RU224980U1 - Attachment for the sensor of an ultrasound examination device for diagnosing the mammary glands - Google Patents

Abstract

The utility model relates to the field of medicine, in particular to diagnostic equipment, namely to the attachment to the sensor of an ultrasound examination apparatus when examining small-volume or scarred mammary glands, as well as to protect patients, personnel and diagnostic equipment from contamination, to prevent damage to sensors during carrying out interventions. The attachment for the sensor of an ultrasound examination apparatus for diagnosing the mammary glands includes a housing and a working surface. The working surface is made of silicone 6-8 mm thick and has a Shore A hardness in the range of 27-33 and a density of 0.98-1.12 g/cm ³ . The technical result consists in providing high-quality examination of mammary glands of small volume or with scar features with the possibility of reusable use of the nozzle.

Description

The utility model relates to the field of medicine, in particular to diagnostic equipment, namely to the attachment to the sensor of an ultrasound examination apparatus when examining small-volume or scarred mammary glands, as well as to protect patients, personnel and diagnostic equipment from contamination, preventing damage to sensors during carrying out interventions.

To study patients with small breast volume or scar features, special water nozzles are used (https://mammo-center.ru/v2-3d-ultrazvuk-invenia-abus). Such attachments are quite rigid, which means they can cause difficulties when used for cicatricial deformities of the mammary glands.

There is a known method of ultrasound diagnostics (https://yandex.ru/patents/doc/SU1789197A1_19930123), during which ultrasound is carried out through an intermediate medium, which is a hydrogel pad based on polyhydroxyethyl methacrylate mixed with water in a ratio of 1:3.

The disadvantages of this solution include the heterogeneity of the hydrogel mass, which does not allow for a full view of scar tissue, inaccessibility of the material, and wear resistance (for about 100-200 uses).

The closest to the claimed device is a disposable nozzle for diagnostic surface sensors of ultrasound diagnostic devices (https://yandex.ru/patents/doc/RU96748U1_20100820), containing a cylindrical body with a flat or rounded closed end and a rim on the open end made of latex, or vinyl, or other polymeric elastomer materials, and has an internal diameter from 35 to 65 mm, and the length from the closed tip to the rim is not less than the diameter of the body.

The disadvantages of the prototype include:

- the impossibility of reusable use of this nozzle;

- inability to obtain good visualization when scanning soft tissues with scar changes;

- the possibility of damage to the nozzle/sensor when performing interventional procedures due to the thickness of the product;

- the impossibility of using this attachment on broadband ultrasonic scanning sensors.

The technical problem is the need to develop an attachment for the sensor of an ultrasound examination apparatus for diagnosing the mammary glands, devoid of the above disadvantages.

The technical result consists in providing high-quality examination of mammary glands with scarring features with the possibility of reusable use of the nozzle.

The technical result is achieved by the fact that in the attachment for the sensor of an ultrasound examination apparatus for diagnosing the mammary glands, including a housing and a working surface, according to the utility model, the working surface is made of silicone 8 mm thick and has a Shore A hardness in the range of 33 and a density of 1.12 g /cm ³ .

The use of such a device makes it possible to produce nozzles of various densities without losing the scanning quality and wear resistance of the material. This utility model provides high-quality visualization and can be used in women with small gland volumes by preventing the sensor from bouncing off the chest. This attachment can be used in the presence of wound surfaces, superficial skin damage, can be repeatedly disinfected, and prevents damage to expensive equipment.

Preferably, the working surface is made of silicone on a tin or platinum base. This reduces the risk of allergies in patients, and also ensures the possibility of repeated use and repeated sanitization of the nozzles. The use of such materials is especially successful in cases of superficial damage to the skin and wound surfaces. It is preferable to use the claimed utility model as an attachment for the Invenia ABUS device, however, such an attachment can be adapted for other devices.

The claimed utility model is illustrated by drawings, where in Fig. 1 shows a schematic representation of the inventive device, Fig. 2 shows a photograph of the nozzle separately, and Fig. 3 and fig. 4 - photograph of the nozzle installed on the ultrasonic scanning apparatus.

The device includes a stiffener 1 (body), a working surface, which is conventionally divided into the outer surface 2 of the scanning area and the inner surface 3 of the scanning area. The attachment also includes manual clamping holders 4, cavities 5 for attaching a metal plate, and a metal plate 6 for contact with the sensor of the ultrasound examination apparatus. The thickness of the working surface is 8 mm. The working surface is made of silicone, preferably tin or platinum based. The working surface has a Shore A hardness of 33 and a density of 1.12 g/cm ³ . Some parameters (for example, the size and shape of the stiffeners) may vary depending on the specific device on which they plan to use this nozzle. However, the nozzle is manufactured entirely in the manufacturing plant using assembly operations.

