Novel morphometrics-on-a-chip: CCD-or CMOS-lab-on-a-chip based on discrete converters of different physical and chemical parameters of histological samples into the optical signals with positional sensitivity for morphometry of non-optical patterns

Градов, Олег; Jablokov, Arthur G.

doi:10.15393/j6.art.2016.3642

Cited by 5 publications

(3 citation statements)

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“…The priority of this know-how in non-English publications has been fixed since 2012 [78][79][80]. Ideology of discrete multilayer conversion of physical non-optical parameters (of biological samples with spatially heterogenic structures such as living tissues, bacterial cultures, multilayer multi-species biofilms) into optical ones was published previously in 2015-2017 [81][82][83]. Ideology of telemetric translation of lens-less microscopy was published in 2012-2013 [84,85].…”

Section: Towards Combined Lens-less Imaging and Maldi Biotyping In So...mentioning

confidence: 99%

Target Chip Based Single-Cell Biotyping and Telemetric Bioluminescence Lensless Microscopy of the Buried Sandwich-Slides as a Novel Way for Measurement, Mapping and Molecular Imaging of Biodegradation/Biofouling of Plastic Surfaces in Real Soils

Orekhov,

Gradov

2023

Advances in Transdisciplinary Engineering

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A novel complex technique for soil monitoring, polymer or biopolymer microbiological biodegradation analysis or soil microbiota identifying is proposed in this work based on our earliest papers and know-how foresight investigations (since 2012). Integration of telemetric bioluminescence lens-less microscopy of the buried sandwich-slides (or Rossy-Cholodny soil chambers) with biodegradable polymer layers and MALDI targets (including MALDI chips / anchor chips) is the most sophisticated example of such integrative technologies. Protocols of usage of CCD-MALDI target sandwiches of ICCD-MALDI target sandwiches (proposed in 2014) and CMOS-MALDI target sandwiches (proposed in 2016–2017) combined with subsequent MALDI biotyping procedure can be interpreted as most complex methods of microbiological identification and measurement-identification of some biodegradation products. We also propose to analyze the destruction of materials on the surface of such imaging telemetric buried sandwiches with subsequent mass spectrometry of decomposition products with determining of a correlation between biological species that induce the processes of biodegradation and the chemistry of the resulting products on the cell level or on the microbiological community levels (biofilms and other forms of microbiological interactions in soils, swamps etc.). In the case of multiparametric lens-less microscopy implementation for telermetric or longitudinal recording studies of such communities it is possible to create of maps of different physical parameters of soil, biofilm pattern and biodegradable polymer / composite structure using multi-level / multilayer converters on the CCD / ICCD or CMOS (or other discrete sensor) sensor surface.

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Section: Towards Combined Lens-less Imaging and Maldi Biotyping In So...mentioning

confidence: 99%

Target Chip Based Single-Cell Biotyping and Telemetric Bioluminescence Lensless Microscopy of the Buried Sandwich-Slides as a Novel Way for Measurement, Mapping and Molecular Imaging of Biodegradation/Biofouling of Plastic Surfaces in Real Soils

Orekhov,

Gradov

2023

Advances in Transdisciplinary Engineering

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“…Данные конвертеры могут состоять из элементов различных схем конверсии: сцинтилляционные преобразователи типа тонкослойных мозаик с различным квенчинг-фактором специфицированным для конкретных типов регистрируемых излучений; магнитометрические матрицы на базе ультрадисперсных магнитопорошковых флюкс-детекторов или тонкослойно нанесенных феррофлюидов с известными формами неустойчивостей; системы на твердотельных допированных матрицах для фиксации сигнала вне оптического диапазона; термолаковые ячеистые покрытия, локально изменяющие оптические характеристики при нагреве и т.д. (см., например, наш аналитический обзор [16] или примеры приложения данного принципа [17,18]). Однако техническая часть реализована была не полностью и, скорее, демонстрировала возможность данной…”

Section: цель и актуальность ниокрunclassified

Разработка Позиционно-Чувствительных Преобразователей С Расширенным Спектром Переменных, Конвертируемых В Оптический Сигнал Для Оптофлюидики, Нанофотоники И Систем Безлинзовой Голографической / Томографической Микроскопии

Градов¹

2020

Preprint

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Препринт "Разработка позиционно-чувствительных преобразователей с расширенным спектром переменных, конвертируемых в оптический сигнал для оптофлюидики, нанофотоники и систем безлинзовой голографической / томографической микроскопии" представляет собой открытую (не ДСП, не СС) часть обзора заявки, готовившейся в 2018 году для КПНИ "Фотоника", совместно с рядом коллег (но не была подана в связи с разгромом группы и выдавливанием из комнат в ИНЭПХФ РАН). Публикуется здесь исключительно в целях фиксации утраченного приоритета.

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“…Different LC converters of physical and chemical signals into optical ones can be used for biomedical morphochemical and morphodynamical [103][104][105][106] applications, including intraoperative [107] and implantable ones. Most progressive types of LC-assisted methods of optical spatial and spatiotemporal biological investigations in the nearest future must be associated with artificial intelligence and machine learning on the datasets of images, provided by using liquid crystalline converters [108,109].…”

Section: Introductionmentioning

confidence: 99%

Towards Femtoscan-Assisted Analysis of Liquid Crystal Self-Organization on Different Polymer and Glass Surfaces for Lab-on-a-Chip and Lab-on-a-Dish Applications, Including Optofluidic and Flexoelectric Ones

Adamovich,

Buryanskaya,

Elfimov

et al. 2023

Recent Prog Mater

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<span lang="EN-US">In this paper, starting with an introductory review of the applications of liquid crystals and polymer-dispersed liquid crystal systems in (bio)sensors and microfluidics, the possibilities of visualizing self-organization products of liquid crystalline media or field-induced instabilities of liquid crystalline systems are considered. In particular illustrated cases, it is proposed to use FemtoScan software-containing metrological complexes to visualize instabilities in liquid crystalline systems and products of self-organization in liquid crystalline media.

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Novel morphometrics-on-a-chip: CCD-or CMOS-lab-on-a-chip based on discrete converters of different physical and chemical parameters of histological samples into the optical signals with positional sensitivity for morphometry of non-optical patterns

Cited by 5 publications

References 0 publications

Target Chip Based Single-Cell Biotyping and Telemetric Bioluminescence Lensless Microscopy of the Buried Sandwich-Slides as a Novel Way for Measurement, Mapping and Molecular Imaging of Biodegradation/Biofouling of Plastic Surfaces in Real Soils

Target Chip Based Single-Cell Biotyping and Telemetric Bioluminescence Lensless Microscopy of the Buried Sandwich-Slides as a Novel Way for Measurement, Mapping and Molecular Imaging of Biodegradation/Biofouling of Plastic Surfaces in Real Soils

Towards Femtoscan-Assisted Analysis of Liquid Crystal Self-Organization on Different Polymer and Glass Surfaces for Lab-on-a-Chip and Lab-on-a-Dish Applications, Including Optofluidic and Flexoelectric Ones

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