RU2327418C1 - Method of functional muscular change evaluation associated with pelvic limb injuries and diseases - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: muscle thickness and area is scanned with computed tomography. Morphofunctional change index (MCI) is evaluated. Degree of muscular atrophy and dystrophy is detected by value of MCI. Offered method provides quantitative assessment of morphofunctional muscular change, namely degree of prevailing hypotrophic or dystrophic muscular changes by means of direct examination of concerned area using common units of area, cm² and thickness expressed in Haunsfield's units (HU), surrounding tissues excepted, regardless of their volume and thickness characteristics.

EFFECT: improved evaluation accuracy.

2 ex, 5 dwg

Description

The invention relates to medicine, namely to radiation diagnostics, and is used in the treatment of patients with diseases of the lower extremities, accompanied by atrophic and dystrophic muscle changes.

A known method for the diagnosis of morphofunctional changes in muscles, which involves the introduction of radiopaque substances into the muscle under study and subsequent radiography. An X-ray contrast study is carried out with maximum extension and flexion of the distal joint adjacent to the studied segment of the limb, after which the structure of the muscle in the form of its longitudinal or oblique striation and change in the length of the abdomen are determined on the radiograph. The presence of structural de-differentiation and the appearance of a fibrosis site at the regenerate level during lengthening of the limb or in different parts of the muscle during contractures indicates significant changes in the muscle, and the preservation of the structure differentiation and the change in the length of the muscle abdomen indicates its moderate changes (Patent No. 2254055, RF; publ. 20.06 .2005, bull. No. 17).

However, the application of the known method allows the assessment of the studied muscles only in the sagittal and frontal planes, which is associated with the peculiarity of this method.

A known method of visualizing muscles in computed tomography, which is that the patient is injected with a contrast agent, after 20 minutes a spiral computed tomography is performed followed by 3D reconstruction on a multimodal network graphics station of the expert class Leonardo "Siemens", which allows to obtain a three-dimensional image of one muscles with visualization of all its surfaces, internal structures and features of topography (Patent No. 2284150, Russian Federation; publ. September 27, 2006, bull. No. 27).

However, the known method allows you to evaluate the qualitative characteristics of the muscles, namely its structure, while not quantifying the studied muscles. The need for intramuscular injection of a radiopaque drug makes this method quite time-consuming, in addition, does not exclude the manifestation of allergic reactions to the introduction of an iodine-containing drug.

A known method for assessing atrophy of hip muscles in contractures of the hip and knee joints, including measuring thickness, cross-sectional area, muscle density according to computed tomography, in which multi-planar reconstructions of axial sections of the area of the hip joints, hips are performed, then thickness, cross-sectional area and density are measured muscle in Hounsfield units, after which the degree of atrophy is estimated using the ratio of thickness, cross-sectional area and muscle density the married and intact segment (Pat. No. 2005101532, RF; publ. 10.07.06).

However, in the known method, the compared characteristics of densities and areas are considered in isolation, which does not allow a comprehensive assessment of the morphofunctional state of the muscles.

The objective of the present invention is to develop a method that allows to evaluate the morphological and functional restructuring of the muscles of the lower extremities by computed tomography based on the identification of the severity of dystrophic and hypotrophic processes.

The problem is achieved in that in a method for assessing morphofunctional rearrangement of muscles of the lower extremities, including measuring densities and areas of muscles, quantifying the degree of their rearrangement by computed tomography, determine the index of morphofunctional rearrangement using the mathematical expression: IMP = ρ ² (HU) × S ² (cm ² ) / ρ ° (HU) × S ° (cm ² ) × 100, where ρ ° is the muscle density of the contralateral limb, HU; S ^o - the axial sectional area of the muscle of the contralateral limb, cm ² ; ρ ² - muscle density of the diseased limb, HU; S ² is the axial sectional area of the muscle of the diseased limb, cm ² , then the degree of atrophy and dystrophy of the muscles is revealed, the values of the UTI are evaluated. The obtained UTI values of 60 or lower correspond to pronounced dystrophic changes, 61-80 to moderate, 81-90 to minor changes.

The present invention is explained in detail by the accompanying computer tomograms.

Figure 1 illustrates the measurement of thickness and density m. semimemranosus, m.vastus medialis femoris according to axial images in a plane perpendicular to the direction of the main muscle bundles, in a patient H., 40 years old, 1 year after a closed oblique fracture of the left femur. The axial section is made at the level of the upper pole of the patella.

Figure 2 illustrates the measurement of thickness and density m. gastrocnemius (medial head) according to axial images in a plane perpendicular to the direction of the main muscle bundles in the same patient. The axial section is made at the level of the proximal metaphysis of the tibia.

Figure 3 illustrates the measurement of thickness and density m. gastrocnemius (medial head) according to axial images in a plane perpendicular to the direction of the main muscle bundles, patient K., 8 years old; with a diagnosis of achondroplasia, before treatment.

Figure 4 illustrates the measurement of thickness and density m. gastrocnemius (medial head) according to axial images in a plane perpendicular to the direction of the main muscle bundles, patient K., 8 years old; with a diagnosis of achondroplasia, 1 month of distraction with the Ilizarov apparatus.

5 illustrates the measurement of thickness and density m. gastrocnemius (medial head) according to axial images in a plane perpendicular to the direction of the main muscle bundles, patient K., 8 years old; with a diagnosis of achondroplasia, 2.5 months of distraction with the Ilizarov apparatus.

The method is as follows.

Laying the patient for computed tomography is carried out in a supine position. The initial scan level is set in accordance with the study area, in the case of the knee joint, to the level of the lower third of the thigh. The study begins with a topogram (survey digital x-ray) of the segment, the length of the scanning field 256-512 mm. But the hologram is allocated area (range) of scanning.

