Abstract: A non-invasive computer-aided diagnosis system generates a diagnosis of mild cognitive impairment, a disease state which often leads to the development of Alzheimer's disease. The system uses as inputs both functional positron emission tomography and structural magnetic resonance imaging data, reconstructs a model of the patient's cortex, uses machine-learning techniques to generate probabilities for mild cognitive impairments for local cortical regions, uses machine-learning techniques to fuse the local diagnoses to generate a global diagnosis based on each imaging modality, then uses machine-learning techniques to fuse the modality-specific global diagnoses to generate a final global diagnosis.

Abstract: Various methods for detecting moisture in briefs compatible with high volume manufacturing are disclosed. The embodiments herein facilitate protection of the method of adding moisture sensing to a diaper, but could also be used to add sensing to pads and bandages. The primary design intent is optimal moisture detection and low per unit cost. Electrodes within a garment measure electrical properties of the electrodes to determine if the item has contacted moisture. The target moisture is urine, however, other sources and types of moisture can also be sensed. Additional analysis capabilities can be added by selecting particular electrodes or add materials that may react with chemical components of the moisture. Applications of the research Include monitor of incontinence using smart brief (e.g. diaper); monitor perspiration, bleeding, or failure of the protective garment; and monitoring exposure of an item to moisture, including but not limited to inanimate items.

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: An embroidery machine with on-board electronics executing layout and alignment software provides for automated thread installation to establish textile-to-pad contact through the use of anisotropic conductive threads characterized by electrically conductive segments alternating with electrically insulating segments. Present embodiments provide for garments or other fabrics and textiles having flexible circuits integrated on a flexible substrate that bends and moves with the garment in a way not seen with stiff printed circuit boards, which may include multiple textile circuits attached to fabric to impart desired electronic features including connectivity to a printed circuit board external to a garment formed according to the present embodiments, as well as imparting electrical conductivity across seams of a garment sewn together from fabric, while maintaining electrical integrity of neighboring circuits on the same garment.

Abstract: The invention provides modified griffithsin polypeptides comprising the amino acid sequence of SEQ ID NO: 1, as well as corresponding nucleic acids, vectors, cells, fusion proteins, constructs, conjugates, and methods of inhibiting viral infection.

Abstract: Various methods for detecting moisture in briefs compatible with high volume manufacturing are disclosed. The embodiments herein facilitate protection of the method of adding moisture sensing to a diaper, but could also be used to add sensing to pads and bandages. The primary design intent is optimal moisture detection and low per unit cost. Electrodes within a garment measure electrical properties of the electrodes to determine if the item has contacted moisture. The target moisture is urine, however, other sources and types of moisture can also be sensed. Additional analysis capabilities can be added by selecting particular electrodes or add materials that may react with chemical components of the moisture. Applications of the research Include monitor of incontinence using smart brief (e.g. diaper); monitor perspiration, bleeding, or failure of the protective garment; and monitoring exposure of an item to moisture, including but not limited to inanimate items.

Abstract: A linear compressor and methods of operation, for example, to detect polarity for the linear compressor are provided herein. The method may include supplying an initial time varying voltage to the motor of the linear compressor at an assumed polarity; estimating a first acceleration of the motor of the linear compressor when the motor is at a bottom dead center position; estimating a second acceleration of the motor of the linear compressor when the motor is at a top dead center position; comparing the first acceleration to the second acceleration; and determining whether the assumed polarity is correct based on the comparison.

Abstract: A method for synthesizing carbon nanocages, including N-doped carbon nanocages, includes a first step of forming a solution including a metal salt and an organic carbon source; a second step of drying the solution to obtain a precursor powder; and a third step of annealing the precursor powder to obtain a nanocage including a metal nanoparticle surrounded by a carbon shell. The metal nanoparticle is then removed from the carbon shell by applying an acid solution.

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 diagnosing a cancer in a subject are provided in which a biological sample is provided from a subject including one or more exosomes. The exosomes are isolated from the biological sample and are used to identify a type and/or amount of one or more tumor suppressor miRNAs encapsulated by the exosomes. A measurable difference in the type and/or amount of the tumor suppressor miRNAs as compared to control levels allows for a diagnosis of cancer in the subject. Methods of selecting or modifying a treatment and methods for determining whether to initiate or continue prophylaxis or treatment for a cancer based on the exosomal miRNAs is further provided.

