Provided herein is a blood collection device having a tube having a proximal end, a distal end, and a sidewall therebetween defining an interior, the interior configured to receive a blood sample through one or more openings at the distal end of the tube when the distal end of the tube is positioned in a blood vessel and an obturator slidably disposed relative to the tube and received within the interior of the tube.

An integrated catheter is disclosed having a body defining a channel to direct a biological fluid therethrough, a connection port defined in the body, in which an extension tube is fluidly coupled to the connection port, a vented access port in fluid communication with the extension tube, the vented access port spaced apart from the connection port, an integrated catheter operatively connected to the body to direct a biological fluid into the body, and a distal access port defined in the body, the distal access port configured to be in fluid communication with a removable sample collection container. An initial biological fluid volume directed through the body is directed into the extension tube via the connection port and into the vented access port.

A catheter extension set is disclosed having a body defining a channel to direct a biological fluid therethrough, a connection port defined in the body, in which an extension tube is fluidly coupled to the connection port, a vented access port in fluid communication with the extension tube, the vented access port spaced apart from the connection port, a non-integrated catheter removably connectable with the body to direct a biological fluid into the body, and a distal access port defined in the body, the distal access port configured to be in fluid communication with a removable sample collection container. An initial biological fluid volume directed through the body is directed into the extension tube via the connection port and into the vented access port.

A blood sample collection system includes a blood access device having a fluid flow path and a diagnostic device configured to receive a sample of blood, where the diagnostic device is in fluid communication with the fluid flow path, and where the diagnostic device is configured to be detached from the blood access device.

The present invention relates to a sensor applicator assembly for a continuous glucose monitoring system and provides a sensor applicator assembly for a continuous glucose monitoring system, which is manufactured with a sensor module assembled inside an applicator, thereby minimizing additional work by a user for attaching the sensor module to the body and allowing the sensor module to be attached to the body simply by operating the applicator, and thus can be used more conveniently. A battery is built in the sensor module and a separate transmitter is connected to the sensor module so as to receive power supply from the sensor module and be continuously used semi-permanently, thereby making the assembly economical. The sensor module and the applicator are used disposables, thereby allowing accurate and safe use and convenient maintenance.

The present invention relates to a sensor applicator assembly for a continuous glucose monitoring system and provides a sensor applicator assembly for a continuous glucose monitoring system, which is manufactured with a sensor module assembled inside an applicator, thereby minimizing additional work by a user for attaching the sensor module to the body and allowing the sensor module to be attached to the body simply by operating the applicator, and thus can be used more conveniently. A battery is built in the sensor module and a separate transmitter is connected to the sensor module so as to receive power supply from the sensor module and be continuously used semi-permanently, thereby making the assembly economical. The sensor module and the applicator are used as disposables, thereby allowing accurate and safe use and convenient maintenance.

A blood draw device for use with a peripheral intravenous catheter (PIVC) includes a catheter having a proximal end, a distal end, and a sidewall defining a lumen, a secondary catheter having a proximal end, a distal end, and a sidewall defining a lumen, an introducer having a proximal end, a distal end, and a sidewall defining an inner volume configured to movably receive the catheter, and an actuator movably coupled to the introducer. The actuator having a first portion disposed outside of the introducer and a second portion disposed in the inner volume of the introducer. The second portion of the actuator having a main body with a first height and an extension with a second height. The main body and the extension define an opening, with the catheter and the secondary catheter attached to the actuator and in fluid communication with the opening.

The present invention relates to a sensor applicator assembly for a continuous glucose monitoring system and provides a sensor applicator assembly for a continuous glucose monitoring system, which is manufactured with a sensor module assembled inside an applicator, thereby minimizing additional work by a user for attaching the sensor module to the body and allowing the sensor module to be attached to the body simply by operating the applicator, and thus can be used more conveniently. A battery is built in the sensor module and a separate transmitter is connected to the sensor module so as to receive power supply from the sensor module and be continuously used semi-permanently, thereby making the assembly economical. The sensor module and the applicator are used as disposables, thereby allowing accurate and safe use and convenient maintenance.

The present invention relates to a sensor applicator assembly for a continuous glucose monitoring system and provides a sensor applicator assembly for a continuous glucose monitoring system, which is manufactured with a sensor module assembled inside an applicator, thereby minimizing additional work by a user for attaching the sensor module to the body and allowing the sensor module to be attached to the body simply by operating the applicator, and thus can be used more conveniently. A battery is built in the sensor module and a separate transmitter is connected to the sensor module so as to receive power supply from the sensor module and be continuously used semi-permanently, thereby making the assembly economical. The sensor module and the applicator are used as disposables, thereby allowing accurate and safe use and convenient maintenance.

A triple syringe system that allows for a larger combined output of PRP (platelet rich plasma) and PPP (platelet poor plasma). The multi-syringe system allows for the connection of two or more additional syringes. The fractions may be extracted with the multi-syringe system of the present invention at different sequential times, or at the same time.