Abstract: Provided are methods for inhibiting immune responses against microbial antigens. In some embodiments, the methods include administering to the subject a composition containing a plurality of plant-derived exosome-like particles to inhibit immune esponses against microbial antigens. Also provided are methods for inhibiting development of septic shock in subjects, for inhibiting development of cytokine storm in subjects, and for inhibiting SARS-CoV-2-induced cytopathogenic effect. Also provided are compositions that include an exosome-derived nanoparticle comprising a first lipid bilayer and a second lipid bilayer coating the exosome-like nanoparticle and/or fused with the first lipid bilayer, wherein the second lipid bilayer comprises a targeting molecule, and methods for using the compositions to treat diseases, disorders, and conditions and/or to target a therapeutic agent to a cell, tissue, and/or organ of interest.

Abstract: Embodiments of the invention employ frequency selective surfaces that resonate at defined frequencies depending on geometry. Tag-based embodiments allow the ability to have passive, battery-free, systems that can be used for applications including but not limited to inventory tracking, locating, and indoor radar (e.g. determining whether something labeled with a tag is in range of a particular wireless network signal). The shape of the resonator, among other available factors, influences the interference frequency. Embodiments may include metal based tags on a non-conductive material that will be used to disturb, for example, frequencies from 3 KHz to 300 GHz. These disturbances at specific resonant frequencies are useable to, for example, locate the tags/labels using WiFi Mapping, sending a WiFi signal and getting unique feedback on a router.

Abstract: Some embodiments of the invention include methods of using a compound such as Formula (I), Formula (II), or I-1 (e.g., in compositions or in pharmaceutical compositions) for treating diseases (e.g., cancer such as chemo-resistant cancer or cancer-therapy-resistant cancer). Additional embodiments of the invention are also discussed herein.

Abstract: Methods for treating alcohol induced liver injury include administering to a subject an effective amount of a ginger-derived nanoparticle. Methods for decreasing nuclear factor erythroid-2 related factor (Nrf2) activation in a hepatocyte are also provided and include contacting the hepatocyte with an effective amount of a ginger-derived nanoparticle. Pharmaceutical preparations including ginger-derived nanoparticles are further provided.

Abstract: Provided are compositions, optionally pharmaceutical compositions, that include a plurality of exosomes generated from stem cells, optionally ESCs and/or iPSCs, that have been modified to express a granulocyte-macrophage colony stimulating factor (GM-CSF) polypeptide, optionally a human GM-CSF polypeptide. Also provided are methods for employing the presently disclosed compositions for preventing and/or inhibiting tumor growth in subjects in need thereof, for preventing and/or inhibiting metastases in subject in need thereof, for inducing anti-tumor immune responses in subjects, and uses of the presently disclosed compositions for prevention and/or treatment of tumors and/or cancers and for the preparation of medicaments for treatment of tumors and/or cancers.

Abstract: An automated segmentation system for medical imaging data segments data into muscle and fat volumes, and separates muscle volumes into discrete muscle group volumes using a plurality of models of the medical imaging data, and wherein the medical imaging data includes data from a plurality of imaging modalities.

Abstract: Provided are bone quality and/or strength measuring devices. In some embodiments, the devices include a body and a detector disposed therein designed to interact with a bone, determine the quality and/or strength thereof, and communicate an evaluation thereof to a user. The presently disclosed devices can also include a torque and/or force sensor that facilitates placement of the device and/or that is in communication with the detector to cause the detector to evaluate the bone; an output that feedback to a user based on the quality and/or strength of the bone determined by the detector, and/or a piston that interacts with the detector to cause the detector to interact with and thereby evaluate the bone. Also provided are methods for determining if a region of a bone is appropriate for placement of an orthopedic hardware piece and methods for reducing risk of a complication of spinal surgery associated with failure of an orthopedic hardware piece.

Abstract: Compositions that include a therapeutic agent encapsulated by an edible plant-derived microvesicle are provided. Methods for treating an inflammatory disorder and methods for treating a cancer are further provided and include administering an effective amount of a composition that includes a therapeutic agent encapsulated by an edible plant-derived microvesicle to a subject. Further provided are methods of diagnosing a colon cancer that include the steps of administering an edible plant-derived microvesicle incorporating a detectable label to a subject and then determining an amount of the detectable label in an intestine of the subject.

Abstract: A robot skin apparatus includes polymer membranes encapsulating a pressure sensor. The sensor includes piezo-sensitive material in contact with a pair of electrodes in spaced relationship to form a circuit. The apparatus may include a flexible substrate, with the electrodes thereon. The piezo-sensitive material may be piezoresistive film. The electrodes may be symmetrically patterned on the substrate to form a substantially circular peripheral boundary. The apparatus may include pressure sensors on opposite sides of a plane for temperature compensation, a plurality of pressure sensors arrayed on the substrate, and a data acquisition system. A method of fabricating the apparatus includes a wet lithography process for patterning the piezoresistive film. A system includes a pair of gripper fingers, an actuator connected to the fingers, a robot skin apparatus positioned on one of the fingers, and an electronic unit for receiving data from the robot skin and controlling the fingers.

