RU2578907C1 - Method of estimating parameters of sagittal lumbosacral spinal balance - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to orthopaedics, neurosurgery, radiology and neurology. For estimating parameters of sagittal lumbosacral spinal balance x-ray or magnetic resonance imaging of lumbar spine is performed. In programs for viewing and image processing parameters: angle lordosis, chord circle, circle segment height, tilt angle and angle of deviation of sacral bone as angle between line drawn from centre of locking lamina S1 to ventral surface of disc S2-S3 and vertical plane. Lumbar coefficient Kl, sacral coefficient Ks and sagittal lumbosacral balance LSB are calculated based on derived parameters. If LSB is 0.19 and less interrelation lumbar and sacral spine are considered abnormal with postural dysfunction and high risk of developing degenerative spine diseases. If LSB is 0.20 and more interrelation anatomical and geometrical parameters of lumbar and sacral spine is considered to be optimal without postural dysfunction and low risk of developing degenerative spine.

EFFECT: method enables objective diagnosis and prediction of developing pathological process, determine optimum therapeutic approach, as well as assessing dynamics of process in patients following surgical management, due to inclusion in assessment of balance of such parameter as angle of deviation of sacral bone.

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Description

The invention relates to medicine, namely to orthopedics, neurosurgery, radiology, neurology, and can be used to assess the lumbosacral sagittal balance.

Homo erectus allowed a person to achieve intellectual, technological and social development. However, the transition to upright posture was possible only through morphological adaptation of the skeleton, in particular the lower extremities, pelvis and spine. The pelvis, in fact, is a key link in all transformations, acting as a free basis and subject to the action of gravity from the spinal column, as well as the reaction force of the support transmitted through the heads of the hip joints. In parallel with the adaptation of the pelvis, the appearance of bends of the spinal column made it possible to achieve a balance to reduce stress loads on muscle-ligamentous structures and reduce the strength of muscle contractions necessary for its (balance) maintenance.

Sagittal balance or “neutral vertical alignment of the spine in the sagittal plane” is the main goal of surgical, ergonomic and physiotherapeutic procedures. In a standing position, the sagittal balance is very fragile: all stress loads from the action of gravity are stored in all components of this vertical system. Dynamic control of the center of gravity is extremely important, since in a standing position, any imbalance causes negative effects, including pain and anatomical disorders.

Accepted criteria for sagittal balance correspond to a wide range of values of the chest and lumbar flexure (50 mm scatter for C7-S1 in healthy patients). This fact greatly complicates the study of the spine or the achievement by surgeons, researchers, clinicians and patients of similar goals in the formation of optimal posture.

The authors of the invention in the available literature did not find information sources with a description of the method of quantitative assessment of sagittal balance.

The objective of the invention is to provide a method for assessing the sagittal lumbosacral balance of the spine, to conduct an objective diagnosis, on its basis to predict the development of the pathological process, determine the optimal therapeutic tactics, and also evaluate the dynamics of the process in patients after surgical treatment.

The essence of the invention lies in the fact that the method for evaluating the parameters of the sagittal lumbosacral balance of the spine is characterized by the fact that after radiography or magnetic resonance imaging of the lumbar spine in the programs for viewing and processing images determine the parameters: lordosis angle, chord of a circle, height of a circle segment , the angle of inclination and the angle of deviation of the sacrum, the obtained parameters are entered into the Excel table, then the radius of the circle R is determined by the formula

where h is the height of the circle segment,

c is the length of the chord,

the central angle of the circle α is determined by the formula

where arcsin is the inverse trigonometric function,

R is the radius of the circle,

α is the central angle of the circle,

circle arc length L is determined by the formula

L = αR,

α is the central angle of the circle (the angle whose vertex is in the center of the circle),

R is the radius of the circle,

then calculate the lumbar coefficient Kl, sacral coefficient Ks, as well as the sagittal lumbosacral balance LSB according to the formulas

