TOKITAE LLC Patent applications |
Patent application number | Title | Published |
20150359708 | AFFIXED GROUPS OF PHARMACEUTICAL VIALS INCLUDING FRANGIBLE CONNECTORS - In some embodiments, an affixed group of pharmaceutical vials with frangible connectors includes: a plurality of pharmaceutical vials arranged as a group of pharmaceutical vials, each of the plurality of pharmaceutical vials shaped and positioned to minimize a total volume of the group of pharmaceutical vials, each of the pharmaceutical vials including at least one external side with a surface configured to reversibly mate with a corresponding external side and a surface of an adjacent pharmaceutical vial; and a plurality of frangible connectors, wherein at least one frangible connector is affixed to the surface of at least two of the plurality of pharmaceutical vials within the group of pharmaceutical vials, and at least one frangible connector is affixed to each of the plurality of pharmaceutical vials. | 12-17-2015 |
20150233617 | REFRIGERATION DEVICES INCLUDING TEMPERATURE-CONTROLLED CONTAINER SYSTEMS - In some embodiments, a refrigeration device includes: walls substantially forming a liquid-impermeable container configured to hold phase change material internal to a refrigeration device; at least one active refrigeration unit including a set of evaporator coils positioned within an interior of the liquid-impermeable container; walls substantially forming a storage region; and a heat transfer system including a first group of vapor-impermeable structures with a hollow interior connected to form a condenser in thermal contact with the walls substantially forming a liquid-impermeable container, a second group of vapor-impermeable structures with a hollow interior connected to form an evaporator in thermal contact with the walls substantially forming a storage region, and a connector with a hollow interior affixed to both the condenser and the evaporator, the connector forming a liquid and vapor flow path between the hollow interior of the condenser and the hollow interior of the evaporator. | 08-20-2015 |
20150211950 | METHODS, SYSTEMS, AND DEVICES FOR POSITIVE PRESSURE PHARMACEUTICAL VIALS - Methods, systems, and devices are described for calculating a push pressure for a pharmaceutical vial with a syringe, the method including accepting data regarding at least one parameter of the pharmaceutical vial, at least one parameter of a vial cap with a seal, at least one parameter of the syringe, and a single dose volume of a liquid pharmaceutical; calculating a volume of headspace over the liquid pharmaceutical with a computing device; calculating an ejection pressure based on the single dose volume of the liquid pharmaceutical and the volume of headspace; calculating a motive pressure based on a static force and a cross-sectional area of the syringe; defining the push pressure as the greater of the ejection pressure or the motive pressure; and reporting the push pressure to a user. The method further includes calculating a molar amount of inert gas needed in the pharmaceutical vial to generate the calculated push pressure. | 07-30-2015 |
20150159924 | Storage Apparatuses and Related Methods for Storing Temperature-Sensitive Items - Embodiments disclosed herein relate to apparatuses and methods for storing temperature-sensitive items. More specifically, embodiments include a storage apparatus that may store the temperature-sensitive items. For example, the storage apparatus may include a storage compartment that may be maintained at a predetermined temperature or temperature range. | 06-11-2015 |
20150135920 | DEVICES, METHODS, AND SYSTEMS FOR COLLECTION OF INSECT SALIVARY GLANDS - The present disclosure relates to devices, methods and systems that may be used to collect insect salivary glands. In some embodiments, the devices, methods, and systems may be used to collect salivary glands from a mosquito. | 05-21-2015 |
20150112490 | METHODS AND SYSTEMS TO ALTER THE PERMEABILITY OF A BIOLOGICAL OBJECT - The present disclosure relates to methods and systems that may be used to alter the permeability of a biological object. In some embodiments, the methods and systems may be used to alter the permeability of a non-human embryo. In some embodiments, the methods and systems may be used to alter the permeability of an insect embryo. In some embodiments, the methods and systems may be used to alter the permeability of a mosquito embryo. | 04-23-2015 |
20150069692 | SYSTEMS AND METHODS FOR INSECT DISSECTION - The present disclosure relates to devices, systems, and methods that may be used to dissect insects. In some embodiments, the systems, devices, and methods may be used to isolate insect salivary glands. In some embodiments, the systems, devices, and methods may be used to isolate mosquito salivary glands. In some embodiments, the systems, devices, and methods may be used to collect mosquito salivary glands. | 03-12-2015 |
20150027157 | TEMPERATURE-CONTROLLED MEDICINAL STORAGE DEVICES - In some embodiments, a medicinal storage container includes: a desiccant unit including external walls forming a gas-impermeable barrier around an interior desiccant region and including an aperture; a heating element; a controller operably attached to the heating element; a cooling unit; a compressor system including at least one evaporator coil unit, the compressor operably connected to the controller; a vapor conduit, the vapor conduit attached to a the desiccant unit at a first end, the vapor conduit attached to the evaporative cooling unit at a second end, the vapor conduit forming an internal, gas-impermeable passageway between the desiccant unit and the cooling unit; a vapor control unit attached to the vapor conduit and operably attached to the controller; and a medicinal storage unit including external walls encircling a medicinal storage region including a temperature sensor operably connected to the controller. | 01-29-2015 |
