Abstract: Disclosed are systems, apparatus, devices and methods, including a method that includes determining traction forces exerted by a cellular monolayer on a substrate on which the monolayer is placed, and determining internal forces within and between cells of the monolayer based on the determined traction forces. In some embodiments, determining the internal forces of the cellular monolayer may include determining internal stresses within the cellular monolayer that act to balance the determined traction forces over at least part of the cellular monolayer. In some embodiments, determining of the internal stresses may also include setting boundary conditions at a boundary determined based on an optical field of view of an observed section of the monolayer.

Abstract: A platform for biological assays includes a base substrate providing structural support to the platform, at least one surface of the base substrate coated with position markers, a first deformable layer positioned on top of the base substrate, and a second deformable layer positioned on top of the first deformable layer, the second deformable layer embedded with deformation markers.

Abstract: A pulmonary measurement system includes a pulmonary measurement device that includes a mouthpiece with an airflow path and a sensor positioned in the airflow path; and a controller communicably coupled to the sensor. The controller includes a processor and instructions stored in memory and is operable to execute the instructions with the processor to perform operations including identifying a measurement from the sensor; identifying a particular equation stored in the memory, the particular equation developed using data analytics and including an input parameter that is based on the identified measurement; and based on the identified measurement and the particular equation, determining a value of absolute lung volume.

Abstract: A platform for biological assays includes a base substrate providing structural support to the platform, at least one surface of the base substrate coated with position markers, a first deformable layer positioned on top of the base substrate, and a second deformable layer positioned on top of the first deformable layer, the second deformable layer embedded with deformation markers.

Abstract: Disclosed are systems, apparatus, devices and methods, including a method that includes determining traction forces exerted by a cellular monolayer on a substrate on which the monolayer is placed, and determining internal forces within and between cells of the monolayer based on the determined traction forces. In some embodiments, determining the internal forces of the cellular monolayer may include determining internal stresses within the cellular monolayer that act to balance the determined traction forces over at least part of the cellular monolayer. In some embodiments, determining of the internal stresses may also include setting boundary conditions at a boundary determined based on an optical field of view of an observed section of the monolayer.

Abstract: Apparatus provides an output signal characteristic of the geometry of a confined volume. There is a conduit with an open first end for exchanging acoustical energy with the confined volume. An electroacoustical transducer is coupled to the conduit for launching acoustical energy into the conduit towards the opening in the confined volume producing an incident wave and a reflected wave to form a wave field representative of the geometry of the confined volume. In one embodiment, the acoustical energy is launched into a sidewall of the tube. At least first and second pressure-wave-sensing transducers are mounted along the length of the conduit in spaced relationship for providing first and second transduced signals representative of the wave field at spaced locations in the conduit. A processor processes the first and second transduced signals to provide an output signal characteristic of the geometry of the confined volume. In one embodiment, the processor provides high-pass filtering of the impulse response.

Abstract: Apparatus provides an output signal characteristic of the geometry of a confined volume. There is a conduit with an open first end for exchanging acoustical energy with the confined volume. An electroacoustical transducer is coupled to the conduit for launching acoustical energy into the conduit towards the opening in the confined volume producing an incident wave and a reflected wave to form a transient wave field representative of the geometry of the confined volume. At least first and second pressure-wave-sensing transducers are mounted along the length of the conduit in spaced relationship for providing first and second transduced signals representative of the transient wave field at spaced locations in the conduit. A processor processes the first and second transduced signals to provide an output signal characteristic of the geometry of the confined volume.

Abstract: The present invention is directed to a method for regulating formation of a complex of a plasminogen activator, its receptor and one of its inhibitors. More specifically, this method involves contacting a target cell having a plasminogen activator receptor with a compound which interacts with a component of the complex such that a change in target cell cytoskeletal stiffness results.

Abstract: Mechanical stresses and deformations are applied directly to cell surface receptors or molecules and measured using a system including a magnetic twisting device in combination with ferromagnetic microbeads coated with ligands for integrins or any other surface receptors. The system can be used diagnostically to characterize cells and molecules and to determine the effect of transformation and compounds, including drugs, on the cells and molecules. The system can also be used to induce cells to grow or alter production of molecules by the cells.

Abstract: A sound source located inside a tube having one end inside the mouth or nose of a subject provides an acoustic transient signal that propagates into the respiratory system of the subject to provide reflections sensed by a single mircophone inside the tube between the sound source and the mouth of the subject for recording on a transient recorder or computer and display on an oscilloscope after passing through a low pass filter to provide an output signal representative of the acoustical properties of the airways of the subject. This output signal may be processed in accordance with the deconvolution integral and other algorithms to determine essentially the acoustic impulse response, impedance or effective cross-sectional area of the airways, typically as a function of the distance from a reference point, such as the end of the tube.