The claimed utility model works as follows.

The examination is carried out with the patient lying on his back. A special roller or rolled towel is placed under the shoulder, which helps spread the breast tissue evenly, with the nipple facing the ceiling. Hypoallergenic ultrasound gel is evenly applied to the mammary glands with an additional amount on the nipple area. Ultrasound gel is also applied to the inner surface of the 3rd scanning area of the nozzle. Next, the nozzle, held by the stiffeners 1, is installed with manual clamping holders 4 close to the broadband ultrasonic sensor, so that the metal plates 6 of the nozzle are connected to the magnets on the ultrasonic sensor so that the nozzle is fixed before starting the study. The sensor itself with the device is pressed by the outer surface 2 of the scanning area of the device to the patient’s mammary gland. The automatic scanning process begins. Three compression levels of the breast transducer are available to provide the best visualization while taking into account patient comfort. After the scanning process is completed, the sensor and device are raised above the mammary gland. Next, the device is disconnected by the stiffeners 1 from the broadband sensor. When the device is disconnected, the outer and inner surfaces 2, 3 of the scanning area are treated with a disinfectant in preparation for the next study.

The claimed utility model is illustrated with examples.

Example 1.

Patient A, aged 35 years. requires an ultrasound examination of the mammary glands. A patient after an injury with a wound surface on the mammary glands. It was decided to conduct a study using the proposed attachment on the Invenia ABUS device. In this case, we used a nozzle with a 6 mm thick working surface made of tin-based silicone. In this case, the working surface had a Shore A hardness of 27 and a density of 0.98 g/cm ³ .

Ultrasound gel was applied to the mammary glands and the inner surface of the nozzle. Holding by the stiffeners, the nozzle was installed with manual clamping holders close to the broadband ultrasonic sensor of the Invenia ABUS device so that the metal plates of the nozzle were attached to the magnets on the sensor. The sensor was pressed with the outer side of the nozzle to the patient's mammary gland and a study was carried out. Afterwards the nozzle was removed. The doctor noted high-quality visualization and ease of examination despite the presence of a wound surface in the patient.

Example 2.

Patient A, aged 52 years. requires an ultrasound examination of the mammary glands. A patient after surgery for cancer with scar changes on the mammary gland. It was decided to conduct a study using the proposed attachment on a Toshiba Aplio i700 device. In this case, we used a nozzle with a working surface 8 mm thick made of platinum-based silicone. In this case, the working surface had a Shore A hardness of 33 and a density of 1.12 g/cm ³ .

Ultrasound gel was applied to the mammary glands and the inner surface of the nozzle. Holding it by the stiffening ribs, the nozzle was placed on the mammary gland with cicatricial deformity. The sensor was pressed with the outer side of the nozzle to the patient's mammary gland and a study was carried out. Afterwards the nozzle was removed. The doctor noted high-quality visualization and ease of examination despite the presence of scar changes in the mammary glands.

Example 3.

Patient A at the age of 20 years. requires an ultrasound examination of the mammary glands. The patient has small breasts. It was decided to conduct a study using the proposed attachment on the Invenia ABUS device. In this case, we used a nozzle with a working surface 8 mm thick made of platinum-based silicone. In this case, the working surface had a Shore A hardness of 33 and a density of 1.12 g/cm ³ .

Ultrasound gel was applied to the mammary glands and the inner surface of the nozzle. Holding by the stiffeners, the nozzle was installed with manual clamping holders close to the broadband ultrasonic sensor of the Invenia ABUS device so that the metal plates of the nozzle were attached to the magnets on the sensor. The sensor was pressed with the outer side of the nozzle to the patient's mammary gland and a study was carried out. Afterwards the nozzle was removed. The doctor noted high-quality visualization and ease of examination despite the small size of the mammary glands.

Claims (3)

1. An attachment for the sensor of an ultrasound examination apparatus for diagnosing the mammary glands, including a housing with a working surface, characterized in that the working surface is divided into the outer surface of the scanning area, for pressing against the mammary gland, and the inner surface of the scanning area, for application to the inner surface of the ultrasound gel, and is made of silicone with a thickness of 8 mm and has a hardness of Shore A 33 and a density of 1.12 g/cm ³ , while the body contains cavities for attaching a metal plate and a metal plate for adjoining to the sensor of an ultrasound examination apparatus. 2. The nozzle according to claim 1, characterized in that the working surface is made of two-component tin-based silicone. 3. The nozzle according to claim 1, characterized in that the working surface is made of two-component platinum-based silicone.