Abstract: A layer manufacturing apparatus comprising: (a) a main chamber; (b) one or more energy emission devices; (c) one or more work piece supports; (d) a plurality of material delivery devices; wherein the plurality of material delivery devices are connected to one or more spools that are located external of the main chamber.

Abstract: Structures, for example fibrous structures, such as absorbent material, for example absorbent core material including particles, for example super absorbent polymer particles (SAP particles), and processes for making same are provided.

Abstract: A synthetic nutritional composition for human consumption is described comprising a whey protein concentrate from bovine milk, wherein the whey protein concentrate comprises: a milk fat content of between 6.5 to 10.0 wt %, wherein the milk fat contains components of milk fat globule membranes that provide at least 7 mg/g of sphingomyelin to the whey protein concentrate; and wherein the majority of the sphingomyelin in the synthetic nutritional composition is provided by the components of the milk fat globule membranes of the whey protein concentrate. Methods of making same are also described.

Abstract: A choking intervention device for clearing a foreign object obstructing a breathing passage of a choking victim includes an assembly of one or more hollow vessels and a facemask configured to enclose a person's mouth and nose. The assembly includes a plurality of vessels configured to create a low-pressure environment within the assembly. The assembly contains a bottom opening which provides access to the low-pressure interior. The facemask is coupled to the bottom of the assembly and is configured to enclose the choking victim's mouth and nose. The body of the assembly is further of proper size and shape to allow an ordinary individual the ability to hold and use the assembly with one hand. Operation of this device has the unique advantage of pressing toward the victim which facilitates the creation of an airtight seal between the facemask and the victim's face.

Abstract: Described herein are methods, systems, and compositions for non-invasively diagnosing or detecting a skin disease or disorder. Diagnosing or detecting a non-melanoma skin cancer (e.g., squamous cell carcinoma or basal cell carcinoma) as provided herein comprises detecting and/or comparing gene expression levels of identified genes. Methods, systems, and compositions are also described for differentiation of non-melanoma skin cancer (NMSC) from other diseases, such as actinic keratosis (AK).

Abstract: In providing USB communication functionality over a non-USB-compliant extension medium, increased latency and processing delays may be introduced, including during configuration of endpoints. In some embodiments of the present disclosure, an upstream facing port device (UFP device) and a downstream facing port device (DFP device) are used to extend USB communication across an extension medium. In some embodiments, the UFP device extracts information from packets sent between a host device and a USB device during configuration of an endpoint. In some embodiments, the UFP device sends a synthetic NRDY packet to the host device in response to a STATUS Transaction Packet to provide the UFP device and DFP device additional time to complete configuration for servicing the endpoint.

Abstract: Various examples described herein include various mechanisms, techniques, and methods to control atmospheric effects in a venue. For example, a method for controlling atmospheric effects in a venue is disclosed. The method includes querying and receiving a number of particulate sensors; analyzing particulate sensor-data received from the plurality of particulate sensors; making a determination whether the particulate sensor-data substantially agrees with a pre-determined target level of an environmental effect; and based on a determination that the particulate sensor-data does not agree substantially with the pre-determined target level of the environmental effect, sending a command signal to one or more haze generators to vary a haze production level; and based on a determination that the particulate sensor-data does agree substantially with the pre-determined target level of the environmental effect, making a determination whether additional haze sequences remain to be completed within the venue.

Abstract: An IMS device is provided that includes at least one surface, first and second pluralities of electrodes disposed on the surface, and an ion path having first and second accumulation regions and a separation region. The IMS device is configured to receive, guide, temporally separate, and discharge ions. Each accumulation region is configured to switch between accumulation and release states in which ions are accumulated and released therefrom, respectively. The separation region is positioned downstream of the first accumulation region and configured to temporally separate ions based on mobility. The first accumulation region is synchronized with a downstream mass filter while the second accumulation region is dependent upon the state of a gating element, which is positioned downstream of the IMS device and configured to control the flow of ions to a mass analyzer. A method in accordance with the foregoing is also provided.

Abstract: Described herein are methods, systems, and compositions for non-invasively diagnosing or detecting a skin disease or disorder. Diagnosing or detecting a non-melanoma skin cancer as provided herein comprises detecting gene expression levels of a set of identified genes and in some instances further detecting mutations in a gene of interest.

Abstract: Compositions are provided for dissolvable solid unit dose formulations that can be used with a wand apparatus to clean a toilet surface. The formulations include anionic surfactant, a carbonate or bicarbonate salt, an organic acid, and virgin soap pellets wherein a ratio of the virgin soap pellets to the surfactant is from about 0.5:1 to about 2:1, preferably about 1:1 to about 1.5:1, and most preferably about 1.2:1 to 1.3:1. Compressed compositions retain sufficient hardness to facilitate cleaning a toilet surface but are still able to have a time to breakage when submerged in toilet water of less than 5 minutes to enable easy disposal by flushing with toilet water.

