Patent application number | Description | Published |
20080287906 | EXTRAVASCULAR SYSTEM VENTING - A vascular access device may form part of an extravascular system and function as an adapter including a gas permeable vent. A method of venting a medical device may include providing a vascular access device as part of an extravascular system, providing a gas permeable vent within the vascular access device, venting gas from the system through the vent, and closing the vent. | 11-20-2008 |
20100222745 | BI-DIRECTIONALLY ENGAGEABLE CANNULA CRIMP FEATURE - A cannula, such as an IV catheter introducer needle, that has a bi-directionally engageable crimp feature is described herein. The feature comprises a maximum outer diameter that is greater than an outer diameter of the cannula. Additionally, the feature comprises a proximal side and a distal side. The larger outer diameter of the proximal side can act as a proximal engagement that prevents the cannula from being entirely extracted in a proximal direction from a cannula shield. The distal side of the feature can comprise a notch that acts a distal engagement, which prevents the cannula from reemerging distally from the shield, once the cannula has been pulled into the shield. The notch can include an engagement surface that extends laterally past the cannula's outer diameter. The engagement surface can be configured to run substantially perpendicular to the cannula's longitudinal axis. | 09-02-2010 |
20100222746 | BI-DIRECTIONAL CANNULA FEATURE CAPTURE MECHANISM - A bi-directional cannula feature capture mechanism is described herein. Generally, the capture mechanism comprises an inner housing, an outer housing, and a cannula. The inner housing comprises a proximal and a distal cannula feature mating component. The outer housing is adapted to slidably receive the inner housing in a proximal direction. Additionally, the cannula extends through the inner housing and the cannula's feature has a proximal engagement and a distal engagement. The proximal and distal engagements are respectively configured to irreversibly engage the proximal and distal cannula feature mating components when the cannula tip is moved into a shielded position. | 09-02-2010 |
20100242993 | Patient fluid line access valve antimicrobial cap/cleaner - Cap and cleaning devices antiseptically maintain patient fluid line access valves to minimize the risk of infection via catheters. The devices have a cap that may contain a dry pad impregnated with an antimicrobial agent. The cap covers the access portion of the access valve when not in use. The devices have a hood that contains a wet pad impregnated with a cleaning solution and, optionally, an antimicrobial agent. The wet pad cleans the access portion of the access valve prior to and optionally, after the access valve is utilized to access the patient fluid line. | 09-30-2010 |
20100249713 | SYSTEMS AND METHODS FOR PROVIDING A SAFETY INTEGRATED CATHETER WITH UNIVERSAL GRIP - A universal gripping surface is provided on an intravenous catheter assembly. The universal gripping surface provides a plurality of surfaces whereby a user may grip the catheter assembly in a desired gripping configuration for improved balance and control of the catheter assembly during insertion of the catheter. Additionally, the universal gripping surface includes a guard feature to prevent a user's unintended contact with various components of the catheter assembly whereby the contact may result in an undesirable “over the bevel” condition. | 09-30-2010 |
20100249714 | SYSTEMS AND METHODS FOR PROVIDING A CONVENTIONAL INTEGRATED CATHETER WITH UNIVERSAL GRIP - A universal gripping surface is provided on an intravenous catheter assembly. The universal gripping surface provides a plurality of surfaces whereby a user may grip the catheter assembly in a desired gripping configuration for improved balance and control of the catheter assembly during insertion of the catheter. Additionally, the universal gripping surface includes a guard feature to prevent a user's unintended contact with various components of the catheter assembly whereby the contact may result in an undesirable “over the bevel” condition. | 09-30-2010 |
20110009717 | BLOOD SAMPLING DEVICE - A blood sampling device useful for collecting a blood sample from a separate vascular access device is described herein. The blood sampling device includes a body shaped and sized for partial insertion into a separate vascular access device. The body includes a reservoir defined within the body, which has an internal volume sufficient to contain enough blood for use in a diagnostic blood test. The body also includes a gas permeable vent disposed on the body, in which the gas permeable vent is in gaseous communication with the reservoir. When connected to a separate vascular access device the blood sampling device collects a blood sample as blood flows into the reservoir from the separate vascular access device and as gases pass out the reservoir via the gas permeable vent. | 01-13-2011 |
20110009831 | ANTIMICROBIAL COATING FOR DERMALLY INVASIVE DEVICES - An antimicrobial coating applied to a transdermal surface of a catheter device. An antimicrobial coating applied to catheter device such that when the catheter device is fully inserted, the antimicrobial coating is interposed between the catheter device and the dermal layers of the patient. | 01-13-2011 |
20110066121 | SYSTEMS AND METHODS FOR PROVIDING AN ANTISEPTIC APPLICATOR - An antiseptic applicator device having a reservoir for storing an antiseptic agent, the reservoir being coupled to an applicator pad, and a defeatable membrane being interposed between the reservoir and the applicator pad. Embodiments of the device further include opposing handles, wherein an interior lumen of each handle houses a breakable phial containing a desired solution, and wherein upon moving the handles to a closed position, the phials are broken to release the desired solutions which are then absorbed by the applicator pad. | 03-17-2011 |
