File:Microfluidic chip for point-of-care medical devices.jpg
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Microfluidic chip, lab-on-a-chip, point-of-care devices, personalized medicine
Summary[edit]
| Description |
English: The microfluidic chip is a key element of future lab-on-a-chip devices that can be used outside hospitals. This chip solves one of the most common problems in analysis systems – the accurate dilution of reagents in a given ratio with subsequent mixing. Such manipulations are carried out millions of times a day, for example, by mixing the patient’s blood and reagents to detect diseases or check the patient’s compatibility with drugs. The chip consists of a microfluidic part with channels with a height of 50 and a width of 200 micrometers and a detection system of metal electrodes on a glass substrate. The manufacturing process of such a device includes dozens of technological operations: from lithography of the topology of the device layers to the precision multilayer assembly. Such devices of personalized medicine will allow in the shortest possible time to cope with serious threats to public health, including pandemic diseases.
Русский: Микрофлюидный чип для портативных систем персонализированной медицины будущего
Микрофлюидный чип – ключевой элемент будущих лабораторий на чипе – портативных мобильных устройств для оперативного проведения анализов без сложного лабораторного оборудования. Этот чип решает одну из наиболее распространенных задач в системах анализа – точного разведения реагентов в заданном соотношении с последующим смешением. Такие манипуляции проводятся миллионы раз в день, например, при смешении крови пациента и реагентов для выявления заболеваний или проверки совместимости пациента с лекарственными средствами. Чип состоит из микрофлюидной части с каналами высотой 50 и шириной 200 микрометров и детектирующей системы из металлических электродов на стеклянной подложке. Процесс изготовления такого устройства включает десятки технологических операций: от литографии топологии слоев устройства до прецизионной многослойной сборки (бондинга). Появление подобных устройств персонализированной медицины в России и мире позволит в кратчайшие сроки справляться с такими вызовами времени, как пандемии опасных вирусов. |
| Source | Own work |
| Author | FMNLab |
| Camera location |  | View this and other nearby images on: OpenStreetMap |  |
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FMN Laboratory, Bauman Moscow State Technical University
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| current | 17:17, 29 May 2020 | | 6,720 × 4,480 (14.37 MB) | FMNLab (talk | contribs) | Uploaded own work with UploadWizard |
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