Skip to main content
menu
URMC / Labs / DeLouise Lab / Projects

Research Projects

Developing Novel Agents to Detect Nanomaterials in Skin

Developing Novel Agents to Detect Nanomaterials in SkinWe are developing reagents to detect those particles which might not be observed using common analytical techniques due to tissue autofluorescence and inability to achieve adequate nanoscale resolution. The reagents will function similar to antibodies and their binding will be dictated by NP properties such as size, surface chemistry, agglomeration state and charge, thereby allowing their detection using immunohistochemistry.

Learn more about Developing Novel Agents to Detect Nanomaterials in Skin

Development of Functional Salivary Gland Microbubble Chip Arrays for High Throughput Drug Discovery

salivary glandXerostomia is a condition of dry mouth due to loss of salivary gland function.  It can result from autoimmune disease (Sjogren’s Syndrome)  or as a side effect of taking certain drugs or as an unavoidable consequence of irradiation therapy for treatment of head and neck cancers.  This project seeks to discover radio protective drugs to prevent development of xerostomia using tissue chip technology.  A key limitation in discovering such drugs  is the lack of in vitro models to culture functional salivary gland mimetics.  We overcome this hurdle by using microbubble (MB) array technology which is highly advantaged for  development of functional tissue chips that can be used in high throughput (HT) drug discovery.

Learn more about Development of Functional Salivary Gland Microbubble Chip Arrays for High Throughput Drug Discovery

Microbubble Arrays for Single Cell Sorting and Antigen Specific Detection

Microbubble Arrays for Single Cell Sorting and Antigen Specific DetectionMicroarrays are a critical and rapidly growing sector of medical diagnostics. Development of PDMS Microbubble (MB) arrays through gas expansion molding (GEM) are one promising approach for single cell sorting and antigen specific detection. These MB arrays will allow for the rapid screening and isolation of clonally pure cell lines from heterogeneous cell populations of both primary and laboratory cell lines.

Learn more about Microbubble Arrays for Single Cell Sorting and Antigen Specific Detection

Microbubble Arrays for Sorting Cancer Stem Cells

Microbubble Arrays for Sorting Cancer Stem CellsMicrobubble (MB) arrays - fabricated in polydimethylsiloxane (PDMS) using our the patented gas expansion molding (GEM) process – are being developed as a novel screening tool to identify and characterize tumor initiating cells. Morphologically distinct clones are cultured from single cells, they are recovered and functionally characterized. Single cell survival and proliferation is enabled by the unique architecture of the MB well and its physiochemical properties.

Learn more about Microbubble Arrays for Sorting Cancer Stem Cells

The Role of Nanoparticles and Skin Dendritic Cells in Immune Tolerance

The Role of Nanoparticles and Skin Dendritic Cells in Immune ToleranceSkin is the main route to allergen sensitization and provides protection from exposure to exogenous factors like microbes, pollutants, ultraviolet radiation (UVR) and nanoparticles (NPs). Skin immune cells (Langerhans cells-LCs) migrate to the lymph nodes following allergen exposure as in the case of Contact Hypersensitivity (CHS).

Learn more about The Role of Nanoparticles and Skin Dendritic Cells in Immune Tolerance

Nanoparticles Therapeutics

Nanoparticles TherapeuticsInflammatory skin disorders are typically treated with corticosteroid skin creams, topical immunomodulators, phototherapy and in extreme cases immunosuppressive agents. These drugs generally act on the immune system in a systemic fashion and have diverse effects that maybe harmful. Hence, there is a great need for developing effective transdermal drug delivery systems that target and regulate gene expression of cells in specific layers of skin.

Learn more about Nanoparticles Therapeutics