Search Results - saheli+sarkar

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Live Single-Cell Bioassay in Micro-droplets

INV-17085 Background The outcome of many pathological diseases including cancer is determined by types (functional and phenotypical) of immune cells present in the body. The existence of tremendous heterogeneity in these cells influences the time taken for the immune reaction and an individual’s ability to recover from the illness. Hence, assessing...

Published: 1/27/2025 | Updated: 3/21/2024 | Inventor(s): Tania Konry, Saheli Sarkar, Pooja Sabhachandani

Keywords(s):

Category(s): -Cancer, -Method, Technology Classifications > 1. Life Science, Diagnostics

Exosome Detection in Microfluidic Droplets

INV-17081 Background Extracellular vesicles are secreted by cells and contain essential biological components such as proteins, lipids, and genetic materials. Cells use these vesicles to communicate with other cells. These vesicles could be used to introduce therapeutic agents in cells and detect the diseased condition but, detecting cell-secreted...

Published: 1/27/2025 | Updated: 3/21/2024 | Inventor(s): Saheli Sarkar, Tania Konry

Keywords(s):

Category(s): -Cancer, Technology Classifications > 1. Life Science > Biotechnology, Diagnostics

Functional phenotyping of cells in droplet based platforms

INV-16003 Background Recently, the development of microfluidic, technology-enabled analysis of cell phenomena on the single-cell level has been a growing area of research within the academic realm. Current microfluidic platforms based on micro-well technologies do not provide a robust protocol for cell co-encapsulation in a controllable microenvironment,...

Published: 1/27/2025 | Updated: 3/21/2024 | Inventor(s): Tania Konry, Saheli Sarkar

Keywords(s): Diagnostics, Microfluidics, Singe cell

Category(s): -Microbiology, Technology Classifications > 1. Life Science > Therapeutics

Single Cell Fluorescence In Situ Hybridization In Microfluidic Droplets

INV-16002 Background Nuanced variations at the molecular, cellular and physiological level among individuals require designing personalized treatments, which are tailored to their unique characteristics. Cellular heterogeneity and the need for personalized therapeutic interventions provide a strong rationale to perform analysis at single-cell level....

Published: 1/27/2025 | Updated: 3/21/2024 | Inventor(s): Tania Konry, Saheli Sarkar

Keywords(s):

Category(s): Technology Classifications > 1. Life Science > Biotechnology