Patent application number | Description | Published |
20100191248 | ARTHROSCOPIC TUNNEL GUIDE FOR ROTATOR CUFF REPAIR - A drill guide assembly for drilling a tunnel having a fixed, non-zero radius of curvature, where the drill guide assembly includes a housing and a sleeve, or cutting tube, configured to reciprocate within the distal portion where the sleeve, or cutting tube, is configured to receive a bone cutting instrument. | 07-29-2010 |
20120115190 | AIR COOLING SYSTEMS AND METHODS FOR MICROFLUIDIC DEVICES - Systems and methods for air cooling a microfluidic device using confinement channels to isolate cooling air from exposed liquids are disclosed. The systems and methods may also thermally condition the cooling airflow for improved robustness of the microfluidic device. In one embodiment, the air cooling system includes a split-level cooling manifold including an inlet duct that directs cooling air to a microfluidic device and an outlet duct that directs air heated by the microfluidic device away from the microfluidic device. The temperature of cooling air may be measured. The cooling air may be preheated to a temperature that is higher than an expected ambient temperature. The temperature of the cooling air after being heated by a microfluidic device may be measured. | 05-10-2012 |
20130345711 | ARTHROSCOPIC TUNNEL GUIDE FOR ROTATOR CUFF REPAIR - A drill guide assembly for drilling a tunnel having a fixed, non-zero radius of curvature, where the drill guide assembly includes a housing and a sleeve, or cutting tube, configured to reciprocate within the distal portion where the sleeve, or cutting tube, is configured to receive a bone cutting instrument. | 12-26-2013 |
20140112842 | AUTOMATED PELLETIZED SAMPLE BLOTTING APPARATUS AND METHODS - An automated sample tube blotting system having one or more rotating grippers, a supply of absorbent material, a transporter, and an absorbent material removal mechanism. Each rotating gripper has a respective holder configured to selectively mate with a respective interface on a tube strip, and the one or more rotating grippers are rotatable between a first position in which the tube strip is upright and a second position in which the tube strip is inverted. The transporter is configured to move the rotating gripper in a lateral direction from a starting location to a location above the absorbent material, and in a vertical direction towards and away from the absorbent material. | 04-24-2014 |
20140112843 | AUTOMATED PELLETIZED SAMPLE DECANTING APPARATUS AND METHODS - An automated sample tube decanting system having one or more decanting grippers, a decant waste receptacle, a transporter, and means for rotating the decanting gripper. Each decanting gripper has a respective holder configured to selectively mate with a respective interface on a tube strip. The one or more decanting grippers are rotatable between a first position in which the tube strip is upright and a second position in which the tube strip is inverted. The transporter is configured to move the one or more decanting grippers in a lateral direction from a starting location to a location above the decant waste receptacle. | 04-24-2014 |
20150272600 | ARTHROSCOPIC TUNNEL GUIDE FOR ROTATOR CUFF REPAIR - A drill guide assembly for drilling a tunnel having a fixed, non-zero radius of curvature, where the drill guide assembly includes a housing and a sleeve, or cutting tube, configured to reciprocate within the distal portion where the sleeve, or cutting tube, is configured to receive a bone cutting instrument. | 10-01-2015 |
20160038945 | AIR COOLING SYSTEMS AND METHODS FOR MICROFLUIDIC DEVICES - Systems and methods for air cooling a microfluidic device using confinement channels to isolate cooling air from exposed liquids are disclosed. The systems and methods may also thermally condition the cooling airflow for improved robustness of the microfluidic device. In one embodiment, the air cooling system includes a split-level cooling manifold including an inlet duct that directs cooling air to a microfluidic device and an outlet duct that directs air heated by the microfluidic device away from the microfluidic device. The temperature of cooling air may be measured. The cooling air may be preheated to a temperature that is higher than an expected ambient temperature. The temperature of the cooling air after being heated by a microfluidic device may be measured. | 02-11-2016 |
