RU2704784C1 - Method for ultrasonography of tongue tumor using transcutaneous or submandibular approach in patients with limited language mobility caused by pain syndrome - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to functional diagnostics in oncology. What is presented is a method for ultrasonic examination of a tongue tumor using transcutaneous or submandibular approach, consisting in that before starting the study, the patient is suggested to take a sip of water and hold it until the end of the study, wherein the patient's tongue, depending on its mobility, is located as close to the sensor as possible.

EFFECT: improved tumor imaging by creation of additional acoustic window for sound production, higher intensity.

1 cl

Description

The invention relates to medicine, namely to functional diagnostics in oncology.

Issues of treatment of the tongue are a very urgent problem for specialists who are involved in this pathology. Cancer and tongue is aggressive in its course, characterized by rapid growth, massive metastasis to regional lymph nodes, and affects a functionally active and socially significant zone of the human body.

Evaluate the prognosis of the disease and, accordingly, initially determine the scope of the planned treatment, based on the prognostically significant characteristics of the tumor of the tongue. According to many authors, a prognostically important characteristic is the thickness of the tumor [1, 2, 3].

Ultrasound diagnosis of tongue cancer is a modern highly informative method that gives important information to clinicians in choosing treatment tactics and the volume of surgical treatment, and also allows you to determine the prognosis of the disease at the preoperative stage. The use of modern techniques, a combination of various sensors and access examinations in the diagnosis of cancer of the tongue allows you to get the best results, comparable with the data of histological studies [1, 2]. In the last 20 years, the transoral ultrasound technique has become the most informative technique in visualizing a tongue tumor and determining the depth of its invasion (thickness) [3]. This technique is performed by high-frequency linear sensors in the frequency range from 4 to 14 MHz. The sensor is mounted on the dorsal surface of the tongue and all available departments are scanned. Direct contact of the sensor with the surface of the tongue and tumor gives maximum information about its structure, contours, borders, degree of vascularization. An indispensable condition for such a study is the location of the tumor in the anterior parts of the tongue, as well as maintaining its mobility and mobility of the lower jaw. When the tumor is located deep in the posterior parts of the tongue, intraoperative linear sensors with a small area of the working surface can be used. However, in clinical practice there are often situations in which it is impossible to conduct a transoral technique.

Common tumor processes in the oral cavity and on the tongue cause infiltration of the underlying tissues and subsequently limit the mobility of the tongue and lower jaw. Often, patients with squamous cell carcinoma of the tongue undergo radiation treatment, which causes persistent post-radiation fibrous changes, which also limit the opening of the oral cavity. In such cases, the visualization tumors of the tongue are submandibular and transcranial (transdermal, buccal), which are carried out through the soft tissues of the chin and cheeks, respectively [3].

When examining a language from the submandibular access, the sensor is installed on the chin and submandibular region, in which you can also visualize the language and neoplasms of the tongue. In a trans-buccal technique, a 4-9 MHz linear high-frequency sensor is installed on the surface of the cheek from the outside, and the patient brings the tongue close to the sensor from the inside of the cheek. The resulting image of the structure of the tongue is very close to the tomograms obtained with the transoral technique. The method of ultrasound diagnosis of a tumor of the tongue from transcranial or submandibular access is selected as the prototype. The disadvantage of this method is the unsatisfactory degree of visualization in small tumor processes and in cases where, due to severe soreness and decreased mobility of the tongue, maximum contact of the tongue with a sensor located on the outside of the cheek is impossible.

The objective of the invention is to expand the capabilities of ultrasound examination of tumors of the tongue with transcranial or submandibular access.

The technical result consists in improving the visualization of the tumor by creating an additional acoustic window using water to enhance the ultrasonic signal.

This is achieved due to the fact that before the start of the study, the patient is offered to take a sip of water and hold it until the end of the study, while the patient’s tongue, depending on its mobility, is located as close to the sensor as possible.

Amplification (or posterior acoustic amplification) is an artifact known in the scientific literature related to amplification of brightness deeper than an anechogenic object (usually a cystic structure or a blood vessel). This occurs when sound passes through an area with low signal attenuation. This phenomenon consists in an increase in echogenicity posterior to objects with low attenuation, because the sound returns to the sensor, having a higher intensity than from the adjacent areas [4].

