RU2364339C1 - Computed tomographic diagnostics technique for breast implant rupture - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: multispiral computed tomography with tomographic image thickness 0.5-1 mm is conducted in face-down position on a support not leaning on breast. Multiplanar and three-dimensional reconstruction tomosyntheses are rendered. If defect of an implant wall and conglomerates are observed in beast tissues of density 80-120 Hounsfield Units, implant wall rupture and silicone spillover is concluded.

EFFECT: higher accuracy of early diagnostics of breast implant rupture, distinguished localisation of implant ruptures of small size, less than 1 cm, detection of breast implant rupture combined with edema and apparent cicatricial changes, differentiation of liquid and silicone deposition surrounding the implant, improved visualisation of the implant and correct assessment of all structural elements of breast, detection of silicone conglomerates in implant rupture in retromammary breast.

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Description

The invention relates to medicine, in particular to radiation diagnostics, and can be used for early diagnosis of rupture of a breast implant.

Breast enlargement (augmentation mammoplasty) is currently one of the most frequently performed operations in plastic surgery.

Most often, this operation is resorted to by patients who experience mental discomfort due to the small size of the breast, its imperfect shape, congenital asymmetry, and a change in the shape of the breast after childbirth or surgical interventions. The use of implants in breast reconstruction is the most popular method.

Currently, silicone is the most common biocompatible material used to make breast implants and tissue expanders. Single chamber implants are most commonly used.

The most common reasons for removing a breast implant is the availability of data confirming rupture of the implant and leakage of its contents.

The relevance of a visual assessment of the state of the implant and the surrounding tissues after augmentation mammoplasty is not in doubt.

Currently, methods such as x-ray mammography, ultrasound (ultrasound), and magnetic resonance imaging (MRI) are used to visualize breast implants.

X-ray mammography is uninformative for assessing ruptures of breast implants. In addition, its implementation is associated with mandatory compression of the mammary gland, which in the early postoperative period leads to trauma to the periprosthetic fibrous capsule [Radiation diagnosis of breast diseases. A guide for doctors. // Edited by G.E. Trufanov. - St. Petersburg, 2006. - 232 p.].

Ultrasound is completely harmless to patients, atraumatic and allows multiple dynamic studies of the tissue surrounding the implant [Zabolotskaya N.V., Zabolotsky B.C. New technologies in ultrasound mammography. // M., 2005 - 240 p.].

However, ultrasound has certain limitations due to the limits of its capabilities:

- subjectivity of the interpretation of the received image, depending on the position of the transducer;

- a small field of the image (gives only an aimed image or lengthens the study);

- difficulties in differentiating the fluid from silicone deposits around the implant when it ruptures;

- it is not always possible to determine a violation of the integrity of the implant.

MRI of breast implants is carried out using special surface coils. In the absence of a surface coil for mammary glands, an MRI of implants becomes impossible.

Contraindications to conducting MRI of the mammary glands are general contraindications to conducting magnetic resonance imaging: artificial pacemakers, artificial heart valves, ferromagnetic vascular clips, claustrophobia, valves on double-circuit breast implants [Rink P. A. Magnetic resonance in medicine. // M., 2003 - 256 p.].

The disadvantages of MRI include a sufficiently large time required to obtain images, which leads to artifacts from respiratory movements. Problems arise with a large volume of mammary glands, when they do not correspond to the holes of the surface coils [Lukyanchenko AB, Gurova N.Yu. X-ray computed and magnetic resonance imaging in the diagnosis and assessment of the prevalence of breast cancer. // In the journal: Radiology - Practice - 2001 - No. 3. - C.3-9].

One of the most serious drawbacks of MRI of breast implants is the lack of accurate criteria for image interpretation during intracapsular rupture of the implant. The main sign of intracapsular rupture, characterized by the presence of linear convoluted structures with a low-intensity MP signal, is nonspecific, as it can be detected when implant folds occur and lead to diagnostic errors in MRI.

A known method for the diagnosis of rupture of a breast implant by computed tomography (CT) [E. Azavedo, B. Bone. Imaging breasts with silicone implants. European Radiology - Volume 9, Number 2, 349-355 - 1999], during which CT capabilities were identified in the diagnosis of rupture of a breast implant in comparison with mammography, ultrasound and MRI.

CT studies of the mammary glands in this method are carried out according to the standard method, which is as follows: the patient is placed on a table deck in a horizontal position on the back, hands are placed behind the head. The thickness of the tomographic layer is 5 or 10 mm.

The specified diagnostic method does not allow to identify ruptures of the breast implant, as it has significant disadvantages:

- in the position of the patient lying on his back, the mammary glands under their own weight are displaced in the lateral direction, which makes it extremely difficult to visualize both the structure of the mammary gland and implant ruptures;

- for the same reason, there is a decrease in the size of the retromammary space, which complicates the search and differentiation of silicone with extracapsular rupture of the implant in this part of the mammary gland;

- when you place your hands behind your head in a supine position, the structures of the axillary regions pull and come closer, which worsens the detection of silicone in them when the breast implant ruptures;

- when the patient is lying on his back with his hands behind his head, the large and small pectoral muscles come closer and they practically do not differentiate from each other;

- CT scans of the mammary glands with a tomographic layer thickness of 5 mm or more lead to the appearance of “jagging” in multiplanar and three-dimensional images, which can simulate implant ruptures and does not allow visualization of ruptures less than 5 mm in size.

The objective of the invention is to improve the accuracy of diagnosis and earlier detection of a rupture of a breast implant.