20160051985 | SYSTEM AND METHOD FOR SERIAL PROCESSING OF MULTIPLE NUCLEIC ACID ASSAYS - The present invention relates to systems and methods for the real time processing of nucleic acid during polymerase chain reaction (PCR) and thermal melt applications. According to an aspect of the invention, a system for the rapid serial processing of multiple nucleic acid assays is provided. In one embodiment, the system includes, but is not limited to: a microfluidic cartridge having microfluidic (flow-through) channels, a fluorescence imaging system, a temperature measurement and control system; a pressure measurement and control system for applying variable pneumatic pressures to the microfluidic cartridge; a storage device for holding multiple reagents (e.g., a well-plate); a liquid handling system comprising at least one robotic pipettor for aspirating, mixing, and dispensing reagent mixtures to the microfluidic cartridge; systems for data storage, processing, and output; and a system controller to coordinate the various devices and functions. | 02-25-2016 |
Patent application number | Description | Published |
20100258124 | Method and device for carrying out a signal-processing viewing of a measurement signal that is correlated to the respiratory activity of an individual - The invention relates to a method and device for carrying out a signal-processing viewing of a measurement signal that is correlated with the respiratory activity of an individual, for example, of a measurement signal that is correlated with the respiratory gas. The aim of the invention is to provide solutions with which an improved electronic analysis of the signals that are representative with regard to respiratory activity can be achieved. To this end, the invention provides that viewing results are obtained within the scope of a signal-processing viewing of said measurement signal and make a differentiation between obstructive and central respiratory disorders possible. The viewing results are determined, in particular, while taking into account changes of selected breathing characteristics such as, for example, the change in the ratio of inhalation time to exhalation time. | 10-14-2010 |
20130345590 | APPARATUS FOR QUANTIFYING EXPIRATORY AND INSPIRATORY AIRFLOW - An apparatus for quantifying a user's expiratory and inspiratory airflow includes an air tube adapted to be sealed over at least one of the nose or mouth of a user, a pressure sensor configured to be selectively fluidly connected with one of the air tube or an ambient environment external to the air tube, a valve assembly arranged between the air tube and the pressure sensor to switch between a measuring configuration in which the pressure sensor is fluidly connected with the air tube while fluid connection with the ambient environment is excluded, and a reference configuration in which the pressure sensor is fluidly connected with the ambient environment while fluid connection with the air-tube is excluded, and a data processing unit arranged to communicate with the pressure sensor and the valve assembly. The data processing unit is configured to provide instructions to the valve assembly to switch between the measuring and the reference configurations. The data processing unit is further configured to determine an absolute zero of expiratory and inspiratory airflow based on signals from the pressure sensor obtained while the valve assembly is in the reference configuration and to measure at least one of expiratory and inspiratory airflow while the valve assembly is in the measuring configuration. The processing unit is further configured to determine at least one of expiratory airflow limitation or inspiratory airflow limitation relative to the absolute zero airflow. | 12-26-2013 |
20140290656 | METHOD AND DEVICE FOR CARRYING OUT A SIGNAL-PROCESSING VIEWING OF A MEASUREMENT SIGNAL THAT IS CORRELATED TO THE RESPIRATORY ACTIVITY OF AN INDIVIDUAL - The invention relates to a method and device for carrying out a signal-processing viewing of a measurement signal that is correlated with the respiratory activity of an individual, for example, of a measurement signal that is correlated with the respiratory gas. The aim of the invention is to provide solutions with which an improved electronic analysis of the signals that are representative with regard to respiratory activity can be achieved. To this end, the invention provides that viewing results are obtained within the scope of a signal-processing viewing of said measurement signal and make a differentiation between obstructive and central respiratory disorders possible. The viewing results are determined, in particular, while taking into account changes of selected breathing characteristics such as, for example, the change in the ratio of inhalation time to exhalation time. | 10-02-2014 |
