Abstract: Devices and methods for personalized real time optical remapping of streamed content are provided. The personalized optical remapping can correct for a wide variety of visual deficiencies or preferences by manipulating visual and spatial elements of streamed content. A device for presenting a personalized visual feed to a user includes a sensor module for detecting a visual input and providing a visual feed, a transformation module performing a computational transformation, selected according to a visual deficit or personal preference of the user, on at least a portion of the visual feed producing a personalized visual feed, and a visual display presenting the personalized visual feed to the user.

Abstract: Described embodiments include a system, method, and computer program product. In a described system, a receiver circuit receives at least two reference images of a patient body part. Each reference image includes a respective landmark subsurface feature of the patient body part, and each imaged landmark subsurface feature has a respective spatial relationship to a respective region of a surface of the patient body part imaged during a medical examination. A feature matching circuit determines a correspondence between (x) each atlas landmark subsurface feature of the patient body part included in a landmark subsurface feature atlas and (y) each respective imaged landmark subsurface feature. A reporting circuit generates informational data reporting a depiction of an area of the surface of the patient body part by at least two adjacent imaged regions of the surface of the patient body part. A communication circuit outputs the informational data.

Abstract: A method may include automatically remotely identifying at least one characteristic of an individual via facial recognition; and providing a display for the individual, the display having a content at least partially based on the identified at least one characteristic of the individual. A system may include a facial recognition module configured for automatically remotely identifying at least one characteristic of an individual via facial recognition; and a display module coupled with the facial recognition module, the display module configured for providing a display for the individual, the display having a content at least partially based on the identified at least one characteristic of the individual.

Abstract: The disclosed Hi-C protocol can identify genomic loci that are spatially co-located in vivo. These spatial co-locations may include, but are not limited to, intrachromosomal interactions and/or interchromosomal interactions. Hi-C techniques may be applied to many different scales of interest. For example, on a large scale, Hi-C techniques can be used to identify long-range interactions between distant genomic loci.

Abstract: Disclosed is an in situ method for detecting spatial proximity relationships between nucleic acid sequences, such as DNA, in a cell. The method includes: providing a sample of one or more cells comprising nucleic acids; fragmenting the nucleic acids present in the cells that leaves 5? overhanging ends; filling in the overhanging ends with at least one labeled nucleotide; joining the filled in end of the fragmented nucleic acids that are in close physical proximity to create one or more end joined nucleic acid fragments having a junction; isolating the one or more end joined nucleic acid fragments using the labeled nucleotide; and determining the sequence at the junction of the one or more end joined nucleic acid fragments.

Abstract: Systems, devices, admixtures, and methods are described including transponder devices (e.g., a palatable transponder, an edible transponder, a palatable radio frequency identification (RFID) tag, an edible RFID tag, etc.) for admixing with a food product.

Abstract: A system may produce images including narrow-bandwidth colors. One or more sets of the narrow-bandwidth colors may be selected to be interpreted as substantially a same color by a user. The system may include a light source configured to produce the narrow-bandwidth colors, and/or narrow-passband filters may create narrow-bandwidth colors from light emitted by broad-spectrum light sources or color sources. Spatial and/or time multiplexing may be used to create separate narrow-bandwidth colors interpreted as substantially a same color by the user. For example, the light source and/or the narrow-passband filter elements may be adjustable and may alternate between emission of two or more narrow-bandwidth colors. A viewing device may include filters allowing the user to selectively filter the narrow-bandwidth colors. The user may filter the narrow-bandwidth colors to separate a stereoscopic image pair, to view a user-specific image, to view desired content obfuscated by an obfuscating image, and/or the like.

Abstract: The disclosed Hi-C protocol can identify genomic loci that are spatially co-located in vivo. These spatial co-locations may include, but are not limited to, intrachromosomal interactions and/or interchromosomal interactions. Hi-C techniques may be applied to many different scales of interest. For example, on a large scale, Hi-C techniques can be used to identify long-range interactions between distant genomic loci.

Abstract: Systems, devices, methods, and compositions are described for providing an x-ray shielding system including a flexible layer including a support structure having a plurality of interconnected interstitial spaces that provide a circulation network for an x-ray shielding fluid composition.

Abstract: A person's fall risk may be determined based on machine learning algorithms. The fall risk information can be used to notify the person and/or a third party monitoring person (e.g. doctor, physical therapist, personal trainer, etc.) of the person's fall risk. This information may be used to monitor and track changes in fall risk that may be impacted by changes in health status, lifestyle behaviors or medical treatment. Furthermore, the fall risk classification may help individuals be more careful on the days they are more at risk for falling. The fall risk may be estimated using machine learning algorithms that process data from load sensors by computing basic and advanced punctuated equilibrium model (PEM) stability metrics.