Abstract: Some embodiments of the invention include inventive compounds (e.g., compounds of Formula (I) or (Ia)). Other embodiments include compositions (e.g., pharmaceutical compositions) comprising the inventive compound. Still other embodiments of the invention include compositions (e.g., pharmaceutical compositions) for treating, for example, certain diseases using the inventive compounds. Some embodiments include methods of using the inventive compound (e.g., in compositions or in pharmaceutical compositions) for administering and treating (e.g., diseases such as cancer). Further embodiments include methods for making the inventive compounds. Additional embodiments of the invention are also discussed herein.

Abstract: Embodiments of the present invention relate to a novel approach to automatically detect the occurrence of evoked potentials, quantify the attributes of the signal and visualize the effect across a high number of spinal cord epidural stimulation parameters. This new method is designed to automate the current process for performing this task that has been accomplished manually by data analysts through observation of the raw EMG signals, which is laborious and time-consuming as well as being prone to human errors. The proposed method provides fast and accurate framework for activation detection and visualization of the results within five main algorithms.

Abstract: Various methods for detecting moisture in briefs compatible with high volume manufacturing are disclosed. The embodiments herein facilitate protection of the method of adding moisture sensing to a diaper, but could also be used to add sensing to pads and bandages. The primary design intent is optimal moisture detection and low per unit cost. Electrodes within a garment measure electrical properties of the electrodes to determine if the item has contacted moisture. The target moisture is urine, however, other sources and types of moisture can also be sensed. Additional analysis capabilities can be added by selecting particular electrodes or add materials that may react with chemical components of the moisture. Applications of the research Include monitor of incontinence using smart brief (e.g. diaper); monitor perspiration, bleeding, or failure of the protective garment; and monitoring exposure of an item to moisture, including but not limited to inanimate items.

Abstract: Copper inks are provided that include a plurality of core-shell nanostructures, with each nanostructure including a copper core and a barrier metal shell, a diameter of less than about 500 nm, and a distinct boundary between the copper core and the barrier metal shell. Methods of forming a copper ink are further provided and include an initial step of synthesizing an amount of copper nanoparticles in an aqueous solution. An amount of a barrier metal is then added to the copper nanoparticles to form a dispersion of the barrier metal and the copper nanoparticles, and a reducing agent is subsequently added to the dispersion to produce a copper ink comprising core-shell nanostructures having a copper core and a barrier metal shell. Copper films are then formed by applying that copper ink to a substrate and sintering the copper ink.

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: Methods for treating intestinal inflammation and/or colon cancer include administering an amount of a broccoli-derived nanoparticle to a subject in need thereof. Pharmaceutical compositions comprising broccoli-derived nanoparticles are also provided. Further provided are methods for screening for a compound useful for treating a colon cancer that include the steps of contacting a provided intestinal epithelial cell with a test compound and measuring an amount of expression of COP9 signalsome subunit 8 (CSN8) in the intestinal epithelial cell to thereby identify the test compound as useful for treating colon cancer.

Abstract: A bone graft composition includes a biologically-resorbable cement and a plurality of processed bone particles, where each of the bone particles have a shape configured to interconnect with adjacent bone particles. A method for treating a bone defect using the bone graft compositions includes providing the bone graft composition and administering an effective amount of the bone graft composition to a site of a bone defect in a subject. Kits including a biologically-resorbable cement powder and a plurality of processed bone particles are also provided.

Abstract: An atrial appendage closure device is provided that includes an insertion rod having a first end and a second end. An occluding member having an outer surface and an inner surface is connected to the first end of the insertion rod. The occluding member is moveable between a retracted position and a deployed position such that, in the deployed position, the occluding member is configured to provide a seal between a left atrial appendage and a left atrium of a heart. An anchoring member is further connected to the insertion rod and is configured to slide along the insertion rod to secure the device to a wall of a left atrial appendage. Methods for occluding a left atrial appendage that make use of the closure devices are also provided.

Abstract: The present technology relates to compounds and compositions of Formulas I-III and methods using such compounds. The compounds and compositions described herein may be used in the treatment or prophylaxis of diseases associated with an alphavirus, for example, Venezuelan equine encephalitis virus (VEEV).

Abstract: Systems and methods for diagnosing prostate cancer. Image sets (e.g., MRI collected at one or more b-values) and biological values (e.g., prostate specific antigen (PSA)) have features extracted and integrated to produce a diagnosis of prostate cancer. The image sets are analyzed primarily in three steps: (1) segmentation, (2) feature extraction, smoothing, and normalization, and (3) classification. The biological values are analyzed primarily in two steps: (1) feature extraction and (2) classification. Each analysis results in diagnostic probabilities, which are then combined to pass through an additional classification stage. The end result is a more accurate diagnosis of prostate cancer.