Class / Patent application number | Description | Number of patent applications / Date published |
600578000 | Mechanical means for drawing liquid into collection reservoir | 27 |
20080214957 | Bone Marrow Aspiration Trocar - The invention relates to a bone marrow aspiration trocar comprising an element in the form of a hollow needle, the end of said element being provided with a prehension body ( | 09-04-2008 |
20090131828 | VACUUM SAMPLE EXPRESSION DEVICE - A body fluid sampling device is used to sample a bodily fluid from an incision in skin. The device includes a housing that defines a sample cavity with one open end that contacts skin. The device also includes a lancing mechanism that forms an incision in the skin. A vacuum mechanism is used to create a vacuum inside the sample cavity to express fluid from the incision site. To release the vacuum, a valve is connected with the sample cavity to exchange atmospheric air and further works to minimize fluid splatter. The fluid sample can then be tested or analyzed as desired. | 05-21-2009 |
20100042015 | Whole blood capillary collection system - A whole blood capillary collection system is described and includes an enclosure located remotely from a blood collection apparatus. A DC motor-driven vacuum pump is located within the enclosure and is operatively connected to one end of the flexible tube so as to create suction therein. The enclosure includes a switch for controlling the operation of the vacuum pump and also includes a low battery light indicator. By locating the enclosure remote from the collection apparatus, the noise level at the puncture site is reduced. The enclosure may be conveniently placed in the user's pocket or placed on a supporting surface. | 02-18-2010 |
20100191147 | PIERCING DEVICE AND BLOOD INSPECTION DEVICE - A piercing device and a blood inspection device that have increased safety. The piercing device ( | 07-29-2010 |
20100324450 | Apparatus and Method for Separating and Concentrating Fluids Containing Multiple Components - An apparatus that allows for separating and collecting a fraction of a sample. The apparatus, when used with a centrifuge, allows for the creation of at least three fractions in the apparatus. It also provides for a new method of extracting the buffy coat phase from a whole blood sample. A buoy system that may include a first buoy portion and a second buoy member operably interconnected may be used to form at least three fractions from a sample during a substantially single centrifugation process. Therefore, the separation of various fractions may be substantially quick and efficient. | 12-23-2010 |
20110009773 | IMPLANTABLE SENSING MODULES AND METHODS OF USING - Implantable sensing modules and methods for monitoring various physical parameters, including physical parameters of a living body and environmental parameters to which the living body may be subjected, for example, impacts. A method for monitoring impacts to which a living body is subjected entails the use of an implantable sensing module that has a rigid housing containing at least one energy storage device and at least one electromechanical sensing element that is responsive to impacts. The module generates data corresponding to impacts to which the electromechanical sensing element is subjected, and records the data in memory. The module is preferably implanted in a living body so that the module is connected to a rigid portion of the living body, in particular, a bone or tooth. | 01-13-2011 |
20110082389 | APPARATUS AND METHOD FOR ASSESSING CONDITION OF ARTICULAR CARTILAGE - A measuring system may provide quantitative information relating to condition of cartilage. Negative pressure may be applied to cartilage to induce flow of fluid from or through the cartilage. A level of negative pressure needed to induce a particular flow of the fluid may be employed to provide a quantitative indicia of cartilage condition. An averaged level of negative pressure measured over a period of time may be used to calculate hydraulic resistance of the cartilage. | 04-07-2011 |
20110125058 | PATIENT-ENACTED SAMPLING TECHNIQUE - The present invention is generally directed to systems and methods for sampling fluids from subjects. The fluid may be any suitable bodily fluid, e.g., blood or interstitial fluid. In some cases, the subject is a patient. The subject may have a device that can be applied to the skin of the subject (e.g., by the subject, or another person), and the device is able to obtain a sample of fluid. The fluid may be stored within a reservoir in the device, and the fluid may be obtained from the subject at any convenient time, e.g., at home, away from a healthcare setting, etc. In some embodiments, the device, or a portion thereof, may be returned to a clinical and/or laboratory setting to analyze the fluid stored within the device. | 05-26-2011 |
