RU2741707C1 - Method for screening lung cancer by ultra-low-dose computed tomography in patients with body weight of more than 90 kg - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, particularly to roentgenology, oncology and pulmonology, and can be used as a screening method of lung cancer. Method for screening lung cancer using ultra-low-dose computer tomography in patients with body weight of more than 90 kg, comprising steps of scanning on a patient's back position with arms drawn to the head, scanning is performed with respiratory arrest at inhalation depth, scanning length is determined from apexes of lungs to pulmonary sinuses, and filter is installed for lung examination. Voltage is set on tube (kv) 135 kV, current is set on tube (mA) 25 mA, computer-tomographic dose index (CTDI) 1.2 mGy is set, rate of rotation of tube (Time rotation) is 0.45 s.

EFFECT: using the given invention enables reducing the dose of the radiation load on the patient when obtaining computed tomography images of the thoracic cavity organs in the patients weighing over 90 kg without algorithms of the interactive reconstructions.

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Description

The invention relates to medicine, in particular to radiology, oncology and pulmonology, and can be used as a screening method for lung cancer as a preventive X-ray examination.

Lung cancer (LC) is the leading cause of cancer death in the world. The five-year survival rate for lung cancer is only 18%. [Lung cancer screening, version 3.2018, NCCN clinical practice guidelines in oncology. // JNCCN, 2018 Apr; 16 (4): 412-441].

According to the WHO for 2016, obesity (body mass index (BMI) is greater than or equal to 30) affects about 13% of the adult population of the planet (11% of men and 15% of women).

A number of analogues of the proposed technical solution are known from the prior art. One of the analogues of the claimed technical solution for screening lung cancer is a diagnostic procedure using computed tomography (CT), performed according to the standard protocol (recommended by the manufacturer), which is used in screening lung cancer in the Netherlands and Belgium. [Computed tomographic characteristics of interval and post screen carcinomas in lung cancer screening // European Radiology 2015 Jan; 25 (1): 81-8]. The advantage of this method is the availability of research protocols for patients with different BMIs: the tube current is 30 mAs, the tube voltage is 120 KV for patients weighing up to 80 kg, and the current is 30 mAs at 140 KV for patients weighing more than 80 kg. The disadvantage of this analogue is the use of the developed protocols on computed tomographs Somatom Sensation 16, Siemens Medical Solutions, Mx8000 IDT or Brilliance-16, Philips Medical Systems, Cleveland, OH, when, as in Moscow polyclinics, computed tomographs Toshiba Aquilion 64 tomographs are installed.

Another analogue of the claimed technical solution is a diagnostic procedure through low-dose computed tomography (LDCT), used for screening lung cancer in the UK [The UK Lung Cancer Screening Trial: a pilot randomized controlled trial of low-dose computed tomography screening for the early detection of lung cancer / / Health Technol Assess. 2016 Mau; 20 (40): 1-146]. In this analogue, the radiation load was less than 2 mSv (the maximum voltage was 120 kV). The advantage of this analogue is the reduction in radiation exposure compared to CT using the standard protocol. The disadvantage of this analogue is the impossibility of using this protocol on the territory of the Russian Federation due to the limitation of radiation exposure for screening research methods (1 mSv) [Sanitary rules and regulations "Hygienic requirements for the device and operation of X-ray machines and for X-ray examinations. SanPiN 2.6.1.1192-03 "approved by the Chief State Sanitary Doctor of the Russian Federation on February 14, 2003, from May 1, 2003].

The known method of ultra-low-dose computed tomography (ultra-LDCT), which was used in another large national study on lung cancer screening in Italy (ITALUNG) [Mortality, survival and incidence rates in the ITALUNG randomized lung cancer screening trial // Thorax. 2017 Sep; 72 (9): 825-831]. The advantage of this method is the reduction in mortality from lung cancer by 30%. The disadvantage of the analogue is the lack of these protocols for different BMI.

The prototype of the claimed technical solution is a screening method consisting in carrying out a diagnostic procedure using computed tomography (CT) performed according to a low-dose protocol (ultra-LDCT) in patients weighing up to 69 kg. [Patent for invention No. 2701922. Gombolevsky V.A., Chernina V.Yu., Nikolaev A.N., Gonchar A.P., Laipan A.Sh., Morozov S.P. "A method of screening lung cancer using ultra-low-dose computed tomography in patients weighing up to 69 kg", GBUZ "NPKTs DiT DZM"]. The advantage of this prototype is the low effective dose of radiation exposure in one procedure (up to 1 mSv). The disadvantage of the scanning protocol used in the study is the orientation for an "average" patient weighing up to 69 kg and the inability to use this prototype for a patient weighing more than 69 kg.

The technical problem solved by the claimed invention is to reduce the dose of radiation exposure to a patient to a level allowed in the Russian Federation, for the use of ultra-low-dose computed tomography (ultra-LDCT) of the chest cavity in a lung cancer screening program, as well as in creating a scanning protocol for obtaining high-quality image for a patient weighing more than 90 kg.

Disclosure of invention

The technical result consists in reducing the patient's radiation dose and is achieved due to the following essential features of the proposed method.