20150021288 | MULTI-COMPARTMENT PHARMACEUTICAL VIALS - Multi-compartment pharmaceutical vials are described. In some embodiments, a multi-compartment pharmaceutical vial includes: a multi-compartment pharmaceutical storage region including a bottom wall, at least one outer wall and at least one interior wall, the bottom wall, the at least one outer wall and the at least one interior wall forming a plurality of pharmaceutical storage compartments, each pharmaceutical storage compartment including an aperture positioned opposite to the bottom wall of the pharmaceutical storage region; and an access region attached to the pharmaceutical storage region, the access region including a plurality of conduits, each with a first end and a second end, wherein the first end of each conduit is connected to one aperture in a pharmaceutical storage compartment, and the second end of each conduit circumscribes an aperture positioned opposite to the bottom wall. | 01-22-2015 |
20140362302 | SYSTEMS, DEVICES, AND METHODS INCLUDING A DARK-FIELD REFLECTED-ILLUMINATION APPARATUS - Systems, devices, and methods are described that modulate a specimen-background dark-field micrograph contrast. | 12-11-2014 |
20140118555 | Systems, Devices, and Methods Employing Angular-Resolved Scattering and Spectrally Resolved Measurements for Classification of Objects - Systems, devices, and methods are described for identifying, classifying, differentiating, etc., objects. For example a hyperspectral imaging system can include a dark-field module operably coupled to at least one of an optical assembly, a dark-field illuminator, and a hyperspectral imaging module. The dark-field module can include circuitry having one or more sensors operable to acquire one or more dark-field micrographs associated with scattered electromagnetic energy from an object interrogated by the dark-field interrogation stimulus. The hyperspectral imaging module can be operably coupled to the dark-field module, and can include circuitry configured to generate an angular-resolved and spectrally resolved scattering matrix based on the one or more dark-field micrographs of the object. | 05-01-2014 |
20140118525 | Systems, Devices, and Methods Employing Angular-Resolved Scattering and Spectrally Resolved Measurements for Classification of Objects - Systems, devices, and methods are described for identifying, classifying, differentiating, etc., objects. For example a hyperspectral imaging system can include a dark-field module operably coupled to at least one of an optical assembly, a dark-field illuminator, and a hyperspectral imaging module. The dark-field module can include circuitry having one or more sensors operable to acquire one or more dark-field micrographs associated with scattered electromagnetic energy from an object interrogated by the dark-field interrogation stimulus. The hyperspectral imaging module can be operably coupled to the dark-field module, and can include circuitry configured to generate an angular-resolved and spectrally resolved scattering matrix based on the one or more dark-field micrographs of the object. | 05-01-2014 |
20140057073 | MULTI-LAYER INSULATION COMPOSITE MATERIAL HAVING AT LEAST ONE THERMALLY-REFLECTIVE LAYER WITH THROUGH OPENINGS, STORAGE CONTAINER USING SAME, AND RELATED METHODS - In an embodiment, a multi-layer insulation (MLI) composite material includes a first thermally-reflective layer and a second thermally-reflective layer spaced from the first thermally-reflective layer. At least one of the first or second thermally-reflective layers includes a plurality of through openings configured to at least partially obstruct transmission therethrough of infrared electromagnetic radiation having a wavelength greater than a threshold wavelength. A region between the first and second thermally-reflective layers impedes heat conduction between the first and second thermally-reflective layers. Other embodiments include a storage container including a container structure that may be at least partially formed from such MLI composite materials, and methods of using such MLI composite materials. | 02-27-2014 |
20140053970 | MULTI-LAYER INSULATION COMPOSITE MATERIAL HAVING AT LEAST ONE THERMALLY-REFLECTIVE LAYER WITH THROUGH OPENINGS, STORAGE CONTAINER USING SAME, AND RELATED METHODS - In an embodiment, a multi-layer insulation (MLI) composite material includes a first thermally-reflective layer and a second thermally-reflective layer spaced from the first thermally-reflective layer. At least one of the first or second thermally-reflective layers includes a plurality of through openings configured to at least partially obstruct transmission therethrough of infrared electromagnetic radiation having a wavelength greater than a threshold wavelength. A region between the first and second thermally-reflective layers impedes heat conduction between the first and second thermally-reflective layers. Other embodiments include a storage container including a container structure that may be at least partially formed from such MLI composite materials, and methods of using such MLI composite materials. | 02-27-2014 |
