Ashwin Acharya scite author profile

Ashwin Acharya

5Publications

19Citation Statements Received

45Citation Statements Given

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Concordia University

Publications

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Hybrid Integrated Silicon Microfluidic Platform for Fluorescence Based Biodetection

Chandrasekaran

Acharya

You

et al. 2007

Sensors

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The desideratum to develop a fully integrated Lab-on-a-chip device capable of rapid specimen detection for high throughput in-situ biomedical diagnoses and Point-of-Care testing applications has called for the integration of some of the novel technologies such as the microfluidics, microphotonics, immunoproteomics and Micro Electro Mechanical Systems (MEMS). In the present work, a silicon based microfluidic device has been developed for carrying out fluorescence based immunoassay. By hybrid attachment of the microfluidic device with a Spectrometer-on-chip, the feasibility of synthesizing an integrated Lab-on-a-chip type device for fluorescence based biosensing has been demonstrated. Biodetection using the microfluidic device has been carried out using antigen sheep IgG and Alexafluor-647 tagged antibody particles and the experimental results prove that silicon is a compatible material for the present application given the various advantages it offers such as cost-effectiveness, ease of bulk microfabrication, superior surface affinity to biomolecules, ease of disposability of the device etc., and is thus suitable for fabricating Lab-on-a-chip type devices.

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Chinese Public AI R&D Spending: Provisional Findings

Acharya¹,

Arnold²

2019

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OLED Hybrid Integrated Polymer Microfluidic Biosensing for Point of Care Testing

2015

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This paper reports a microfluidic platform with external hybrid integration of an organic light emitting diode (OLED) as an excitation source. This device can be used as a simple and cost effective biosensing element. The device is capable of rapid in-situ detection of biological elements such as sensing of interaction of antigen with fluorescent tagged antibody conjugates. These portable microfluidic systems have great potential for use an OLED in a single chip with very high accuracy and sensitivity for various point-of-care (POC) diagnosis and lab on a chip (LOC) applications, as the miniaturization of the biosensor is essential for handling smaller sample volumes in order to achieve high throughput. The biosensing element was successfully tested to detect anti-sheep IgG conjugates tagged to Alexafluor using a fluorescence based immunoassay method.

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Bioresistive identification of heat shock protein 90

Chandrasekaran

Pakkiriswami

You

et al. 2008

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90 kDa heat shock protein ͑HSP90͒ is a ubiquitous molecular chaperone and is one of the abundant proteins present in a cell under normal and stressed conditions. The adenosine triphosphate ͑ATP͒ binding region of HSP90 is currently under a great degree of study because of the interest of its role in cancer and protein maintenance; the binding of ATP to HSP90 induces a large conformational change in the protein as a result of the activity of different types of stressors within the cells. In the present paper, a simple microfluidic biosensor is proposed for the characterization of ATP-HSP90 interactions through the principle of bioresistive variation. The experimental results prove that the present biosensor system is highly suitable for the detection of heat shock proteins present in a real-time biological sample, which is very useful for in-situ biomedical applications and rapid pathogenic detections.

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Academic literature

Chou¹,

Acharya²

2022

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Ashwin Acharya

Hybrid Integrated Silicon Microfluidic Platform for Fluorescence Based Biodetection

Chinese Public AI R&D Spending: Provisional Findings

OLED Hybrid Integrated Polymer Microfluidic Biosensing for Point of Care Testing

Bioresistive identification of heat shock protein 90

Academic literature

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