20150119740 | WHOLE-BODY PLETYSMOGRAPHY SYSTEM FOR THE CONTINUOUS CHARACTERIZATION OF SLEEP AND BREATHING IN A MOUSE - An embodiment in accordance with the present invention provides a device for whole-body plethysmography (WBP) of a mouse for the continuous characterization of sleep and breathing. The inherent limitations of standard WBP are addressed to enable the continuous recording of validated measures of tidal volume, tidal airflow, and respiratory effort surrogate in an unrestrained, unanesthetized mouse. The addition of standard EEG and EMG recording technology allows for respiratory patterns to be fully characterized during sleep and wakefulness. The present invention also allows for the demonstration of the development of dynamic upper airway obstruction [inspiratory flow limitation (IFL)] during sleep in a susceptible, obese murine strain. | 04-30-2015 |
Patent application number | Description | Published |
20080299565 | Probe for Nucleic Acid Sequencing and Methods of Use - A nanoprobe for sequencing of nucleic acid molecules is provided, as well as methods for using the nanoprobe. In particular examples, the probe includes a polymerizing agent and one or more molecular linkers that carry a chemical moiety capable of reversibly binding to the template strand of a nucleic acid molecule, without being detached from the linker, by specifically binding with a complementary nucleotide in the target nucleic acid molecule. The reversible binding of the chemical moiety on the linker with a complementary nucleotide in the target nucleic acid molecule is indicated by emission of a characteristic signal that indicates pairing of the chemical moiety on the linker with its complementary nucleotide. An example of such a chemical moiety is a nonhydrolyzable nucleotide analog. In particular examples, the polymerizing agent and the chemical moiety are associated with a tag, such as a donor fluorophore and acceptor fluorophore characteristic of the particular type of chemical moiety. | 12-04-2008 |
20090061447 | HIGH SPEED PARALLEL MOLECULAR NUCLEIC ACID SEQUENCING - A method and device is disclosed for high speed, automated sequencing of nucleic acid molecules. A nucleic acid molecule to be sequenced is exposed to a polymerase in the presence of nucleotides which are to be incorporated into a complementary nucleic acid strand. The polymerase carries a donor fluorophore, and each type of nucleotide (e.g. A, T/U, C and G) carries a distinguishable acceptor fluorophore characteristic of the particular type of nucleotide. As the polymerase incorporates individual nucleic acid molecules into a complementary strand, a laser continuously irradiates the donor fluorophore, at a wavelength that causes it to emit an emission signal (but the laser wavelength does not stimulate the acceptor fluorophore). In particular embodiments, no laser is needed if the donor fluorophore is a luminescent molecule or is stimulated by one. The emission signal from the polymerase is capable of stimulating any of the donor fluorophores (but not acceptor fluorophores), so that as a nucleotide is added by the polymerase, the acceptor fluorophore emits a signal associated with the type of nucleotide added to the complementary strand. The series of emission signals from the acceptor fluorophores is detected, and correlated with a sequence of nucleotides that correspond to the sequence of emission signals. | 03-05-2009 |
20100227913 | Nanoprobes for detection or modification of molecules - The disclosure provides probes for one or more target molecules. In particular examples, the probes include a molecular linker and first and second functional groups linked and spaced by the molecular linker, wherein the functional groups are capable of interacting with one another or with the target biomolecule in a predetermined reaction, and wherein the molecular linker maintains the first and second functional groups sufficiently spaced from one another such that the functional groups do not substantially interact in an absence of the target biomolecule. In the presence of the target biomolecule the functional groups interact (with each other, with the target biomolecule, or both), and in some examples a detectable signal is produced. In some examples, the functional groups can detect or modify a target molecule. Also provided are methods of using the probes, for example to detect or modify a target molecule. | 09-09-2010 |