20120016213 | BLOOD TEST STRIP AND AN INTRAVENOUS CATHETER SYSTEM - A blood test strip useful for venting a closed intravenous system and collecting a blood sample is described herein. The blood test strip includes a blood test strip, one or more vents, and a gripping member coupled to the proximal end of the blood test strip. The one or more vents are disposed between the distal and the proximal portions of the blood test strip. | 01-19-2012 |
20120016266 | VENTED BLOOD SAMPLING DEVICE - An extravascular system is disclosed. The system includes a body, a septum, a septum activator, and a blood sampling device. The body has and inner lumen extending therethrough. The septum is disposed within the inner lumen. The septum activator is disposed within the inner lumen proximal the septum. The septum activator has an inner passage extending therethrough. The blood sampling device has a tube that is longer than a length of the septum activator and has a width less than or equal to a width of the inner passage of the septum activator. An interior of the tube is in fluid communication with a reservoir within the blood sampling device. A vent is in fluid communication with the reservoir. The vent passes air but not blood therethrough. | 01-19-2012 |
20120016307 | REMOVABLE FLASH CHAMBER - A needle hub and catheter assembly are disclosed herein. The needle hub includes an introducer needle having a lumen extending therethrough. A needle hub is coupled to a proximal end of the introducer needle. A flash chamber is removably coupled to the needle hub or the introducer needle. An interior of the flash chamber is in fluid communication with the lumen of the introducer needle when the flash chamber is coupled to the needle hub or the introducer needle. As such, the flash chamber can collect a sample of blood that can be accessed when the flash chamber is removed. In some instances, the blood can also be dispensed from the flash chamber into a test strip or other testing device. | 01-19-2012 |
20120016318 | ANTIMICROBIAL IV ACCESS CAP - An antimicrobial IV access cap having an inner surface for retaining an antimicrobial agent, and further configured to receive a portion of an access port of an intravascular device. | 01-19-2012 |
20120022502 | SYSTEMS AND METHODS FOR IMPROVING CATHETER HOLE ARRAY EFFICIENCY - Systems and methods for manufacturing a peripheral catheter having a plurality of diffusion holes. | 01-26-2012 |
20130090608 | SYSTEMS AND METHODS FOR SEALING A SEPTUM WITHIN A CATHETER DEVICE - Systems and methods for sealing and venting a septum of an intravenous catheter device. Implementations of the present invention include a compact, molded septum that is retained within an inner lumen of a catheter adapter such that slowed or stopped flow of air and/or a fluid is permitted to pass between the compact septum and an inner wall surface of the catheter adapter via one or more fluid pathways. In some instances, a snap ring is provided to secure the position of the compact septum within the catheter adapter, a fluid pathway being provided through the snap ring. | 04-11-2013 |
20130121897 | BLOOD SAMPLING DEVICE - A blood sampling device useful for collecting a blood sample from a separate vascular access device is described herein. The blood sampling device includes a body shaped and sized for partial insertion into a separate vascular access device. The body includes a reservoir defined within the body, which has an internal volume sufficient to contain enough blood for use in a diagnostic blood test. The body also includes a gas permeable vent disposed on the body, in which the gas permeable vent is in gaseous communication with the reservoir. When connected to a separate vascular access device the blood sampling device collects a blood sample as blood flows into the reservoir from the separate vascular access device and as gases pass out the reservoir via the gas permeable vent. | 05-16-2013 |
20130255061 | SYSTEMS AND METHODS FOR APPLYING A NOVEL ANTIMICROBIAL COATING MATERIAL TO A MEDICAL DEVICE - An antimicrobial composition, generally comprising a biocidal agent, such as chlorhexidine gluconate, a lubricant, such as a modified siloxane, and a solvent, such as an alcohol and/or water. The biocidal agent acts as a highly effective biocide while the lubricant reduces friction between various components of a medical device during assembly. The antimicrobial composition may be applied to an internal component of the medical device prior to assembly. The process of assembling the medical device results in antimicrobial composition being distributed to various internal structures and geometries of the medical device as the coated, internal component is assembled into the interior of the medical device. Air is then used to further distribute excess antimicrobial agent to the remaining surfaces downstream from the installed, internal component. In some embodiments, additional air is passed through the assembled medical device to assist in removing the carrier solvent from the medical device via evaporation. | 10-03-2013 |
20130310808 | Flush Enhancing Male Luer Tip Design for Syringes and any Luer Connector - A luer connection device is disclosed having a housing including a side wall having an inside surface defining a lumen with a central axis, an proximal end, and a distal end including a male luer tip within the lumen having a central flow diverter extending outwardly from the central axis to direct a fluid to a circumferential dead space distal to the male luer tip. A luer connection device is also disclosed having a flow expansion channel disposed in the lumen tapering outward from the wall of tubular housing and partially extending along a longitudinal axis from the tip opening toward the base opening for increasing mixing and flow through a circumferential dead space in the fluid path distal to the male luer tip. | 11-21-2013 |