Kl = β / α,

Ks = SS / SD,

LSB = | Ks-Kl |,

where α is the central angle of the circle,

β is the angle of lordosis,

SD is the angle of deviation of the sacrum,

SS - the angle of the sacrum,

by the obtained value of the sagittal lumbosacral balance parameter LSB, the relationship between the anatomical and geometric parameters of the lumbar and sacral spine is estimated, and with its value of 0.19 or less, the relationship of the lumbar and sacral spine is assessed as abnormal with the presence of postural dysfunction and a high risk of degenerative diseases spinal column, with the value of the parameter of the sagittal vertebral-sacral balance 0.20 or more, the relationship is anatomical x and geometric parameters of the lumbar and sacral spine are assessed as optimal without the presence of postural dysfunction and with a low risk of degenerative diseases of the spine.

Using the invention allows to obtain the following technical result.

The proposed method for estimating the parameters of the sagittal lumbosacral balance, based on the data of x-ray or magnetic resonance imaging, has high accuracy, informativeness and objectivity, as it is based on reliable quantitative criteria characterizing the anatomical and geometric relationships of the key components of this biological system.

The method objectifies the diagnostic process and allows you to predict the development of the pathological process, determine the optimal therapeutic tactics, as well as evaluate the dynamics of the process in patients after surgical treatment.

The method is effective in cases of planning surgical intervention on the lumbar spine, when the formation of a fixing metal structure requires accurate quantitative determination of the optimal degree of correction of postural disorders.

The proposed method is simple and affordable and can be used in medical institutions of various types without the use of special equipment.

The technical result is achieved due to the fact that the authors for the first time to quantify the sagittal vertebral-sacral balance proposed a technique based on the study of the lumbar and sacral spine, using the following anatomical and geometric parameters: the length of the circular arc, the length of the chord of the circle, the height of the circle segment, the radius of the circle, the central angle of the segment of the circle, the angle of lordosis, the angle of inclination of the sacrum, the angle of deviation of the sacrum (Fig. 1).

The proposed parameters are selected on the basis of statistical and mathematical analysis of a large amount of clinical material, as well as literature data.

Based on the revealed patterns, the authors first proposed coefficients characterizing both the relationship of geometric and anatomical parameters within the same anatomical zone (lumbar spine and sacrum), so between them.

For the first time, the authors proposed the parameter “Angle of deviation of the sacrum,” which determines the location of the sacrum in a vertical plane and allows, in combination with the angle of inclination of the sacrum, to describe its location in the coordinate system, which is important for assessing the sagittal balance between the sacrum and the lumbar spine.

To calculate the parameter “Sacral deflection angle”, the authors introduced the concept of “axis of the sacrum” - a line drawn from the center of the end plate S1 to the ventral surface of the disk S2-S3. The technique for determining the axis of the sacrum is based on constant, well visualized both on x-ray and MP-gram anatomical landmarks.

The method allows to evaluate the sagittal vertebral-pelvic balance taking into account the ratio of the geometric and anatomical parameters of the spine and sacrum and individually develop further therapeutic tactics.

The method is as follows.

After the Rg-graph or MRI of the lumbar spine, the following parameters are determined in the programs for viewing and processing * .dcm images: lordosis angle, chord of a circular arc, height of a circle segment, angle of inclination of the sacrum, angle of deviation of the sacrum. Data is entered into an Excel spreadsheet. Then determine the radius of the circle R by the formula

where h is the height of the circle segment,

C is the length of the chord,

the central angle of the circle α is determined by the formula

where arcsin is the inverse trigonometric function,

R is the radius of the circle,

α is the central angle of the circle,

circle arc length L is determined by the formula

L = αR,

α is the central angle of the circle,

R is the radius of the circle,

L = αR.

Then calculate the lumbar (Kl) and sacral (Ks) coefficients, as well as the sagittal vertebral-pelvic balance (LSB) according to the formulas

Kl = β / α,

Ks = SS / SD,

LSB = | Ks-Kl |,

where α is the central angle of the circle;

β is the angle of lordosis;

C is the length of the chord;

h is the height of the circle segment;

L is the length of the circular arc;

R is the radius of the circle;

SD is the angle of deviation of the sacrum;

SS is the angle of inclination of the sacrum.

