Show metadata Hide metadata

(19)

(11)

2 819 131

(13)

(51)

IPC

G01N33/49(2006-01-01)

G01N35/02(2006-01-01)

G01N35/04(2006-01-01)

(21) (22)

Application

2023133304, 2023-12-14

(24)

Start date

2023-12-14

(22)

Actual filing date

2023-12-14

(45)

Published

2024-05-14

(72)

Inventor

Shirshin Evgenij AleksandrovichYakimov Boris PavlovichDenisenko Georgij MikhajlovichShitova Yuliya AleksandrovnaBiryukov Aleksandr AlekseevichFitagdinov Robert RavilevichShkoda Andrej SergeevichPankrateva Lyudmila LeonidovnaPukhov Aleksandr VasilevichKeruntu Elena NikolaevnaSokolov Aleksandr Eduardovich

(73)

Holder

Gosudarstvennoe Byudzhetnoe Uchrezhdenie Zdravookhraneniya Goroda Moskvy Klinicheskaya Bolnitsa Imeni L.A. Vorokhobova Departamenta Zdravookhraneniya Goroda Moskvy"Avtonomnaya Nekommercheskaya Organizatsiya Tsentr Innovatsionnykh Tekhnologij V Zdravookhranenii"Obshchestvo S Ogranichennoj Otvetstvennostyu

MOBILE DETACHABLE COMPLEX AND METHOD FOR AUTOMATIC DETERMINATION OF HEMOLYSIS AND/OR LIPAEMIA IN BLOOD SAMPLES Russian patent published in 2024 - IPC G01N33/49 G01N35/02 G01N35/04

Abstract RU 2819131 C1

FIELD: medicine.

SUBSTANCE: group of inventions refers to medicine, namely to laboratory diagnostics, and can be used for automatic determination of hemolysis and/or lipaemia in blood samples. Mobile detachable complex for automatic determination of the presence of hemolysis and/or lipaemia in centrifuged blood samples includes at least 2 digital short-focus cameras with a resolution of at least 1920x1080 pixels; annular LED white light source; tripod made with possibility of fixation to conveyor line of laboratory analyser of digital short-focus cameras and a circular LED white light source in the horizontal plane relative to the conveyor line of the laboratory analyser, a control and information processing system. Image is obtained by the cameras of the mobile detachable complex. Presence of a test tube on the image is detected using a first classification model. Plasma type is classified. If the first classification model detects the presence of a test tube with blood on the image, the operation of the second classification model is started, which simultaneously searches for image regions corresponding to plasma and classifies the type of plasma. Barcode placed on the test tube with blood is recognized using a second classification model. Results of determining presence of hemolysis and/or lipaemia in blood samples are displayed on the monitor.

EFFECT: group of inventions provides reliable determination of lipaemia and/or hemolysis in blood samples in laboratories without additional equipment due to use of a mobile detachable complex and classification models.

15 cl, 5 dwg, 4 tbl, 1 ex

Similar patents RU2819131C1

Title	Year	Author	Number
DEVICE FOR NON-INVASIVE DETERMINATION OF HAEMOGLOBIN CONCENTRATION IN BLOOD AND METHOD FOR NON-INVASIVE DETERMINATION OF HAEMOGLOBIN CONCENTRATION IN BLOOD	2023	Shirshin Evgenij Aleksandrovich Yakimov Boris Pavlovich Denisenko Georgij Mikhajlovich Shkoda Andrej Sergeevich Pankrateva Lyudmila Leonidovna Pukhov Aleksandr Vasilevich Yurev Aleksej Aleksandrovich Lysenko Kirill Vyacheslavovich Shevchenko Dmitrij Nikolaevich	RU2821141C1
METHOD OF PROCESSING DIGITAL IMAGES OF FINGERS FOR COLORIMETRIC ANALYSIS OF HEMOGLOBIN LEVEL IN BLOOD	2023	Shirshin Evgenij Aleksandrovich Yakimov Boris Pavlovich Denisenko Georgij Mikhajlovich Shkoda Andrej Sergeevich Pankrateva Lyudmila Leonidovna Pukhov Aleksandr Vasilevich Yurev Aleksej Aleksandrovich	RU2822860C1
METHOD FOR RAPID ASSESSMENT OF CHANGES IN LUNG TISSUE WITH COVID-19 WITHOUT USING COMPUTER TOMOGRAPHY OF THORAX ORGANS	2020	Mashechkin Igor Valerevich Petrovskij Mikhail Igorevich Najgovzina Nelli Borisovna Kucheryavykh Ekaterina Sergeevna Makaryants Aleksej Mikhajlovich Panarina Yana Sergeevna Pankrateva Lyudmila Leonidovna Shkoda Andrej Sergeevich	RU2742429C1
EXPRESS METHOD FOR MORPHOFUNCTIONAL ANALYSIS OF PLATELETS, APPLICABLE FOR CLINICAL USE	2015	Makarov Maksim Sergeevich Vysochin Igor Valerevich Borovkova Natalya Valerevna Kobzeva Elena Nikolaevna Khvatov Valerij Borisovich	RU2623074C1
METHOD FOR MANUFACTURING A PHANTOM FOR TRANSCRANIAL ULTRASONIC EXAMINATIONS	2021	Leonov Denis Vladimirovich Kulberg Nikolaj Sergeevich Lejchenko Darya Viktorovna	RU2776983C1
METHOD FOR MANUFACTURING A PHANTOM WITH VESSELS FOR ULTRASONIC EXAMINATION	2021	Leonov Denis Vladimirovich Kulberg Nikolaj Sergeevich Lysenko Nataliya Aleksandrovna	RU2777255C1
METHOD FOR PREDICTION OF POSTOPERATIVE PURULENT WOUND COURSE	2020	Abuvosidov Khurshed Abduvokhidovich Mikhajlyants Georgij Sergeevich Vavilova Tatyana Pavlovna Ostrovskaya Irina Gennadevna	RU2740504C1
METHOD OF SELECTION OF HUMAN THROMBOCYTES FITNESS FOR CRYOPRESERVATION	2015	Makarov Maksim Sergeevich Vysochin Igor Valerevich Borovkova Natalya Valerevna Kobzeva Elena Nikolaevna Khvatov Valerij Borisovich	RU2623073C1
METHOD FOR PREDICTION OF RISK OF VENOUS THROMBOEMBOLIC COMPLICATIONS IN SEVERE BURN INJURY	2020	Borisov Valerii Sergeevich Vuimo Tatiana Alekseevna Kaplunova Mariia Iurevna Klychnikova Elena Valerevna Kotova Iana Nikolaevna Tazina Elizaveta Vladimirovna	RU2737277C1
METHOD FOR PREPARING THROMBOCYTE LYSATE WITH HIGH CONTENT OF GROWTH FACTORS	2020	Borovkova Natalia Valerevna Makarov Maksim Sergeevich Storozheva Maiia Viktorovna Ponomarev Ivan Nikolaevich	RU2739515C1

RU 2 819 131 C1

Authors

Shirshin Evgenij Aleksandrovich

Yakimov Boris Pavlovich

Denisenko Georgij Mikhajlovich

Shitova Yuliya Aleksandrovna

Biryukov Aleksandr Alekseevich

Fitagdinov Robert Ravilevich

Shkoda Andrej Sergeevich

Pankrateva Lyudmila Leonidovna

Pukhov Aleksandr Vasilevich

Keruntu Elena Nikolaevna

Sokolov Aleksandr Eduardovich

Dates

2024-05-14—Published

2023-12-14—Filed