Abstract: Methods and apparatus for ion accumulation are disclosed. An apparatus for ion accumulation includes multiple regions. A first region receives and transfers ions to a second region using a first drive potential. The second region is switchable between a first state where it generates a first electric field preventing ions from further movement and entering a third region, and a second state where it generates a second electric field that guides the ions toward the third region. When in the first state, the ions are prevented from further movement by the first electric field, which causes the ions to accumulate in the second region. When in the second state, the ions are moved from the second region to the third region by the second electric field. A method of accumulating ions involves switching an electric field applied to a region between a trap state and a release state.

Abstract: An apparatus for ion manipulation having improved duty cycle that includes a pre-filter region and an accumulation region. The pre-filter region is configured to receive ions and perform a first ion mobility filtering operation on the ions to separate the ions into a first group of ions and a second group of ions based on mobility of the ions. The accumulation region is configured to receive the first group of ions from the pre-filter region, accumulate the first group of ions into an ion packet, and release the ion packet into an ion mobility separation region configured separate the ions based on mobility of the ions. Wherein the pre-filter region is configured to reduce the amount of ions provided to the accumulation region and increase the amount of time the accumulation region can accumulate ions.

Abstract: Described herein are compositions composed of micronized placental components and pharmaceutical compositions thereof. The compositions have numerous medical applications. Methods for making and using the micronized compositions are also described herein.

Abstract: Aspects of the present disclosure relate generally to methods, compositions, and kits for in situ whole cell or single cell barcoding. Aspects of the present disclosure also include a computer readable-medium and a processor to carry out the steps of the method described herein. In some embodiments, the disclosure relates to whole cell or single cell barcoding performed in situ.

Abstract: Fibrous structures containing filaments and solid additives, and more particularly to fibrous structures containing filaments and solid additives wherein the fibrous structure has three or more regions that exhibit different characteristics and/or properties and methods for making same, are provided.

Abstract: A speech recognition platform configured to receive an audio signal that includes speech from a user and perform automatic speech recognition (ASR) on the audio signal to identify ASR results. The platform may identify: (i) a domain of a voice command within the speech based on the ASR results and based on context information associated with the speech or the user, and (ii) an intent of the voice command. In response to identifying the intent, the platform may perform a corresponding action, such as streaming audio to the device, setting a reminder for the user, purchasing an item on behalf of the user, making a reservation for the user or launching an application for the user. In some instances, the speech recognition platform engages in a back-and-forth dialog with the user in order to properly fulfill the user's request.

Abstract: Catalytic elements are usable in waste gas control processes. The catalytic elements include an open inlet into a hollow body and a closed end thereby forcing fluid or gas through a porous catalytic layer of the element. The catalytic layer includes inorganic fibers and a catalyst disposed on or incorporated into the fibers. The catalytic element also includes an inductive heater disposed therein and a conductive layer about the inductive heater to transfer heat to the catalyst and fluid or gas.

Abstract: Fibrous structures containing filaments and optionally, solid additives, wherein the pre-moistened fibrous structures exhibit wet compressive modulus values that are superior to known pre-moistened fibrous structures as measured according to the Wet Compressive Modulus Test Method described herein and methods for making same are provided.

Abstract: Compositions comprising translucent, dehydrated placental tissue and methods of preparing and using those tissues are provided. Repeated dehydration techniques may produce translucent, dehydrated placental tissues, including translucent, dehydrated placental membrane and umbilical cord, with improved visualization and/or handling characteristics. The present invention also includes methods of healing a wound of the skin, eye, nerve, tendon, muscle, dental region, or dura, including burns, comprising applying the translucent, dehydrated placental tissues of the invention to the wound.

Abstract: A system for capturing full resolution ion mobility data includes an ion mobility separation device that receives ions, guides a portion thereof, and separates the guided ions based on mobility. An ion detector receives the ions, detects ions having a predefined mass-to-charge ratio during a time period, and generates a responsive signal(s). A data acquisition system receives the signal(s) from the detector and generates a time dependent ion signal representing intensity of the signal(s) at different arrival time periods during the time period. A system for performing multi-analyte targeted data acquisition includes an ion mobility separation device that receives a stream of ions, guides a portion of the ions, and separates the ions based on mobility. An ion detector receives the ions and switches from detecting a first mass-to-charge ratio during a first arrival time to detecting a second mass-to-charge ratio during a second arrival time of a first scan.