Abstract: Computer-implemented systems and methods for determining epidural spinal stimulation parameters that promote muscle activation use spectral analysis and machine learning techniques to characterize electromyography data.

Abstract: Microvesicle compositions and methods of use thereof are provided. The microvesicle composition includes a miRNA encapsulated by a microvesicle, wherein the microvesicle is derived from an edible plant. The method of use thereof includes treating a cancer in a subject by administering to the subject an effective amount of a microvesicle composition.

Abstract: Some embodiments of the invention include inventive catalysts (e.g., catalysts of Formula (I)). Other embodiments include compositions comprising the inventive catalysts. Some embodiments include methods of using the inventive catalysts (e.g., in hydrofluorination of an organic compound). Further embodiments include methods for making the inventive catalysts. Additional embodiments of the invention are also discussed herein.

Abstract: Described herein are FasL-engineered biomaterials, as well as methods of making and using such FasL-engineered biomaterials, such as for immunomodulation, such as for inducing immunosuppression and specific immune tolerance, such as for preventing or reducing the risks of rejection of cellular or tissue grafts and/or the treatment of autoimmune disorders such as Type I diabetes. In specific embodiments, the FasL-engineered biomaterials are biotinylated microgels bound to SA-FasL.

Abstract: Some embodiments of the invention include virus-like particle (VLP) binding agents, and related polynucleotides, cells, methods of making, and compositions. Other embodiments of the invention include methods of detecting VLPs, parvovirus, erythrovirus or parvovirus B19 using a VLP binding agent and diagnostic methods for parvovirus, erythrovirus or parvovirus B19. Further embodiments include methods for administering VLP binding agents to an animal. Other embodiments include treating parvovirus, erythrovirus or parvovirus B19 infections and other diseases. Additional embodiments of the invention are also discussed.

Abstract: Provided are composite electrolytes having a bio-based gel electrolyte in an ordered structure of a porous solid. In some embodiments, the gel electrolyte includes a glycolate gel, a glycerate gel, a bio-based compound-derived gel or a combination thereof. Also provided are electrochemical systems (electrodeposition), redox flow batteries, fuel cells, lithium-ion batteries and lithium-metal batteries including the composite electrolytes, and methods for producing gel electrolytes. In some embodiments, the methods including reacting a polyol, optionally ethylene glycol, propanediol, butanediol, pentanediol, diethylene glycol, glycerol, or any combination thereof, with a lithium metal and/or a lithium salt, optionally lithium hydroxide, a sodium salt, optionally sodium hydroxide (NaOH), NaTFSI, NaBF4, or NaPF6; an aluminum salt; a potassium salt, a magnesium salt; a calcium salt; a zinc salt; or any combination thereof.

Abstract: A multi-lumen arthroscopy cannula (MLAC) is described which may be used to contain and manage joint irrigation fluid as a means of improving the state of arthroscopic surgery. The MLAC includes an arrangement of components within a cannula housing. An internal passage (central lumen) through which surgical instruments may be inserted into the body includes a series of components which greatly reduce the leakage path of fluid through the central lumen while enabling manipulation of surgical instruments during arthroscopic procedures. A dual-tapered diaphragm seal grips the instruments as it is manipulated to prevent leakage. This works in concert with the consecutively placed multi-leaflet valves, which act to prevent internal leakage and maintain pressure within the surgical cavity. Unique features of this cannula, aside from the multiple valves and dual-tapered diaphragm seal, include bilateral lumens which provide infusion and withdrawal of irrigation inside the joint capsule.

Abstract: A robot skin apparatus includes polymer membranes encapsulating a pressure sensor. The sensor includes piezo-sensitive material in contact with a pair of electrodes in spaced relationship to form a circuit. The apparatus may include a flexible substrate, with the electrodes thereon. The piezo-sensitive material may be piezoresistive film. The electrodes may be symmetrically patterned on the substrate to form a substantially circular peripheral boundary. The apparatus may include pressure sensors on opposite sides of a plane for temperature compensation, a plurality of pressure sensors arrayed on the substrate, and a data acquisition system. A method of fabricating the apparatus includes a wet lithography process for patterning the piezoresistive film. A system includes a pair of gripper fingers, an actuator connected to the fingers, a robot skin apparatus positioned on one of the fingers, and an electronic unit for receiving data from the robot skin and controlling the fingers.

Abstract: Methods for automated segmentation system for retinal blood vessels from optical coherence tomography angiography images include a preprocessing stage, an initial segmentation stage, and a refining stage. Application of machine-learning techniques to segmented images allow for automated diagnosis of retinovascular diseases, such as diabetic retinopathy.

Abstract: Protein complex variants, compositions, and methods of use thereof are provided. The protein complex variant includes a cholera toxin B subunit variant having one or more modifications thereto. The method of use thereof includes treating a disease by administering an effective amount of a composition including a cholera toxin B subunit variant to a subject in need thereof.

Abstract: A flexible wire comprises a conductive core surrounded by one or more radial p-n diodes and alternating conductive and non-conductive bands along an outermost surface. Methods for producing the wire are also disclosed, as are textiles and other flexible materials comprising or consisting of such flexible wires.