By the value of the parameter "Sagittal vertebral-sacral balance" judged on the relationship of the lumbar and sacral spine.

With the value of the parameter "Sagittal vertebral-sacral balance" of 0.19 or less, the relationship of the lumbar and sacral spine is assessed as abnormal with the presence of postural dysfunction and a high risk of degenerative diseases of the spinal column. If these patients have indications for surgery on the lumbar spine, it is recommended that the angular values of the lumbar spine or sacrum be corrected, depending on their initial contribution to the value of the Sagittal vertebral-sacral balance parameter.

When the value of the parameter “Sagittal vertebral-sacral balance” of 0.20 or more, the relationship of the lumbar and sacral spine is estimated as optimal without the presence of postural dysfunction and with a low risk of developing degenerative diseases of the spine. Such patients, if there are indications for surgery, correction of the angular values of the lumbosacral spine is not required.

The proposed method has been tested on 100 patients, of which 71% are women and 29% are men. The average age of the patients was 53.5 years. Patients were divided into 2 groups. The main group included 54 patients (average age 58.2 years) with a diagnosis of Lumbar spinal stenosis at the level of L1-L5 vertebrae. The control group included 46 healthy subjects (average age 48 years) without any complaints characteristic of the pathology of the spinal column. For both groups, the parameters Lumbar Coefficient (Kl), Pelvic Coefficient (Ks) and Sagittal Spinal Balance (LSB) were calculated. The average values of the parameters for both groups are presented in table. 1. To compare the main and control groups according to the proposed parameters, we also used the Mann-Whitney U-test. The results are presented in table. 2.

As can be seen from the above data, the main and control groups statistically significantly differ in the values of the sacral and lumbar coefficient, as well as in the value of the parameter “Vertebral-sacral balance”. Moreover, for the main group of patients the average value of the parameter is 0.19, and for the control group 0.36.

Tests have shown that the method for assessing the parameters of the sagittal lumbosacral balance, based on the data of x-ray or magnetic resonance imaging, has high accuracy, informativeness and objectivity, as it is based on reliable quantitative criteria characterizing the anatomical and geometric relationships of the key components of this biological system.

The method objectifies the diagnostic process and allows you to predict the development of the pathological process, determine the optimal therapeutic tactics, as well as evaluate the dynamics of the process in patients after surgical treatment.

Claims (1)

A method for evaluating the parameters of the sagittal lumbosacral balance of the spine, characterized in that after radiography or magnetic resonance imaging of the lumbar spine in the programs for viewing and processing images determine the parameters: lordosis angle, chord of a circle, height of a circle segment, angle of inclination and angle of deviation the sacrum, the obtained parameters are entered into the Excel table, then the radius of the circle R is determined by the formula

where h is the height of the circle segment,
C is the length of the chord,
the central angle of the circle α is determined by the formula

where arcsin is the inverse trigonometric function,
R is the radius of the circle,
α - the central angle of the circle - the angle whose apex is in the center of the circle, then calculate the lumbar coefficient Kl, sacral coefficient Ks, as well as the sagittal lumbosacral balance LSB according to the formulas:
Kl = β / α,
Ks = SS / SD,
LSB = | Ks-Kl |,
where α is the central angle of the circle,
β is the angle of lordosis,
SD is the angle of deviation of the sacrum,
SS - the angle of the sacrum,
the angle of deviation of the sacrum (SD) is defined as the angle between the line drawn from the center of the locking plate S1 to the ventral surface of the disc S2-S3 and the vertical plane, the relationship between the anatomical and geometric parameters of the lumbar and sacral spine is estimated from the obtained value of the sagittal lumbosacral balance parameter LSB , and with its value of 0.19 or less, the relationship between the lumbar and sacral spine is assessed as abnormal with the presence of postural dysfunction and high p the development of degenerative diseases of the spinal column, with a sagittal vertebral-sacral balance parameter value of 0.20 or more, the relationship between the anatomical and geometric parameters of the lumbar and sacral spine is assessed as optimal without postural dysfunction and with a low risk of developing degenerative diseases of the spine.

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