20140039399 | BI-DIRECTIONAL CANNULA FEATURE CAPTURE MECHANISM - A bi-directional cannula feature capture mechanism is described herein. Generally, the capture mechanism comprises an inner housing, an outer housing, and a cannula. The inner housing comprises a proximal and a distal cannula feature mating component. The outer housing is adapted to slidably receive the inner housing in a proximal direction. Additionally, the cannula extends through the inner housing and the cannula's feature has a proximal engagement and a distal engagement. The proximal and distal engagements are respectively configured to irreversibly engage the proximal and distal cannula feature mating components when the cannula tip is moved into a shielded position. | 02-06-2014 |
20140046258 | SYSTEMS AND METHODS FOR PROVIDING A FLUSHABLE CATHETER ASSEMBLY - A flushable catheter assembly having features to enable selective activation of fluid flow through the catheter assembly is disclosed herein. A septum is placed within the catheter adapter of the catheter assembly and includes a pathway that is closed prior to being biased open via a septum activator also positioned within the catheter adapter. A plurality of air vent channels is interposed between the septum and the inner surface of the catheter adapter to permit “flashback” of blood during insertion of the catheter into a patient. The septum activator is advanced through the pathway of the septum as a coupler is attached to a proximal opening of the catheter adapter. | 02-13-2014 |
20140052021 | REMOVABLE FLASH CHAMBER - A needle hub and catheter assembly are disclosed herein. The needle hub includes an introducer needle having a lumen extending therethrough. A needle hub is coupled to a proximal end of the introducer needle. A flash chamber is removably coupled to the needle hub or the introducer needle. An interior of the flash chamber is in fluid communication with the lumen of the introducer needle when the flash chamber is coupled to the needle hub or the introducer needle. As such, the flash chamber can collect a sample of blood that can be accessed when the flash chamber is removed. In some instances, the blood can also be dispensed from the flash chamber into a test strip or other testing device. | 02-20-2014 |
20140058336 | BLOOD CONTROL IV CATHETER WITH ANTIMICROBIAL PROPERTIES - A medical device is presented, which includes a fluid pathway and a septum slidably housed within the fluid pathway. The septum can be opened by a septum actuator disposed in a fixed position within the fluid pathway. In some examples, both the septum actuator and the septum have at least one surface exposed to the fluid pathway. An anti-pathogenic material can be applied to these surfaces. | 02-27-2014 |
20140135710 | PATIENT FLUID LINE ACCESS VALVE ANTIMICROBIAL CAP/CLEANER - Cap and cleaning devices antiseptically maintain patient fluid line access valves to minimize the risk of infection via catheters. The devices have a cap that may contain a dry pad impregnated with an antimicrobial agent. The cap covers the access portion of the access valve when not in use. The devices have a hood that contains a wet pad impregnated with a cleaning solution and, optionally, an antimicrobial agent. The wet pad cleans the access portion of the access valve prior to and optionally, after the access valve is utilized to access the patient fluid line. | 05-15-2014 |
20140135711 | PATIENT FLUID LINE ACCESS VALVE ANTIMICROBIAL CAP/CLEANER - Cap and cleaning devices antiseptically maintain patient fluid line access valves to minimize the risk of infection via catheters. The devices have a cap that may contain a dry pad impregnated with an antimicrobial agent. The cap covers the access portion of the access valve when not in use. The devices have a hood that contains a wet pad impregnated with a cleaning solution and, optionally, an antimicrobial agent. The wet pad cleans the access portion of the access valve prior to and optionally, after the access valve is utilized to access the patient fluid line. | 05-15-2014 |
20140200523 | SYSTEMS AND METHODS FOR APPLYING A NOVEL ANTIMICROBIAL COATING MATERIAL TO A MEDICAL DEVICE - An antimicrobial composition, generally comprising a biocidal agent, such as chlorhexidine gluconate, a lubricant, such as a modified siloxane, and a solvent, such as an alcohol and/or water. The biocidal agent acts as a highly effective biocide while the lubricant reduces friction between various components of a medical device during assembly. The antimicrobial composition may be applied to an internal component of the medical device prior to assembly. The process of assembling the medical device results in antimicrobial composition being distributed to various internal structures and geometries of the medical device as the coated, internal component is assembled into the interior of the medical device. Air is then used to further distribute excess antimicrobial agent to the remaining surfaces downstream from the installed, internal component. In some embodiments, additional air is passed through the assembled medical device to assist in removing the carrier solvent from the medical device via evaporation. | 07-17-2014 |
20140309551 | Medical Device for Collection of a Biological Sample - A biological fluid sampling device for collecting a blood sample from a separate vascular access device and for ejecting a portion of the collected sample to a point-of-care testing device for analysis is provided. The biological fluid sampling device includes a body enclosing a reservoir. The reservoir has an internal volume sufficient to contain enough blood for use in a diagnostic test. The sampling device further includes: an access lumen extending from a distal end of the body for establishing fluid communication between a separate vascular access device and the reservoir; an outflow lumen also in fluid communication with the reservoir; and a removable vented cap attached to the outflow lumen including a gas permeable vent in gaseous communication between the reservoir and ambient air. In addition, several sample and transfer devices are provided for obtaining a sample from a subject and transferring the sample to a point-of-care testing device. | 10-16-2014 |