20110008794 | HIGH SPEED PARALLEL MOLECULAR NUCLEIC ACID SEQUENCING - A method and device is disclosed for high speed, automated sequencing of nucleic acid molecules. A nucleic acid molecule to be sequenced is exposed to a polymerase in the presence of nucleotides which are to be incorporated into a complementary nucleic acid strand. The polymerase carries a donor fluorophore, and each type of nucleotide (e.g. A, T/U, C and G) carries a distinguishable acceptor fluorophore characteristic of the particular type of nucleotide. As the polymerase incorporates individual nucleic acid molecules into a complementary strand, a laser continuously irradiates the donor fluorophore, at a wavelength that causes it to emit an emission signal (but the laser wavelength does not stimulate the acceptor fluorophore). In particular embodiments, no laser is needed if the donor fluorophore is a luminescent molecule or is stimulated by one. The emission signal from the polymerase is capable of stimulating any of the donor fluorophores (but not acceptor fluorophores), so that as a nucleotide is added by the polymerase, the acceptor fluorophore emits a signal associated with the type of nucleotide added to the complementary strand. The series of emission signals from the acceptor fluorophores is detected, and correlated with a sequence of nucleotides that correspond to the sequence of emission signals. | 01-13-2011 |
20110111975 | PROBE FOR NUCLEIC ACID SEQUENCING AND METHODS OF USE - A nanoprobe for sequencing of nucleic acid molecules is provided, as well as methods for using the nanoprobe. In particular examples, the probe includes a polymerizing agent and one or more molecular linkers that carry a chemical moiety capable of reversibly binding to the template strand of a nucleic acid molecule, without being detached from the linker, by specifically binding with a complementary nucleotide in the target nucleic acid molecule. The reversible binding of the chemical moiety on the linker with a complementary nucleotide in the target nucleic acid molecule is indicated by emission of a characteristic signal that indicates pairing of the chemical moiety on the linker with its complementary nucleotide. An example of such a chemical moiety is a nonhydrolyzable nucleotide analog. In particular examples, the polymerizing agent and the chemical moiety are associated with a tag, such as a donor fluorophore and acceptor fluorophore characteristic of the particular type of chemical moiety. | 05-12-2011 |
20120094365 | MOLECULAR MOTOR - A molecular motor in which multiple concentric cylinders (or nested cones) rotate around a common longitudinal axis. Opposing complementary surfaces of the cylinders or cones are coated with complementary motor protein pairs (such as actin and myosin). The actin and myosin interact with one another in the presence of ATP to rotate the cylinders or cones relative to one another, and this rotational energy is harnessed to produce work. The length of the cylinders can also be used to control the power generated by the motor. In another embodiment, the molecular motor includes at least two annular substrates wherein one annular substrate is coated with a first motor protein and the other annular substrate is coated with a second motor protein. The first and second motor proteins interact with each other to move the second annular relative to the first annular substrate. | 04-19-2012 |
20130122502 | NANOPROBES FOR DETECTION OR MODIFICATION OF MOLECULES - The disclosure provides probes for one or more target molecules. In particular examples, the probes include a molecular linker and first and second functional groups linked and spaced by the molecular linker, wherein the functional groups are capable of interacting with one another or with the target biomolecule in a predetermined reaction, and wherein the molecular linker maintains the first and second functional groups sufficiently spaced from one another such that the functional groups do not substantially interact in an absence of the target biomolecule. In the presence of the target biomolecule the functional groups interact (with each other, with the target biomolecule, or both), and in some examples a detectable signal is produced. In some examples, the functional groups can detect or modify a target molecule. Also provided are methods of using the probes, for example to detect or modify a target molecule. | 05-16-2013 |
20140234948 | MOLECULAR MOTOR - A molecular motor in which multiple concentric cylinders (or nested cones) rotate around a common longitudinal axis. Opposing complementary surfaces of the cylinders or cones are coated with complementary motor protein pairs (such as actin and myosin). The actin and myosin interact with one another in the presence of ATP to rotate the cylinders or cones relative to one another, and this rotational energy is harnessed to produce work. The concentration of ATP and the number of nested cylinders or cones can be used to control the rotational speed of the motor. The length of the cylinders can also be used to control the power generated by the motor. In another embodiment, the molecular motor includes at least two annular substrates wherein one annular substrate is coated with a first motor protein and the other annular substrate is coated with a second motor protein. The first and second motor proteins interact with each other to move the second annular relative to the first annular substrate. | 08-21-2014 |