Abstract: Insect pests can be controlled by treating the pests or their loci with a combination of recombinant virus and organic insecticide. The recombinant virus preferably is a baculovirus. Combinations of recombinant baculovirus with chemical insecticides provide a dose-response in pests, such as insects, that is greater than additive. Preferred treatments of the invention are uses of recombinant baculoviruses that express a foreign protein or toxin, with pyrethroid insecticides. Treatments against pyrethroid resistant pests are especially useful.
Type:
Grant
Filed:
September 21, 2001
Date of Patent:
July 22, 2003
Assignee:
The Regents of the University of California
Abstract: The present invention includes a system and method for transferring a selected solute species from a fluid mixture to a fluid media. The system of the present invention includes a convergent channel for passing a fluid mixture containing a selected species tangentially across the first surface of a porous membrane. A fluid media is directed to flow tangentially over the second surface of the membrane. As the fluid mixture and the fluid media flow on opposite sides of the membrane, the selected species traverses the membrane leaving the fluid mixture and entering the fluid media. The volumetric loss to the fluid mixture associated with the loss of the selected species is compensated for by the convergency of the channel. As a result a constant velocity is maintained over the membrane, maximizing the selectivity of the filtration process.
Abstract: An electrosurgical biopsy device includes a stylet and a cannula movably mounted on a base. The stylet has a shaft with a head at its distal end and a stylet ablation element extending distally from the head. The stylet shaft is disposed through the cannula for axial translation therein between withdrawn and extended positions. The cannula has an opening at its distal end and a cannula ablation element adjacent the opening. Both ablation elements are activatable with energy that ablates adjacent tissue. A translation mechanism controllably moves (a) the stylet between the withdrawn and extended positions and (b) the cannula between a proximal position and a distal position relative to the base. In use, with the stylet in the withdrawn position against the distal end of the cannula, and with the stylet ablation element activated, the stylet and the cannula are pushed through the skin and the underlying tissue until the stylet head is adjacent a targeted tissue mass.
Type:
Grant
Filed:
September 23, 1998
Date of Patent:
July 17, 2001
Assignee:
SenoRx, Inc.
Inventors:
Fred H. Burbank, Paul Lubock, Michael L. Jones, Richard L. Quick
Abstract: A guiding catheter system for delivering an elongated therapeutic or diagnostic device into a patient's left ventricle which includes a first guiding catheter with a shaped distal extremity configured to be aligned with or parallel to a longitudinal axis or long dimension of the patient's left ventricle and a second guiding catheter slidably and rotatably disposed within an inner lumen of the first guiding catheter which has a shaped distal shaft section and an inner lumen configured to slidably receive an elongated therapeutic or diagnostic device such as a tissue ablation device, e.g. an optical fiber connected to a laser source, an ultrasonic energy emitting device or a radio frequency energy emitting device. The shaped distal section of the first guiding catheter is shaped or is shapable within the patient's heart chamber.
Abstract: Optical components have a material-distribution gradient due to nanometer-size particles embedded in a solid matrix. The components are manufactured by forming a dispersion of nanometer-size particles in a liquid, curable matrix material, causing the particles to migrate in the matrix material on the basis of a potential difference to form a distribution gradient, and subsequently curing the matrix material, retaining the distribution gradient. The method is suitable for use in the manufacture of optical lenses with a refractive index gradient.
Type:
Grant
Filed:
October 1, 1998
Date of Patent:
May 22, 2001
Assignee:
Institut für Neue Materialien gemeinnützige
GmbH
Inventors:
Helmut Schmidt, Herbert Krug, Peter W. Oliveira, Stefan Sepeur