Abstract: A described system includes a feature matching circuit that determines a correspondence between a present-location landmark subsurface feature of a body part of an individual patient and a candidate reference landmark subsurface feature of the individual patient body part. The present-location landmark subsurface feature has a first spatial relationship to a distal end portion of a body-insertable device deployed in the individual patient. The candidate reference landmark subsurface feature has a second spatial relationship to a particular selected target region of interest of at least two selected target regions of interest. An event data circuit generates data indicative of a proximity event that includes the distal end portion of a body-insertable device being proximate to the particular target region of interest. A list management circuit adds the proximity event to a proximity event list. A computer-readable media maintains informational data corresponding to the proximity event list.

Abstract: The disclosed Hi-C protocol can identify genomic loci that are spatially co-located in vivo. These spatial co-locations may include, but are not limited to, intrachromosomal interactions and/or interchromosomal interactions. Hi-C techniques may be applied to many different scales of interest. For example, on a large scale, Hi-C techniques can be used to identify long-range interactions between distant genomic loci.

Abstract: Embodiments disclosed herein relate to methods, devices, and computer systems thereof for visibly or non-visibly indicating a subject has received a medical treatment. In certain embodiments, a subject receives an information mark in conjunction with a medical treatment. In certain embodiments, the information mark includes unique information relating to the subject. In certain embodiments, devices, computer systems, and methods relate to reading an information mark on a subject, and optionally determining if further medical treatment of the subject is warranted. In certain embodiments, receipt of an information mark entitles a subject to a reward.

Abstract: The disclosed Hi-C protocol can identify genomic loci that are spatially co-located in vivo. These spatial co-locations may include, but are not limited to, intrachromosomal interactions and/or interchromosomal interactions. Hi-C techniques may be applied to many different scales of interest. For example, on a large scale, Hi-C techniques can be used to identify long-range interactions between distant genomic loci.

Abstract: Systems, devices, methods, and compositions are described for providing an x-ray shielding system including a flexible layer including a support structure having a plurality of interconnected interstitial spaces that provide a circulation network for an x-ray shielding fluid composition.

Abstract: Disclosed are methods for detecting spatial proximity relationships between nucleic acid sequences in a cell. The methods include: providing a sample of one or more cells comprising nucleic acids; fragmenting the nucleic acids present in the cells, wherein the fragmented nucleic acids have ends capable of joining to other fragmented nucleic acids; joining ends of fragmented nucleic acids to other ends fragmented nucleic acid to create at least one nucleic acid concatemer having at least one junction between the joined fragmented nucleic acids, and wherein the at least one nucleic acid concatemer encodes the information about the proximity of the DNA sequences in the cell; and determining the sequence at least one junction of the at least one nucleic acid concatemer, thereby detecting spatial proximity relationships between nucleic acid sequences in a cell.

Abstract: Embodiments disclosed herein relate to methods, devices, and computer systems thereof for visibly or non-visibly indicating a subject has received a medical treatment. In certain embodiments, a subject receives an information mark in conjunction with a medical treatment. In certain embodiments, the information mark includes unique information relating to the subject. In certain embodiments, devices, computer systems, and methods relate to reading an information mark on a subject, and optionally determining if further medical treatment of the subject is warranted. In certain embodiments, receipt of an information mark entitles a subject to a reward.

Abstract: Disclosed is a method for detecting spatial proximity relationships between RNA and DNA molecules in a cell. The method includes: providing a sample of RNA and DNA wherein the RNA and fDNA have ends capable of joining to other DNA and RNA, respectively; joining at least one end of the fragmented RNA to the end of at least one fragmented DNA, to create at least one joined RNA-DNA hybrid molecule, wherein the join encodes the information about the proximity of the RNA and DNA in the cell; reverse transcribing the at least one joined rRNA-DNA hybrid molecule to create least one target join DNA molecule that retains the information of the join, and determining the sequence of the target join thereby detecting spatial proximity relationships between RNA and DNA molecules in a cell.

Abstract: Certain embodiments described herein relate to expandable, reversible implants. In an embodiment, the implants are controllable by way of at least one biochemical, chemical, or physical means. In an embodiment, the implants are programmable and/or pre-programmed for a particular level of expansion and/or contraction. In an embodiment, the implants are controlled remotely from a control source that is external to the subject's body.

Abstract: Certain embodiments described herein relate to expandable, reversible implants. In an embodiment, the implants are controllable by way of at least one biochemical, chemical, or physical means. In an embodiment, the implants are programmable and/or pre-programmed for a particular level of expansion and/or contraction. In an embodiment, the implants are controlled remotely from a control source that is external to the subject's body.