The indicated problem is solved by the method consisting in performing multispiral computed tomography with a tomographic section thickness of 0.5-1 mm, in the position of the patient lying on her stomach on a stand without resting on the mammary glands, multi-planar and three-dimensional reconstructions are made when determining the defect of the implant wall and conglomerates in breast tissue with a density of 80-120 Hounsfield units make a conclusion about the rupture of the walls of the implant with the release of silicone beyond.

In practice, the diagnostic method is as follows.

1. The study is carried out in the position of the patient lying on his stomach on a stand consisting of two rollers.

2. The mammary glands are freely located between the rollers, without touching the table deck.

3. The direction of research - from head to toe.

4. The tomography mode is spiral. The tomogram is lateral.

5. Phase research - native. The thickness of the tomographic slice is 0.5-1 mm.

6. The study is carried out on one breath holding to exclude the movement of the chest and mammary glands in order to avoid blurring the received image from the level of the spinous process of the 7th cervical vertebra. The number of tomograms is selected depending on the constitutional features of the patient.

7. Based on the data obtained, the construction of multiplanar and three-dimensional reconstructions is carried out.

Our developed method for the diagnosis of mammary glands has the following advantages:

1. Helps to clearly localize implant breaks of small (less than 1 cm) sizes;

2. Allows you to identify the rupture of the breast implant on the background of edema and severe scar changes;

3. Differential diagnosis of fluid from silicone deposits around the implant during its rupture does not cause difficulties, since the density of silicone is 10 times higher (80-120 Hounsfield units) than the density of the liquid (0-10 Hounsfield units);

4. When the patient is lying on her stomach on a stand without resting on the mammary glands, optimal conditions are created for the even distribution of glandular and adipose tissues, which improves the visualization of the implant and the correct assessment of all structural elements of the mammary gland;

5. Allows you to maximize the size of the retromammary space and identify silicone conglomerates when the implant ruptures in this part of the mammary gland.

A total of 122 women with suspected implant rupture were examined. Depending on the complications, the examined patients were distributed as follows: extracapsular rupture of the implant was detected in 34 patients, which made up 27.9% of all patients, intracapsular rupture in 23 (18.8%), capsular contracture in 39 (32.0%) seroma - in 26 (21.3%).

The studies were performed on a Toshiba Asteion multispiral computed tomograph with a thickness of 0.5 mm tomographic section with further construction of multiplanar and three-dimensional reconstructions.

All women with complications that developed after augmentation mammoplasty were subjected to surgical treatment.

Computed tomography revealed ruptures of implants in all 57 cases. The accumulation of silicone in the tissues of the mammary gland outside the implant shell, which is a sign of extracapsular rupture, is determined by the density of 80-120 Hounsfield units. Intracapsular implant ruptures were determined on MSCT mammograms in the form of wall defects without the release of silicone into the surrounding mammary gland tissue.

Example 1

Patient J., 32 years old, was admitted to the clinic in connection with complaints of deformity of the right breast. From the anamnesis: a year ago an enlarging (augmentation) mammoplasty of both mammary glands was performed with silicone implants for cosmetic purposes. The deformation occurred due to a bruise of the mammary gland three days ago. On examination, asymmetry in the size of the glands is noteworthy.

Preliminary diagnosis: implant rupture.

According to the proposed method using multispiral computed tomography with a thickness of a tomographic section of 0.5 mm in a series of tomograms obtained after multiplanar reconstruction, an implant wall defect of 9 mm in diameter with the exit of silicone into the surrounding tissues was found on the border of the lower quadrants of the right breast. The density of the detected silicone was 110 Hounsfield units.

The changes revealed by computed tomography were regarded as extracapsular rupture of the implant of the right mammary gland.

The patient was removed torn prosthesis and the simultaneous installation of a new silicone implant.

Example 2

Patient N., 28 years old, complained of an increase in volume and an increase in the density of the left breast in comparison with the right gland. Upon examination, her skin is swollen, hyperemic, saphenous veins dilated. Local temperature increase and pain are noted. From the anamnesis: 6 months ago an enlarging mammoplasty of both mammary glands was performed with silicone implants for cosmetic purposes. Preliminary diagnosis: suspected seroma and rupture of the implant.

According to the proposed method using multispiral computed tomography with a tomographic slice thickness of 1 mm on a series of tomograms obtained after multiplanar reconstruction, a defect in the irregularly rounded wall of the implant with a diameter of 6-8 mm is determined from the medial surface of the left breast gland at the level of the sternum. Silicone was found outside the bends of the implant, but inside the connective capsule (intracapsular rupture). The density of the detected silicone was 95 Hounsfield units. Around the implant of the left mammary gland, a fluid of a homogeneous structure is determined, more along the posterior wall of the implant (in the retro-mammary zone). The fluid density was 10 Hounsfield units. The implant of the right breast without signs of internal and external damage.

Conclusion: intracapsular rupture of the implant of the left breast, fluid (seroma) on the left.

After surgery, this diagnosis was confirmed.

Thus, computed tomography allows with great diagnostic accuracy to detect and differentiate a rupture of a breast implant.

Claims (1)

A method of computed tomographic diagnosis of a rupture of a breast implant, characterized in that multispiral computed tomography is performed with a thickness of a tomographic section of 0.5-1 mm in the position of the patient lying on his stomach, on a stand, without relying on the mammary glands, they build multi-planar and three-dimensional reconstructions, determining the defect of the wall of the implant and conglomerates in the tissues of the mammary gland with a density of 80-120 Hounsfield units make a conclusion about the rupture of the walls of the implant with the release of silicone beyond.