Syringes and methods of using are described which protect materials within the syringe barrel cavity from contaminants and photo-chemical degradation. A syringe is provided having an inspection window for viewing medications or other materials within the cavity of a syringe barrel. The syringe barrel and other syringe components may be colored, opaque, darkened, amber, tinted; or the syringe barrel may have applied thereto polarizing filters; or materials having light polarizing properties can be used to manufacture the syringe barrel and other syringe components of the syringe to cancel particular components of light.

This disclosure describes devices and methods used to inject or aspirate fluid into or from various regions of the human body, such as the anterior chamber of the eye. The disclosed devices and methods provide improvements over conventional devices and methods in that an operator can perform a procedure using the disclosed device without an assistant. The disclosed devices and methods allow one-handed injection or aspiration of fluid into or from body tissue, and provide means for controlling the volume of injected or aspirated fluid.

A drug administration instrument including a syringe including: a tubular surrounding periphery portion forming a drug chamber configured to store a drug; a discharge part disposed at a first axial end of the surrounding periphery portion; and a flange portion disposed at a second axial end of the surrounding periphery portion; and a sheath member having a tubular shape, surrounding an outer circumference of the surrounding periphery portion of the syringe, and holding the syringe. The sheath member includes a fitting part configured to support at least one of the surrounding periphery portion and the discharge part of the syringe.

Injection device and method for monitoring injection information relating to an injection. A syringe of the device includes a syringe chamber containing an injectant substance. A plunger of the device includes a plunger rod axially displaceable within the syringe chamber. At least one element of the is configured to undergo a corresponding element motion linked to a distal displacement of the plunger rod. A sensor of an electronics unit of the device obtains detection readings relating to the corresponding element motion. An injection is performed by depressing the plunger rod in a distal direction, compelling a corresponding element motion detected by the sensor, and compelling the injectant substance to be injected through a distal end of the syringe chamber. The detection readings relating to the corresponding element motion of the element is processed to determine injection information including at least the volume of injectant substance injected.

A Luer-lock fastening needle hub is proposed. The Luer-lock fastening needle hub has an insertion groove for a front end of a tapered tube of a barrel to receive the tapered tube into which a plunger is inserted, so that a plunger contact surface is inserted into the tapered tube of a front discharge end of the barrel. The Luer-lock fastening needle hub has a needle cap fastening grooves formed along an outer circumference thereof and “V”-shaped insertion guides are formed in four direction at front portions of openings of the needle cap fastening grooves, so that fastening protrusions formed on an inner surface of a needle cap are unaffectedly guided by the “V”-shaped insertion guides and are easily aligned and fastened to the needle cap fastening grooves.

Described are RNA interference (RNAi) agents for treating a Hepatitis D Virus (HDV) infection in a subject in need thereof.

Rapidly insertable central catheters (“RICCs”) including catheter assemblies and methods thereof are disclosed. A RICC assembly can include a RICC, an introducer, and a coupling system configured to couple the RICC and the introducer together. A catheter tube of the RICC includes a side aperture in a distal-end portion of the catheter tube, which opens into an introducing lumen extending to a distal end of the RICC. The introducer includes an introducer needle extending through the distal end of the RICC when the RICC assembly is in at least a ready-to-deploy state thereof. The introducer is configured to be actuated with a single finger of a hand while holding a distal-end portion of the introducer between a thumb and another finger or fingers of the hand. The coupling system includes a distal coupler slidably attached to the catheter tube proximal of the side aperture.

An apparatus for filling a syringe with a verified dose of radiant fluid has a container holder that holds a container of the radiant fluid wherein a syringe oriented at a septum of the container can penetrate the septum. The syringe holder is configured to continuously grip the syringe, to drive the syringe to the container holder and penetrate the septum, to fill the syringe with a dose of the radiant fluid from the container, to drive the syringe to a transfer post, to drive the syringe to a metering zone of a metering station in order to verify that measured radiation is compatible with the dose, and to release the continuous grip.

A safety syringe comprising a barrel having an opening at an end thereof and a bung positioned in the barrel and creating a volume between the opening and the bung. The safety syringe also comprises a handle portion secured to the barrel and a syringe plunger slidably engaged with the handle portion and moveable within the barrel on an inward stroke to drive the bung forwards within the barrel to cause a substance within the volume to be expelled from the opening. The safety syringe further comprises a rotation mechanism configured to rotate the syringe plunger within the barrel at a point during the inward stroke when the syringe plunger is in contact with the bung, such that a rotational force is applied to the barrel and a brake connected to the handle portion and configured to provide a frictional force to resist the rotational force applied to the barrel.

A system for injecting includes a syringe body, a syringe interior, a syringe flange, and a stopper member and an injectable fluid disposed in the syringe interior. The system also includes a plunger member coupled to the stopper member. The system further includes a finger flange removably coupled to the syringe flange, the finger flange defining a pair of side openings and a pair of bumps adjacent respective side openings. Moreover, the system also includes a swing spacer rotatably coupled to the finger flange, the swing spacer defining a pair of arms, a pair of pivot pins, two pairs of slots, and a pair of indentations. The swing spacer is configured to define a distance of movement of the plunger member relative to the syringe body along a longitudinal axis of the syringe body, thereby defining a dose of the injectable fluid.