CFN-analyzer

CFN-prototype is now at registration and testing procedures in clinics. if you are interested in the device, please contact us…

Problem:

Infectious diseases are of great significance for humanity; however, clinical  microbiological laboratories are still poorly automated. The typical analysis takes 3-7 days to achieve the results, which is too long for modern medical practice. The reason is that methods needed for routine analyzes must be both cheap and very sensitive to detect minimal amount of bacteria in human biological liquids.

Medtechnopark solution

Medtechnopark solution:

New optical method is developed – coherent fluctuation nephelometry (CFN). It is more sensitive and simple in comparison with conventional nephelomery and allows to detect very low concentrations of bacteria starting from 1000 pcs/ml. That allow to make fast urine screening within 2-4 hours and rapid antibiotic susceptibility testing within 3-6 hours instead of 24 hours needed for every test using conventional microbiological methods. CFN-analyzer also allows to reduce costs needed for urine testing, which is important due to urine testing is the most widespread analyses in microbiological laboratories.

CFN-analyzer

CFN-prototype in now at registration and testing procedures in clinics. if you are interested in the device, please contact us…

Contact us
КФН-16

Articles

1. Gur’ev et al. A Rapid Method for Urine Screening for Bacterial Contamination. 

Bulletin of experimental biology and medicine, 2015, 159(1), 107-110. DOI: 10.1007/s10517-015-2902-0

2. Гурьев АС и др. Быстрый скрининг мочи на бактериурию у детей с использованием микробиологического анализатора, совмещающего в себе методы фотометрии и когерентной флуктуационной нефелометрии.

Инфекция и иммунитет, 2016, 6(4), 395-398. DOI: 10.15789/2220-7619-2016-4-395-398

3. Gur’ev et al. Development of Microbiological Analyzer Based on Coherent Fluctuation Nephelometry.

In: Hu Z., Petoukhov S., He M. (eds) Advances in Artificial Systems for Medicine and Education, AIMEE 2017, Advances in Intelligent Systems and Computing, Springer, Cham, 2018, 658, 198-206. DOI:10.1007/978-3-319-67349-3_18

4. Gur’ev et al. Coherent fluctuation nephelometry as a promising method for diagnosis of bacteriuria.

Practical Laboratory Medicine, 2018. DOI: 10.1016/j.plabm.2018.e00106

5. Гурьев АС и др. Когерентная флуктуационная нефелометрия в клинической микробиологии.

Инфекция и иммунитет, 2018, в печати.

Theses of conferences.

1. Гурьев АС и др. Экспресс определение бактериурии и антибиотикограмм урокультур методом когерентной флуктуационной нефелометрии. Современные проблемы и перспективы антимикробной терапии:

Тезисы докладов и научных работ XVIII Российской конференции с международным участием, Москва, 17-18 ноября 2016 г.

2. Gur’ev A et al. Express determination of bacteriuria in adults and children by means of Coherent Fluctuation Nephelometry. 

INTERNATIONAL ROUND TABLE «HIGH MEDICAL TECHNOLOGIES IN XXI CENTURY», 2016, MATERIALS OF THE CONFERENCE, p. 31-32.

3. Rusanova E et al. Express determination of urine cultures antibiotic sensitivity by coherent fluctuation nephelometry.

INTERNATIONAL ROUND TABLE «HIGH MEDICAL TECHNOLOGIES IN XXI CENTURY», 2016, MATERIALS OF THE CONFERENCE, p. 36-37.

4. Лихачев ИВ и др. Исследование влияния пищевых добавок на рост бактерий при помощи микробиологического анализатора КФН-Ф-12.

XX кашинские чтения, тезисы докладов. Проблемы медицинской микологии, 2017, 19(2), 97-98.

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