Known from the prior art methods of screening diagnostics of lung cancer using computed tomography contain the following main steps:

- scanning with the patient in the supine position with the hands extended to the head;

- scanning while holding the breath at the depth of inspiration;

At the same time, a filter is installed for examining the lungs. The scan length is set from the apex of the lungs to the pulmonary sinuses.

Distinctive essential features characterizing the inventive method of screening lung cancer using ultra-low-dose computed tomography in patients weighing more than 90 kg are as follows:

- set the voltage across the tube (kv) 135 kV;

- set the current on the tube (mA) 25 mA;

- the speed of rotation of the tube (Time rotation) is set to 0.45 sec;

- computed tomographic dose index (CTDI) is set at 1.2 mGy.

When using the CT screening procedure, the following device parameters are set:

- computer tomograph with one radiation source;

- detection system: detector with 64 or more elements;

- reconstruction standards for all scan results:

The filter Kernel FC07 is used for the study of the lungs;

In a preferred embodiment, the following screening apparatus parameters are used:

the slice thickness of the reconstruction is set at 1 mm;

the step between reconstruction slices is 0.5 mm;

measurements are made in the "pulmonary window".

In a preferred embodiment of the invention, the scan length is within 360 mm (from the apex of the lung to the pulmonary sinuses as determined by the tomogram).

In this case, the resulting total dose of radiation exposure when using the proposed technical solution will not exceed 1 mSv.

Patients are included in the screening group according to the following set of criteria:

1. Age from 55 to 75 years (55 years - 74 years and 364 days)

2. Anamnesis of smoking for more than 30 pack-years (at least 1 pack per day for 30 years or 2 packs per day for 15 years, etc.)

3. Current smokers or quit smoking less than 15 years ago

4. Ability to postpone the study (ultra-NDKT).

5. Absence of medical and other conditions that could affect the quality of the images performed (metal implants, etc.)

Patients are excluded from the screening group according to the following criteria:

1. Presence of a tumor disease in history, detected less than 5 years ago, with the exception of skin cancer, cervical cancer in situ

2. In the presence of severe pathology of the cardiovascular, immune, respiratory, or endocrine system, as well as an expected life of less than 5 years.

3. Lung cancer and / or history of lung surgery (excluding percutaneous lung biopsy).

4. Acute respiratory illness, antibiotic treatment in the last 12 weeks.

5. Possible symptoms, such as hemoptysis or weight loss of more than 10 kg in the last year.

6. Performing CT examination of the chest cavity organs within the last 18 months.

The method is illustrated by the following examples of the invention.

Example 1.

Patient V., 65 years old, weighing 91 kg, underwent an ultra-LDCT study as part of a lung cancer screening program. Currently he smokes 1 pack a day for 40 years (smoking experience - 40 pack-years). The study was carried out on 09/05/2018. At the time of the study, the patient had no complaints. Examination in S3 of the right lung revealed a solid triangular lesion located subpleurally, 6 mm in size, with a volume of 160 mm ³ . According to the Lung-RADS 1.1 (2019) classification, this lesion belongs to category 3 (probably benign), so the patient was scheduled for a second ultra-NDCT after 6 months. During the control study dated 12/07/2018, the identified focus was without dynamics. Most likely, the node corresponds to an intrapulmonary lymph node.

The use of the proposed ultra-LDCT method made it possible to abandon expensive diagnostic methods and invasive procedures after the first study. Example 1 demonstrates the diagnostic and economic efficiency of the present invention in lung cancer screening.

Example 2

Patient M., 70 years old, weighing 110 kg, underwent an ultra-NDCT study as part of a lung cancer screening program. Smoked for 45 years, 1 pack a day (smoking experience 45 pack-years). At the time of the study, he quit smoking 3 years ago and has no complaints. Examination in the basal parts of S1 of the right lung revealed a solid round-shaped lesion with radiant contours, up to 16 mm in size, and a volume of 1800 mm ³ . According to the Lung-RADS classification, this lesion belongs to category 4B (probably malignant and requires additional diagnostics or histological verification), therefore, the patient was prescribed fibrobronchoscopy with further morphological verification. According to the results of histology, adenocarcinoma of the right lung was confirmed. The patient is preparing for surgery.

The use of the proposed ultra-LDCT method as a screening made it possible to identify a pathological node at an early stage and promptly send the patient to an oncologist.

Although the present invention has been described using the example of specific variants of its implementation, for specialists it will be clear the possibilities of numerous modifications of this invention, which do not go beyond the scope of its legal protection defined by the attached claims.

Claims (12)

1. A method of screening lung cancer using ultra-low-dose computed tomography in patients weighing more than 90 kg, containing the stages at which - scanning is carried out with the patient in the supine position with the hands extended to the head - scanning is carried out while holding the breath at the depth of inspiration; - set the length of the scan from the tops of the lungs to the pulmonary sinuses; - install a filter for examining the lungs, characterized in that - set the voltage across the tube (kv) 135 kV; - set the current on the tube (mA) 25 mA; - set the computed tomographic dose index (CTDI) of 1.2 mGy; - set the tube rotation speed (Time rotation) to 0.45 s. 2. A method according to claim 1, characterized in that the scan length is set within 360 mm. 3. The method according to claim 1, characterized in that a Kernel FC07 filter is used as the filter.