Abstract: The present invention provides an injector device that can be used to inject a medicament. The injector device includes a body having a syringe cavity and incorporating a syringe. The syringe includes a barrel defining a reservoir for an injectable medicament and an injection needle is in communication with the reservoir such that the medicament content in the reservoir can be expelled from the reservoir via the needle. The syringe includes an internal piston which can be moved in an injecting direction along inside the barrel toward the needle to inject the medicament content through the needle. The syringe is slidably moveable within the syringe cavity in the body between a first configuration in which the needle has its point shielded, and a second configuration in which the needle is exposed for use for an injection to be administered, and back again.
Abstract: A method for intracranial treatment of a patient is disclosed. The method comprises the steps of inserting into the brain an outer catheter having an exterior surface, an inflatable balloon mounted upon the exterior surface, at least one element distal to the balloon upon the exterior surface, at least one aperture and a lumen; inflating the balloon to seal a tract created during insertion; inserting an inner catheter into the lumen which has a passageway and at least one port, the outer catheter guiding the inner catheter to the desired tissue region; and transferring fluids between the proximal end of the inner catheter and the tissue region through the passageway. Each element is adapted for monitoring or electronically stimulating brain tissue or for allowing identification of the location of the element catheter within the brain. The method facilitates regular accurate placement of the drug delivery catheter at the tissue region without additional extended brain contact during insertion.
Abstract: A catheter, for example, a balloon catheter has a first and second section and a transition between the sections. The sections and the transition are arranged to enhance catheter deliverability.
Type:
Grant
Filed:
February 26, 2004
Date of Patent:
January 16, 2007
Assignee:
Scimed Life Systems, Inc.
Inventors:
Douglas A. Devens, Jr., Edward E. Parsonage, Tracee Eidenschink
Abstract: A balloon catheter having a balloon with a thickened wall portion extending along at least a portion of the working length section of the balloon in a noninflated configuration. The balloon has a first layer formed of a first polymeric material and a second layer formed of a second, different polymeric material, the second layer having a wall thickness which is greater along the central working length section than the wall thickness of the second layer along a section proximal and/or a section distal to the central working length of the balloon. In a presently preferred embodiment, the first layer is formed of a porous material such as expanded polytetrafluoroethylene (ePTFE), and the second layer of the balloon is formed of an elastomeric polymer. The balloon catheter has a highly flexible distal section and a relatively high strength, low profile balloon, due to the balloon configuration of the invention.