20110144536 | BLOOD COLLECTION CONTAINER - The present invention provides a blood collection container capable of allowing blood to coagulate in a short time and preventing blood from coagulating with bubbles contained therein and thus preventing formation of bubbly clots when used to collect blood therein. A blood collection container | 06-16-2011 |
20110172558 | Catheter with distal and proximal ports - A catheter system including a collection member having an occlusion member and collection ports. At least one collection port being located distal to the occlusion member, and least one collection port being located proximal to the occlusion member. | 07-14-2011 |
20110178427 | Flashback Blood Collection Needle - A needle assembly includes a transparent or translucent housing with a fluid inlet and outlet end, a flashback chamber, and a venting mechanism therebetween. The venting mechanism includes a blocking member to control the fluid flow in the venting mechanism so that it flows along the longest path through the vent. Substantially axially aligned inlet and outlet cannulas extend from the housing and communicate with the chamber. A sealable sleeve covers the external end of the outlet cannula. Relative volumes of the cannulas, the chamber, and the sleeve are selected to provide rapid reliable flashback indicative of venous entry with an internal vent positioned within the housing to divide the interior into first and second chambers, with the second chamber being adapted to maintain a negative pressure therein relative to the external environment so as to inhibit leakage of blood from the needle tip on withdrawal from the patient. | 07-21-2011 |
20120022404 | ASPIRATION APPARATUS AND METHODS - An aspiration apparatus includes handles with two members. Each of the handle members includes a proximal actuation end and an opposite distal connection end. The members of the handles are associated with one another (e.g., pivotally, etc.) in such a way that movement of the proximal actuation ends in first directions (e.g., toward one another, away from one another) causes the distal connection ends to move in opposite second directions (e.g., away from one another, toward one another). The distal connection end of the first member may configured for association with the barrel of a syringe, while the distal connection end of the second member may be configured for association with the plunger of the syringe. Association of one or both of the distal connection ends with its respective syringe element may be pivotal. Aspiration methods, including, but not limited to, methods of using such an aspiration apparatus, are also disclosed. | 01-26-2012 |
20120277629 | SYSTEMS AND METHODS FOR COLLECTION AND/OR MANIPULATION OF BLOOD SPOTS OR OTHER BODILY FLUIDS - The present invention generally relates to systems and methods for receiving blood (or other bodily fluids) from a subject, e.g., from or beneath the skin of a subject. In some cases, the blood (or other bodily fluids) may be deposited on a membrane or other substrate. For example, blood may be absorbed in a substrate, and dried in some cases to produce a dried blood spot. In one aspect, the present invention is generally directed to devices and methods for receiving blood from a subject, e.g., from the skin, using devices including a substance transfer component (which may contain, for example, one or more microneedles), and directing the blood on a substrate, e.g., for absorbing blood. The substrate, in some embodiments, may comprise filter paper or cotton-based paper. After absorption of some blood onto the substrate, the substrate may be removed from the device and shipped or analyzed. | 11-01-2012 |
20120316467 | Safety Syringe Having an Automatic Activated Retractable Needle - A syringe assembly for fluid collection includes a housing having a sidewall defining a hollow bore therein, and an elongate plunger with the distal end of the plunger forming a chamber within the hollow bore for containing a fluid therein. The plunger is adapted for slideable movement within the hollow bore between an initial position and a retracted position. The assembly includes a hub disposed at least partially within the hollow bore and at least partially supporting a cannula therewith. The hub is adapted to automatically transition from an initial position in which at least a portion of the cannula is disposed external to the housing, to a retracted position in which the cannula is fully shielded by the housing, upon transition of the elongate plunger from the initial position to the retracted position. | 12-13-2012 |
20130023792 | AUTOMATED BLOOD SAMPLING SYSTEM AND METHOD - Automated blood sampling systems and methods of use are disclosed which are configured to withdraw and test the blood of a mammal without clotting of the withdrawn blood in a main flow path of the automated blood sampling system. The automated blood sampling systems and methods do not require the use of an anti-blood-clotting solution or drug such as Heparin to avoid clotting of the blood in the main flow path of the automated blood sampling system. | 01-24-2013 |
