Saeid Ansaryan scite author profile

Saeid Ansaryan

3Publications

32Citation Statements Received

138Citation Statements Given

How they've been cited

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144

132

Affiliations

Bioengineering (Switzerland), University of Tehran, École Polytechnique Fédérale de Lausanne

Publications

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High-throughput spatiotemporal monitoring of single-cell secretions via plasmonic microwell arrays

Ansaryan

Liu

et al. 2023

Nat. Biomed. Eng

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Methods for the analysis of cell secretions at the single-cell level only provide semiquantitative endpoint readouts. Here we describe a microwell array for the real-time spatiotemporal monitoring of extracellular secretions from hundreds of single cells in parallel. The microwell array incorporates a gold substrate with arrays of nanometric holes functionalized with receptors for a specific analyte, and is illuminated with light spectrally overlapping with the device’s spectrum of extraordinary optical transmission. Spectral shifts in surface plasmon resonance resulting from analyte–receptor bindings around a secreting cell are recorded by a camera as variations in the intensity of the transmitted light while machine-learning-assisted cell tracking eliminates the influence of cell movements. We used the microwell array to characterize the antibody-secretion profiles of hybridoma cells and of a rare subset of antibody-secreting cells sorted from human donor peripheral blood mononuclear cells. High-throughput measurements of spatiotemporal secretory profiles at the single-cell level will aid the study of the physiological mechanisms governing protein secretion.

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Real-time monitoring of single-cell secretion with a high-throughput nanoplasmonic microarray

Liu

Ansaryan

et al. 2022

Biosensors and Bioelectronics

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Metas-Chip precisely identifies presence of micrometastasis in live biopsy samples by label free approach

et al. 2017

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Detecting the micrometastasis is a major challenge in patients’ survival. The small volume of the biopsied tissue results in limited number of histopathological samples and might reduce the rate of accurate diagnosis even by molecular technologies. We introduce a microelectronic biochip (named Metas-Chip) to detect the micrometastasis in unprocessed liquid or solid samples. It works based on the tendency of malignant cells to track single human umbilical vein endothelial cell (HUVEC)-sensing traps. Such cells detach themselves from the biopsied sample and invade the sensing traps by inducing membrane retraction and blebbing, which result in sharp changes in electrical response of the sensing elements. Metas-Chip identified the metastasis in more than 70 breast cancer patients, in less than 5 h. Moreover it detected the metastasis in lymph nodes of nine patients whom were missed by conventional pathological procedure. Multilevel IHC and real-time polymerase chain reaction (RT-PCR) tests confirmed the diagnosis.

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Saeid Ansaryan

High-throughput spatiotemporal monitoring of single-cell secretions via plasmonic microwell arrays

Real-time monitoring of single-cell secretion with a high-throughput nanoplasmonic microarray

Metas-Chip precisely identifies presence of micrometastasis in live biopsy samples by label free approach

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