20140019503 | INTERPOLATING A PORTION OF A SIGNAL IN RESPONSE TO A COMPONENT OF ANOTHER SIGNAL - An embodiment of an apparatus includes a component determiner configured to determine a component of a first signal, and an interpolator configured to interpolate a portion of a second signal in response to the component of the first signal. For example, such an apparatus may include periodic- and aperiodic-component determiners, and an interpolator. Where the first signal is a function of time and the portion of the second signal is empty, the periodic-component determiner is configured to convert the first signal into a transformed frequency-domain signal, and to convert the transformed signal into a time-domain periodic component of the first signal. The aperiodic-component determiner is configured to determine an aperiodic component of the first signal in response to the first signal and the periodic component thereof, and the interpolator is configured to interpolate the empty portion of the second signal in response to the aperiodic component of the first signal. | 01-16-2014 |
20140019065 | INTERPOLATING A PORTION OF A SIGNAL IN RESPONSE TO A COMPONENT OF ANOTHER SIGNAL - An embodiment of an apparatus includes a first component determiner configured to determine a component of a first signal, and an interpolator configured to interpolate a portion of the second signal in response to the component of the first signal. For example, such an apparatus may include an altitude-component determiner and an interpolator. The altitude-component determiner is configured to determine an altitude component of a first signal, and the interpolator is configured to interpolate an altitude component of a second signal in response to the altitude component of the first and to interpolate an empty portion of the second signal in response to the interpolated altitude component of the second signal. | 01-16-2014 |
20140019048 | INTERPOLATING A PORTION OF A SIGNAL IN RESPONSE TO A COMPONENT OF THE SIGNAL AND A COMPONENT OF ANOTHER SIGNAL - An embodiment of an apparatus includes a first component determiner configured to determine a component of a first signal, a second component determiner configured to determine a component of a second signal, and an interpolator configured to interpolate a portion of the second signal in response to the components of the first and second signals. For example, such an apparatus may include an altitude-component determiner, a lapse-rate-component determiner, and an interpolator. The altitude-component determiner is configured to determine an altitude component of a first signal, and the lapse-rate-component determiner is configured to determine a lapse-rate component of a second signal having an empty portion. And the interpolator is configured to interpolate an altitude component of the second signal in response to the altitude component of the first signal, and to interpolate the empty portion of the second signal in response to the lapse-rate and altitude components of the second signal. | 01-16-2014 |
20140012544 | DETERMINING PORTIONS OF MULTIPLE SIGNALS ACCORDING TO RESPECTIVE ALGORITHMS - An embodiment of an apparatus is configured to determine a portion of a first signal according to a first algorithm, and to determine a portion of a second signal according to a second algorithm. For example, such an apparatus may include an analyzer and a determiner, where the analyzer is configured to indicate whether the portion of the first signal meets a first criterion and whether the portion of the second signal meets a second criterion, and where the determiner is configured to determine the portion of the first signal according to the first algorithm in response to the analyzer indicating that the portion of the first signal meets the first criterion, and to determine the portion of the second signal according to the second algorithm in response to the analyzer indicating that the portion of the second signal meets the second criterion. | 01-09-2014 |
20140012533 | INTERPOLATING A PORTION OF A SIGNAL IN RESPONSE TO MULTIPLE COMPONENTS OF THE SIGNAL - An embodiment of an apparatus includes first and second component determiners configured to determine, respectively, first and second components of a signal, and includes an interpolator configured to interpolate a portion of the signal in response to the first and second components. For example, where the portion of the signal is empty, such an apparatus may include a periodic-component determiner, an aperiodic-component determiner, and an interpolator. The periodic-component determiner is configured to convert the signal into a frequency-domain transformed signal, and to convert the transformed signal into a time-domain periodic component of the signal, the periodic component having a periodic-component portion that corresponds to the empty portion of the signal. The aperiodic-component determiner is configured to determine, statistically, an aperiodic component of the signal, and the interpolator is configured to interpolate the empty portion of the signal in response to the periodic and aperiodic components of the signal. | 01-09-2014 |
20130119072 | TEMPERATURE-STABILIZED STORAGE CONTAINERS FOR MEDICINALS - Systems include integrally sealed medicinal storage containers, including one or more segments of an ultra efficient insulation material, the one or more segments having one or more surface regions, the one or more segments principally defining at least one storage region, and one or more regions of substantially thermally sealed connections between at least one of the one or more surface regions of the one or more segments wherein the one or more regions of substantially thermally sealed connections and the one or more segments form an integrally thermally sealed medicinal storage region. | 05-16-2013 |