20130172779 | Method and Apparatus for Accessing Blood from an IV Catheter Insertion Device - Disclosed is an apparatus and method for accessing blood located within a flash chamber of an IV catheter insertion device, the apparatus is separate from the IV catheter insertion device and sized to be attached to a structure of the IV catheter insertion device to secure it thereto. Once secured, movement of the plunger from its rearward position to a forward position presses on a flash plug to expel blood from a flash chamber of the IV catheter insertion device and out through the needle. | 07-04-2013 |
20130211289 | Handheld Device for Drawing, Collecting, and Analyzing Bodily Fluid - A handheld device for drawing, collecting, and analyzing bodily fluid includes a body having a lumen defined therein, a plunger configured to be user-actuated, and a base. Multiple needles are fixed to the plunger, and at least one of the needles is configured to pass through the apertures of the base and penetrate a subject's skin to release bodily fluid when the plunger is actuated. After the plunger is actuated, a mechanism retracts the plunger from the subject's skin and creates a vacuum within the lumen. A network of passages on the base is configured to collect at least some of the bodily fluid and communicate the bodily fluid to one or more sensing areas for analysis. | 08-15-2013 |
20140039348 | FLUID DIVERSION MECHANISM FOR BODILY-FLUID SAMPLING - A device includes a pre-sample reservoir, an actuator mechanism, and a diverter. The pre-sample reservoir can be fluidically coupled to a delivery member to receive and isolate a predetermined volume of bodily-fluid withdrawn from a patient. The actuator mechanism is operably coupled to the pre-sample reservoir such that, when actuated, a negative pressure is formed in the pre-sample reservoir that urges the bodily-fluid to flow into the pre-sample reservoir. The diverter can selectively control fluid flow between the delivery member and the pre-sample reservoir. The diverter includes a flow control mechanism that defines a first fluid flow path and a second fluid flow path. The diverter is movable between a first configuration in which the bodily-fluid flows through the first fluid flow path to the pre-sample reservoir, and a second configuration in which the bodily-fluid flows through the second fluid flow path to a sample reservoir coupled to the diverter. | 02-06-2014 |
20140194778 | SYRINGE ENABLED FOR ASPIRATING BLOOD INTO A SAMPLING SITE IN A CLOSED MANNER AND METHOD - An in-line sampling syringe for selectively introducing and aspirating a fluid from a downstream fluid conduit connected to a catheterized patient. The syringe includes a housing with a distal component defining a distal chamber having a proximal opening and a distal outlet port to be coupled to a downstream fluid conduit; and a pair of proximal wall components assembled together in an airtight manner defining a proximal chamber having a proximal opening for coupling to an external source of fluid and a distal opening that is coupled to the proximal opening of the distal component. The syringe also includes an elongated volume regulator positioned inside the housing. A curved element is positioned at and in alignment with the distal outlet and retention elements are defined in the distal component at the distal outlet port to mount and retain the curved element at the distal outlet port while enabling flow around the curved element relative to the distal outlet port. A conduit extends from the proximal opening of the proximal chamber through the elongated volume regulator to the curved element at the distal outlet port. | 07-10-2014 |
20140236046 | BLOOD COLLECTION SAFETY DEVICES AND METHODS OF USE AND MANUFACTURE - An automatically locking safety device, e.g., for use in a blood collection procedure, can include a housing, first and second needle covers that are at least partly received in the housing, and a needle that is at least partly received in at least one of the first and second needle covers. The needle can include a proximal tip configured for placement into a patient and a distal tip configured for placement into a blood collection vial. In some embodiments, the first and second needle covers are biased by a biasing member. In some cases, one or both of the first and second needle covers can be locked to prevent axial movement thereof after the blood collection procedure. In certain embodiments, a distal end of the device is configured to connect with a medical connector, such as a needleless IV access device. | 08-21-2014 |
