Mixing a low-viscosity solution and a high-viscosity solution was difficult. An object of the present invention is to provide a holder for mixed administration of at least two types of solutions for enhancing the radiation or anticancer therapeutic effect on a tumor, wherein the holder is capable of simultaneously discharging each solution at a constant ratio from respective syringes containing each solution.

Modules for housing electronic and electromechanical medical equipment including a system to measure and record administration of one or more IV medications or fluids for IV administration.

Modules for housing electronic and electromechanical medical equipment including a system to measure and record administration of one or more IV medications or fluids for IV administration.

A fluid injector system includes at least one syringe configured for injecting medical fluid and a fluid path assembly in fluid communication with the at least one syringe, the fluid path assembly including at least one air detection region. The system includes an air detector configured to detect one or more air bubbles in a fluid path associated with the air detection region, at least one shutoff valve at a distal end of the fluid path assembly, and at least one processor programmed or configured to actuate the shutoff valve in response to the air detector detecting the one or more air bubbles in the fluid path associated with the air detection region to prevent fluid flow out of the fluid path assembly. The fluid path assembly has a length greater than a distance that an air bubble can travel or expand during an actuation time of the shutoff valve.

An infusion system for subcutaneous delivery of a fluid to a subject is disclosed. The infusion system comprises a source of a fluid; a fluid delivery system; a first fluid conduit in fluid communication with the source of the fluid and the fluid delivery system; a fluid injection device configured to be inserted into the skin of a subject for delivering the fluid to the subject; a second fluid conduit in fluid communication with the fluid delivery system and the fluid injection device; and a support frame attached to the source of the fluid and the fluid delivery system, wherein the support frame is configured to mount the source of the fluid and the fluid delivery system on a region of a head of the subject. The fluid delivery system moves the fluid from the source of the fluid, through the first fluid conduit, through the second fluid conduit, and through the fluid injection device.

An embodiment of the invention is directed to a microfabricated, silicon-based, Convection Enhanced Delivery (CED) device. The device comprises a silicon shank portion, at least one individual parylene channel disposed along at least a part of an entire length of the shank, wherein the channel has one or more dimensioned fluid exit ports disposed at one or more respective locations of the channel and a fluid (drug) input opening. The fluid input opening may be configured or adapted to be connected to a fluid reservoir and/or a pump and/or a meter and/or a valve or other suitable control device(s) or apparatus that supplies and/or delivers fluid (e.g., a drug) to the microfabricated device. The device may have multiple channels disposed side by side or in different surfaces of the device. The device may be rigid, or flexible, in which case a flexible device can be attached to a bio-degradable support scaffold that provides sufficient structural rigidity for insertion of the device into the target tissue. In certain “functionalized” embodiments of the invention, the CED device is equipped with integrated electrodes and/or a sensor (e.g., glutamate) to detect and convey selective parametric information. Another embodiment of the invention is directed to a CED method for drugs and/or other agents. The method may comprise the delivery of enzymes or other materials to modify tissue permeability and improve drug diffusion. Another embodiment of the invention is directed to a method for making a device for CED of drugs.

An automated dose-response record system including a module for housing waste-heat producing electronic and electromechanical medical equipment including at least one physiologic monitor, and including a system to measure, temporally correlate and record dose and response events.

Delivery systems and methods for forming and delivering biomaterials from two components are described herein. In particular, apparatus and methods for performing controlled delivery of multicomponent delivery of biomaterials into or onto a body part, such as a body lumen are described. More specifically, in some embodiments, the apparatus and methods are directed towards controlled delivery of micro-volumes of biomaterials into or onto a target location, the micro-volumes being defined as 0.001 mL-1 mL (or 1 μL-1,000 μL) of volume.

The present invention relates to recombinant adeno-associated virus (rAAV) delivery of an alpha-sarcoglycan gene. The invention provides rAAV products and methods of using the rAAV in the treatment of limb girdle muscular dystrophies such as LGMD2D.

An intravenous (IV) set system comprising a primary IV set defining a primary flow line of the IV set system. The primary flow line can include multiple access points along its length and feeds to a merging fluid pathway proximate to the distal terminus of the primary IV set. At least one secondary IV set with corresponding flow lines can be separably joined to the primary IV set to cause the secondary flow lines to be in fluid communication with the primary flow line. At least one of the IV sets can have a unique set of uniform marking indicia to facilitate rapid identification of the IV sets from other IV sets within the IV set system. Such marked and identified primary and/or secondary IV sets can be allocated to specific medical functions and/or can be for use by specific medical personnel to thereby minimize risk of error in administration of an IV to a patient. The IV set system can further comprise a merging fluid pathway about a primary IV set.