Before starting the study, the patient is asked to take a sip of water, which is about 25-30 ml, depending on the anatomical features of the patient. This volume was optimal for ultrasound. The presence of water in the oral cavity creates an acoustic window that enhances the ultrasound signal and allows visualization of small tumors from the submandibular and transcranial access, which was impossible without the use of water, and also allows you to accurately measure the thickness of the tongue tumor in millimeters. The sensor is positioned as close to the tongue as possible, the accuracy of coincidence of measurements of the thickness of the tumor when compared with histological examination is higher than without the use of water. So, in 10 patients with a tumor of the tongue, a tongue ultrasound was performed sequentially from the submandibular access without water and with water. Measurements of the thickness of the tumor in millimeters obtained by ultrasound from the submandibular access without water, in comparison with the histological examination data, completely coincided in 6 (60%) patients. When using water, the ultrasound data completely coincided in 9 (90%) patients. In 7 patients with a tumor of the tongue, an ultrasound of the tongue was performed sequentially from a transcranial access without water and with water. Measurements of the thickness of the tumor in millimeters, obtained by ultrasound from a trans-buccal access without water, in comparison with the histological examination data completely coincided in 4 (57%) patients. When using water, the ultrasound data completely coincided in 7 (100%) patients.

The method is as follows: the patient is asked to take a sip of water (approximately 30 ml) and hold it until the end of the study, a standard high-frequency linear sensor 4-9 MHz is installed transcutaneously on the buccal surface (with transcranial access), or on the chin and submandibular region the patient’s tongue, depending on its mobility, is located as close to the sensor as possible or occupies its usual position. Clinical example No. 1. Patient A., 56 years old. Diagnosis: cancer of the tongue, T3N0M0, stage 3, primary treatment. Tumor of the left lateral surface of the tongue.

Due to severe soreness, it was not possible to conduct a transoral ultrasound examination. With trans-buccal access, a good visualization of the tumor was also not achieved, because due to pain and decreased mobility of the tongue, the patient could not bring the tongue to the cheek and ensure its maximum contact with the ultrasound probe.

The patient was asked to take a sip of water and hold water in the oral cavity until the end of the study, the patient brought his tongue to the sensor (as far as he could), located on the outside of the cheek on the left, while the remaining space between the tongue and the inner surface of the cheek was filled with water. The ultrasound examination of the tumor was a hypoechoic formation of the left lateral surface of the tongue with clear uneven contours, lenticular shape, up to 2.6 × 1.2 cm in size. The tumor thickness was 1.2 mm. The distance from the tumor to the midline of the tongue was 1.5 cm. High vascularization of the tumor was noted. The study lasted 3 minutes.

The size of the tumor obtained by ultrasound imaging using water, completely coincided with the data of histological examination.

Clinical example No. 2. Patient B. 64 years. Diagnosis: T1N0M0 tongue cancer, stage 1, primary treatment. Tumor of the right lateral surface of the tongue.

During an ultrasound examination of the tongue from the submandibular approach, the tumor of the tongue could not be visualized, despite the fact that it was visualized during a routine physical examination. The patient was asked to take a sip of water and retain water in the oral cavity during an ultrasound examination from the submandibular access. After placing water in the oral cavity on the right side surface of the tongue, a hypoechoic formation of a lenticular shape began to be visualized, convex part facing the midline of the tongue, 1.0 × 0.4 cm in size, where 0.4 cm was the thickness of the tumor. The distance from the tumor to the midline was 1.8 cm. Single vessels were determined in the structure of the tumor. The study lasted 4 minutes.

The size of the tumor obtained by ultrasound imaging with water, completely coincided with the data of histological examination.

Bibliography:

1. Ultrasound diagnosis of tumors of the tongue / Stepanov S.O. [et al.] // Oncological surgery. - 2013. - No. 4. - S. 4-7.

2. The possibilities of ultrasound diagnosis of tumors of the tongue and the bottom of the oral cavity / Soloviev V.A. [et al.] // Oncology. Magazine them. P.A. Herzen. - 2015.-№4. - S. 18-21.

3. Comparison of different methods of ultrasound in determining the thickness of the tumor of the tongue / Allahverdiev GF [et al.] // Ultrasound and functional diagnostics. - 2018. - No. 2. - S. 75-85.

4. Nyland, T. G. & Mattoon, J. S. (2002) Artefacts. In: Small Animal Diagnostic Ultrasound, 2nd edn. W. B. Saunders Co., Philadelphia, 2002, pp. 19-29.

Claims (1)

 A method of ultrasound examination of a tongue tumor in patients with limited mobility and soreness of the tongue with transcranial or submandibular access, which consists in installing a high-frequency linear sensor transcutaneously on the buccal surface or on the chin and submandibular region, characterized in that the patient takes a sip of water in volume 25 before starting the study -30 ml, depending on its anatomical features and holds it until the end of the study, while the patient brings the tongue to the cheek so that the space between the tongue and the inner surface of the cheek were filled with water with the possibility of forming an acoustic window.