20140309552 | Syringe with Breakable Plunger for Arterial Blood Gas Sample Collection - A fluid collection assembly and method for use thereof is provided including a barrel with a plunger rod slidably inserted is disclosed. The assembly and method are particularly useful in the collection of arterial blood. The plunger rod includes a proximal portion, a distal portion with a stopper, and a breakable connector between the proximal and distal portions. In use, the assembly is primed with a liquid anticoagulant, the breakable connection is broken, and a fluid sample is collected with the arterial pressure causing the distal portion of the plunger rod to travel in a proximal direction along the barrel and contact an annular flange extending within the barrel. After collection, a tip cap can be applied to the assembly to prevent any spillage of the fluid sample during handling, storage, and transportation. | 10-16-2014 |
20150133816 | COMPLETE UPPER RESPIRATORY TRACT CLEANSING SYSTEM AND ITS USE - An extracting device for diagnosis and treatment of diseases includes a tip equipped with a one-way liquid valve; a chamber equipped with a one-way air valve; and an elastic bulb for generating suctioning-pushing pressure when it is squeezed and released. When the user squeezes and releases the elastic bulb, the liquid will be drawn into the chamber through the tip. Additional fluidal material can enter into the bulb. After the liquid or mucus is drawn out, the body function such as nasal breath can be resumed. A specimen can be taken into the chamber through the tip and then transferred to a test tube for laboratory diagnosis. A new method of obtaining and removing body secretion is provided. No any form of electricity is needed. The parts can be easily disassembled for clean for repeated uses as a mucus extractor. | 05-14-2015 |
20150289793 | LIQUID CONTROLLING METHOD - Upon blood collection with a disclosed blood collecting apparatus, a part of a flow path adjacent to a suction drain mechanism is filled with a liquid different from the blood. A gas is inserted in the flow path between the liquid with which the part of the flow path adjacent to the suction drain mechanism is filled and a target blood to be collected. The suction drain mechanism pushes and pulls the gas by pushing and pulling the liquid during a standby time between collection and next collection, thereby controlling movement of the target blood. The suction drain mechanism pushes and pulls the liquid and the gas during the standby time, whereby the target blood is continuously moved. This allows prevention of coagulation of the target blood in the flow path. | 10-15-2015 |
20160015271 | PALPATION DIAGNOSTIC DEVICE - The present invention relates to a palpation diagnostic device, which comprises an optical pressure sensor embedded in a holder; wherein the optical pressure sensor is an optical fiber sensor, or a micro-fabricated waveguide sensor to be disposed on a finger or a palm; and the optical pressure sensor is configured to receive an optical signal whose intensity is attenuated when a force is applied on the optical pressure sensors. Therefore, the palpation diagnostic device of the present invention can provide high sensing sensitivity by attenuating the intensity of the optical signal in the optical pressure sensors which a force is applied on, so it can provide precise and immediate information based on quantitative feedback for the users. | 01-21-2016 |
20160081606 | Vacuum Pressure Regulators for Use During Blood Collection - A regulator for modulation of the flow rate of blood out of a patients blood vessel during blood collection is disclosed. The regulator includes a housing having a housing inlet, a housing outlet, and a wall defining a housing interior. At least a portion of the wall includes a flexible member. A valve is associated with the flexible member and is in communication with the housing interior. The regulator is designed so that upon an application of a differential pressure within the housing interior, the flexible member and/or valve automatically move with respect to either the housing inlet or housing outlet to modulate a flow of blood moving through the housing. A manual over-ride device can be provided to enable a user to over-ride the automatic regulation and manually regulate the flow of blood through the housing. | 03-24-2016 |
20160100786 | ADAPTER FOR BLOOD SAMPLE DISPENSING, AND DISPENSING KIT AND NEEDLE KIT PROVIDED THEREWITH - There is provided an adapter for blood sample dispensing which enables change of the presence and absence of a medicine to be mixed in a blood sample or the type of the medicine thereof while suppressing contact of blood with the air, during preparation of an examination sample, and a dispensing kit and a needle kit provided therewith. Dispensing is performed using an adapter | 04-14-2016 |
20160129181 | BIDIRECTIONAL VALVE WITH IMPROVED THRESHOLD PRESSURE ACCURACY - A bidirectional valve for medical use or the like provides different threshold opening pressures in different directions using a valve seat and flapper construction providing improved characterization in operation in contrast to cross-slit valves often used for bidirectional operation. A valve disk supported in a central annular region provides movable portions engaging in valve seats at a peripheral region and a central region. | 05-12-2016 |