20130119071 | TEMPERATURE-STABILIZED STORAGE CONTAINERS FOR MEDICINALS - Systems include integrally sealed medicinal storage containers, including one or more segments of an ultra efficient insulation material, the one or more segments having one or more surface regions, the one or more segments principally defining at least one storage region, and one or more regions of substantially thermally sealed connections between at least one of the one or more surface regions of the one or more segments wherein the one or more regions of substantially thermally sealed connections and the one or more segments form an integrally thermally sealed medicinal storage region. | 05-16-2013 |
20130090535 | SYSTEMS, DEVICES, AND METHODS INCLUDING PARAMAGNETIC OSCILLATION, ROTATION, AND TRANSLATION OF HEMOZOIN ASYMMETRIC NANOPARTICLES IN RESPONSE TO DARK-FIELD OR RHEINBERG DETECTION OF THE PRESENCE OF HEMOZOIN - Systems, devices, and methods are described for providing a monitor/treatment device configured to, for example, detect hemozoin, as well as to monitor or treat a malarial infection. | 04-11-2013 |
20130046517 | Determining a next value of a system-simulation parameter in response to a representation of a plot having the parameter as a dimension - An embodiment of an apparatus includes a simulator, generator, and determiner. The simulator is configured to simulate a system and to propagate at least one state of the simulated system through time in response to a value of a parameter, and the generator is configured to generate a representation of a region of a plot having dimensions that respectively correspond at least to the parameter and to a characteristic of a state of the simulated system. And the determiner is configured to determine a next value of the parameter in response to the representation of the region. | 02-21-2013 |
20130046516 | Determining a next value of a parameter for system simulation - An embodiment of an apparatus includes a simulator and a determiner. The a simulator is configured to simulate a system and to propagate at least one state of the simulated system through time in response to a value of a parameter, and the determiner is configured to determine a next value of the parameter in response to a characteristic of another state of the model and a representation of at least one level set. | 02-21-2013 |
20130046515 | Determining a next value of a system-simulation parameter in response to representations of plots having the parameter as a dimension - An embodiment of an apparatus includes a simulator, a generator, and a determiner. The simulator is configured to simulate a system and to propagate at least one state of the simulated system through time in response to a value of a parameter. The generator is configured to generate a representation of a region of a first plot having dimensions that respectively correspond at least to the parameter and to a characteristic of a state of the simulated system, and a representation of a region of a second plot having dimensions that respectively correspond at least to the parameter and to another characteristic of a state of the simulated system. And the determiner is configured to determine a next value of the parameter in response to the representations of the regions of the first and second plots. | 02-21-2013 |
20120240524 | MULTI-LAYER INSULATION COMPOSITE MATERIAL INCLUDING BANDGAP MATERIAL, STORAGE CONTAINER USING SAME, AND RELATED METHODS - In one embodiment, a multi-layer insulation (MLI) composite material includes a first thermally-reflective layer and a second thermally-reflective layer spaced from the first thermally-reflective layer. At least one of the first or second thermally-reflective layers includes bandgap material that is reflective to infrared electromagnetic radiation. A region between the first and second thermally-reflective layers impedes heat conduction between the first and second thermally-reflective layers. Other embodiments include a storage container including a container structure that may be at least partially formed from such MLI composite materials, and methods of using such MLI composite materials. | 09-27-2012 |
20120097686 | Temperature-Stabilized medicinal storage systems - Systems include one or more medicinal storage containers. For example, an integrally thermally sealed medicinal storage container may include one or more segments of at least one ultra efficient insulation material, the one or more segments having one or more surface regions, the one or more segments principally defining at least one storage region, one or more regions of substantially thermally sealed connections between at least one of the one or more surface regions of the one or more segments wherein the one or more regions of substantially thermally sealed connections and the one or more segments form at least one integrally thermally sealed medicinal storage region, one or more thermal variant units, and at least one selectively-operable thermal conduction unit. | 04-26-2012 |
20110308201 | Methods of manufacturing temperature-stabilized storage containers - Methods disclosed herein include methods of manufacturing integrally thermally-sealed storage containers. Methods include creating at least one indentation in at least one layer of first thermal barrier sheet, wherein the at least one layer of first thermal barrier sheet includes at least one first ultra efficient insulation material and wherein the at least one indentation is in a size and shape substantially conforming with material to be stored; placing material to be stored within one or more of the at least one indentation; placing at least one layer of second thermal barrier sheet adjacent to the material to be stored, wherein the at least one layer of second thermal barrier sheet includes at least one second ultra efficient insulation material; and creating a thermal seal between at least two layers of thermal barrier sheet, substantially thermally sealing the material to be stored. | 12-22-2011 |