Abstract: A microfluidic device can include an upstream passage, a sample passage, a bifurcating passage, and a combining passage. The upstream passage can be configured to provide a focusing stream. The sample passage can be configured to provide a sample stream. The bifurcating passage can include a specified bifurcating flow resistance. The combining passage can be configured to create a combined stream from the focusing stream and the sample stream, where the focusing stream can direct the sample stream away from the upstream passage and toward the bifurcating passage. A first portion of the combined stream can be discharged through the bifurcating passage. The main discharge can be configured to discharge a second portion of the combined stream. The main discharge can include a main discharge resistance that is selectable to vary the main discharge resistance relative to the bifurcating flow resistance.

Abstract: A microfluidic device can include a superstructure defining a microfluidic channel therein and a first hydrogel bonded to the microfluidic channel to define a perfusable channel therein, the first hydrogel including cells embedded therein or thereon. The microfluidic device can optionally include a second hydrogel bonded to the microfluidic channel or to the hydrogel.

Abstract: A microfluidic device can include an upstream passage, a sample passage, a bifurcating passage, and a combining passage. The upstream passage can be configured to provide a focusing stream. The sample passage can be configured to provide a sample stream. The bifurcating passage can include a specified bifurcating flow resistance. The combining passage can be configured to create a combined stream from the focusing stream and the sample stream, where the focusing stream can direct the sample stream away from the upstream passage and toward the bifurcating passage. A first portion of the combined stream can be discharged through the bifurcating passage. The main discharge can be configured to discharge a second portion of the combined stream. The main discharge can include a main discharge resistance that is selectable to vary the main discharge resistance relative to the bifurcating flow resistance.

Abstract: A microfluidic device can include an upstream passage, a sample passage, a bifurcating passage, and a combining passage. The upstream passage can be configured to provide a focusing stream. The sample passage can be configured to provide a sample stream. The bifurcating passage can include a specified bifurcating flow resistance. The combining passage can be configured to create a combined stream from the focusing stream and the sample stream, where the focusing stream can direct the sample stream away from the upstream passage and toward the bifurcating passage. A first portion of the combined stream can be discharged through the bifurcating passage. The main discharge can be configured to discharge a second portion of the combined stream. The main discharge can include a main discharge resistance that is selectable to vary the main discharge resistance relative to the bifurcating flow resistance.

Abstract: Disclosed herein are methods and related imaging systems to measure oxygenation levels on a surface. Methods of monitoring wound healing with dual emissive difluoroboron naphthyl-phenyl ?-diketonate polylactide materials are disclosed.

Abstract: The present invention encompasses the use of adipose tissue derived cells, or conditioned medium of such cells, to treat and prevent vascular related injuries, diseases, disorders, and conditions such as diabetic retinopathy, where, in one aspect, pericytes such as retinal pericytes have been lost or damaged. The present application further discloses compositions and methods useful for enhancing the function and activity of the adipose tissue derived cells in the treatment and prevention of injuries, diseases, disorders, and conditions including the use of TGF? to condition the cells to enhance their activity.

Abstract: A device and related method of use for removing a foreign object from the external ear canal or the nasal cavity is provided. The device comprises an elongated member having a first portion, a second portion with a distal end, and a fulcrum disposed along the elongated member between the first and the second portions.

Abstract: A method and device for creating hanging drop cell aggregates. The method and device includes a plurality of pegs that allow for high throughput culture of aggregates. Also disclosed are means of transferring formed aggregates to various destinations, such as well plates, scaffolding, tissues, or wounds. Use of the device permits aggregates to be prepared or created in larger quantities than current methods, and allows for them to be transferred more efficiently.

Abstract: A method and device for creating hanging drop cell aggregates. The method and device includes a plurality of pegs that allow for high throughput culture of aggregates. Also disclosed are means of transferring formed aggregates to various destinations, such as well plates, scaffolding, tissues, or wounds. Use of the device permits aggregates to be prepared or created in larger quantities than current methods, and allows for them to be transferred more efficiently.

Abstract: A method and device for creating hanging drop cell aggregates. The method and device includes a plurality of pegs that allow for high throughput culture of aggregates. Also disclosed are means of transferring formed aggregates to various destinations, such as well plates, scaffolding, tissues, or wounds. Use of the device permits aggregates to be prepared or created in larger quantities than current methods, and allows for them to be transferred more efficiently.

Abstract: A sprayer device and related method that delivers multicellular aggregates in suspension. A purpose of the sprayer embodiment may be to deliver cells into chronic wound beds, and additional purposes of the sprayer include additional application in other cell delivery environments, such as during open-heart surgery or other surgeries where it may be desirable to treat internal organs with aggregates of stem cells.

Abstract: Aspects of the present invention are directed to an anatomical model for training that includes a head portion; at least one auricle portion; at least one ear canal; and at least one cartridge. The at least one cartridge may be adaptable to mimic at least one pathology of the human ear, such as an eardrum perforation, a middle ear fluid, a cholesteatoma, a tumor, or earwax.

Abstract: The present invention provides methods for growing and inducing perivascular cell differentiation of adipose tissue-derived stromal cells. The invention further provides methods for administering such adipose tissue-derived cells to a subject. The cells of the invention are useful for treating diseases, disorders, conditions, and injuries requiring new or enhanced angiogenesis, vascular remodeling, drug delivery, and tissue engineering.