regions due to postoperative changes in the region of the left maxillary sinus (Fig. 5a-d). It is not possible to determine the change in the volume of the left orbit; a more reliable representation of the volume is necessary to exclude the development of enophthalmos. After processing the data of multispiral computed tomography, the volume of the right orbit was 27.83 ml, the left - 26.60 ml. The difference in volumes does not exceed 2 ml (1.23 ml), which indicates a small likelihood of displacement of the eyeball by more than 1 mm, respectively, retraction of the eyeball in this patient is unlikely (Fig. 6a-d). The patient is shown a routine examination with multispiral computed tomography and measurement of orbit volumes to assess the dynamics of the state.

The developed method allows to increase the accuracy and informativeness of diagnostics by obtaining additional information. This makes it possible for maxillofacial surgeons to more accurately determine the tactics and scope of surgical intervention, as well as evaluate the effectiveness of the reconstructive surgery.

Claims (1)

A method for evaluating the effectiveness of reconstructive surgery in orbit, including multi-helical computed tomography (MSCT) and measuring orbit volumes, characterized in that after the reconstructive operation, MSCT of both orbits is performed in volume mode with a slice thickness of 0.5 mm in the axial plane, symmetrical bone borders are determined of both orbits, taking into account their anatomical variations, deformations and bone-traumatic injuries, mark each bone wall on each section, then compare the obtained volumes of the left and right howl orbits and at a difference of less than 2 ml conclude on the positive result of the operation, and when a difference larger than 2 ml - the continuing risk of depressions eyeball.

Images