The processing of axial sections is carried out in axial and paraxial planes. The obtained images interactively calculate the cross-sectional area (cm ² ) and the density of individual muscles in Hounsfield units (HU), using the obtained values, the morphofunctional adjustment index (IMP) is calculated using the mathematical expression: IMP = ρ ² (HU) × S ² (cm ² ) / ρ ^o (HU) × S ^o (cm ² ) × 100.

Example 1: Patient Naberezhnye L.V., 40 years old, medical record of inpatient No. 4081, diagnosis: Incorrectly healed fracture of the diaphysis of the left thigh. Shortening the left thigh (2 cm). Extensor contracture of the left knee joint. Computed tomography of the knee No. 1170 of 05/15/2006, 1 year after a closed oblique fracture of the left femur.

Laying the patient was carried out in a supine position. The initial scan level was set at the level of the upper third of the leg. The study began with a topogram (survey digital radiograph) of the segment, the length of the scanning field of 256 mm. The area (range) of scanning was identified by the topogram.

The processing of axial sections was carried out in axial and paraxial planes. On the obtained images, the cross-sectional area (cm ² ) and the density of individual muscles, namely m, were calculated interactively. semimemranosus, m. vastus medialis femoris et m. gastrocnemius (medial head) in Hounsfield units (HU).

A comparative assessment of the damaged and contralateral limbs determines a decrease in the density and muscle area of the damaged limb. Using the mathematical expression IMP = ρ ² (HU) × S ² (cm ² ) / ρ ° (HU) × S ° (cm ² ) × 100, we calculate the morphofunctional adjustment index (IMP):

UTI (m. Semimemranosus) = 10.9 · 3.7 / 36.5 · 6.1 · 100 = 18

UTI (m. Vastus medialis femoris) = 3.99 · 21.2 / 46.9 · 6.68 · 100-27

UTI (m. Gastrocnemius (medial heud)) = 8.77 · 36.5 / 48.6 · 10.29 · 100 = 64

HSI indicators m. semimemranosus and m. vastus medialis femoris correspond to pronounced changes, m. gastrocnemius (medial head) - moderate.

Example 2: Patient Kostromitina MA, 8 years old, medical record inpatient No. 3665, diagnosis: achondroplasia. Computed tomography of the upper third of the leg No. 1163 of 05/14/2005, before treatment; No. 1547 dated 06/16/05, after 1 month of distraction; No. 1875 from 08/02/05 after 2.5 months of distraction.

Laying the patient was carried out in a supine position. The initial scan level was set at the level of the upper third of the leg. The study began with a topogram (survey digital radiograph) of the segment, the length of the scanning field of 256 mm. The area (range) of scanning was identified by the topogram.

The processing of axial sections was carried out in axial and paraxial planes. On the obtained images, the cross-sectional area (cm ² ) and the density of individual muscles in Hounsfield units (HU) were calculated interactively.

A comparative assessment of the density and area of the muscles of both limbs before surgery does not differ significantly. Using the mathematical expression IMP = ρ ² (HU) × S ² (cm ² ) / ρ ° (HU) × S ° (cm ² ) × 100, we calculate the morphofunctional adjustment index (IMP):

UTI (m. Gastrocnemius (medial head)) = 47.96.27 / 50.46.144100 = 97

HSI indicators m. gastrocnemius (medial head) in the range of 90-100 characterize the absence of pronounced morphofunctional changes in the studied muscles.

In the study after surgical treatment (1 month of distraction), there is a change in the density and area of the studied muscles:

UTI (m. Gastrocnemius (medial head) = 32.4 · 4.23 / 48.9 · 4.29 · 100 = 65

HSI indicators m. gastrocnemius (medial head) of an extended limb corresponds to moderate changes.

In the study after surgical treatment, after 2.5 months of distraction, more pronounced changes in the density and area of the studied muscles occur:

UTI (m. Gastrocnemius (medial head)) = 22.6 · 3.6 / 43.6 · 4.81 · 100 = 39

HSI indicators m. gastrocnemius (medial head) of an extended limb corresponds to pronounced changes.

A study conducted in dynamics allows us to compare the values of the morphofunctional adjustment index in the treatment process and, accordingly, correct the rhythm and rate of distraction.

The proposed method allows using a direct study of the zone of interest to quantify the degree of morphofunctional muscle restructuring, namely, the degree of predominance of hypotrophic or dystrophic muscle changes, using generally accepted units of area in cm ² and density in units of Hounsfield (HU), excluding the influence of surrounding tissues, regardless their volume and density characteristics.

The proposed method is applicable in the study of both traumatological and orthopedic patients. This is important for planning further treatment and rehabilitation principles.

The proposed method is used in the department of radiation research methods of the Federal State Institution “Russian Scientific Center“ Reconstructive Traumatology and Orthopedics ”named after Acad. G.A. Ilizarova »Roszdrav.

Claims (1)

A method for assessing morphofunctional muscle remodeling in patients with injuries and diseases of the lower extremities, including measuring densities and muscle areas, quantifying the degree of their remodeling by computed tomography, characterized in that the index of morphofunctional remodeling is determined using a mathematical expression UTI = ρ ² (HU) × S ² (cm ² ) / p ° (HU) × S ° (cm ² ) × 100, where p ° is the muscle density of the contralateral limb, HU; S ° - axial sectional area of the muscle of the contralateral limb, cm; ρ ² - muscle density of the diseased limb, HU; S ² - the axial sectional area of the muscle of the diseased limb, cm ² , after which the degree of atrophy and dystrophy of the muscles is revealed, assessing the values of UTI.

Images