Multiparametric Lab-on-A-Chip with Miltiple Biophysical Signal Converters as a Novel Tool for Experimental Stem Cell Biology and Control Equipment for Hematopoetic Stem Cell Transplantation

Gradov, O. V. and Jablokov, A. G. (2017). Multiparametric lab-on-a-chip with miltiple biophysical signal converters as a novel tool for experimental stem cell biology and control equipment for hematopoetic stem cell transplantation. Cellular Therapy and Transplantation, 6(3:20):41–42.

2 Pages Posted: 20 Aug 2018

See all articles by Oleg Gradov

Oleg Gradov

Semenov Institute of Chemical Physics

Arthur G. Jablokov

Russian Academy of Sciences (RAS)

Date Written: July 9, 2017

Abstract

Introduction
The studies of stem cell differentiation on a chip which have become a trend since the middle 2000-s [1], led to a conclusion on the necessity of multiparametric studies of the cell response in such systems resulting into changes of the cell proliferation and differentiation. Several methods for electrobiophysical and cytoelecrophysiological control based on impedance or capacity measurements have been proposed elsewhere [2, 3]. The latter can be designed, in particular, in a single cell tracing mode using CMOS-chips [3], with electrophysical parameters detected as the analytical signal, instead of the optical signal typical to CMOS matrices and CCD arrays.
Materials and methods
In 2012, our group already introduced CMOS-chips/CMOS-labs-on-a-chip, allowing the monitoring of histogenesis, regeneration processes and even experimental morphogenesis using schlieren methods and speckle methods of the analytical signal detection from the sample at various irradiation and fixation angles [7, 8]. Here we propose a combination of electrophysical/electrophysiological and optical methods of the cell activity registration in a chip, in particular, using special transducers of electrophysical redox-signaling variables into the optical variables.
Results and conclusions
It has been shown that cell cultures that are at different development stages or being cultured under non-similar conditions, as well as those differing by the criteria of directed differentiation, possess correlatively different sets of the response signals. Based on the data presented in this report, we demonstrate an opportunity for application of the multiparametric and converting CMOS-based labs-on-a-chip, as a useful research tool for hematopoietic stem cell transplantation studies, gene and cell therapy and related fields. The authors develop a hybrid in situ/in silico approach to this problem, based on a transition from morphological descriptors on a chip towards the diagnostic and qualimetric predictors in a special correspondence database. Planar patch-clamp on a chip (planar patch-clamp spectrometry) is considered as a possible configuration for the cell development analysis implemented in parallel to the optical registration, thus allowing to correlate the data on cell differentiation with information about functional developmental channelomics. This work was supported by RFBR (Project 16-32-00914).

Keywords: Lab-on-a-chip, cytological microfluidics, diagnostic predictors, hybrid in situ/in silico approach, planar patch-clamp spectrometry, experimental morphogenesis.

Suggested Citation

Gradov, Oleg and Jablokov, Arthur G., Multiparametric Lab-on-A-Chip with Miltiple Biophysical Signal Converters as a Novel Tool for Experimental Stem Cell Biology and Control Equipment for Hematopoetic Stem Cell Transplantation (July 9, 2017). Gradov, O. V. and Jablokov, A. G. (2017). Multiparametric lab-on-a-chip with miltiple biophysical signal converters as a novel tool for experimental stem cell biology and control equipment for hematopoetic stem cell transplantation. Cellular Therapy and Transplantation, 6(3:20):41–42.. Available at SSRN: https://ssrn.com/abstract=3210731 or http://dx.doi.org/10.2139/ssrn.3210731

Oleg Gradov (Contact Author)

Semenov Institute of Chemical Physics ( email )

Moscow 119991
Russia

HOME PAGE: http://https://istina.msu.ru/profile/gradov/

Arthur G. Jablokov

Russian Academy of Sciences (RAS)

Leninsky Ave, 14
Moscow, 119991
Russia

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