Abstract: Compositions and methods for large-scale recombinant protein expression are disclosed.

Abstract: A drug delivery catheter suited for cardiac procedures. The catheter an anchor associated with a needle, which can be used to secure the catheter to tissue for delivery of therapeutic agents to the tissue.

Abstract: A drug delivery catheter suited for cardiac procedures. The catheter includes a distal helical coil or other fixation and penetrating element which can be operated from the proximal end of the catheter to engage and penetrate the myocardium. Once delivered to the inside of the heart, the catheter can be used to inject small doses of therapeutic agents to the myocardium. The drug delivery system of the catheter allows for precise control of the dose injected into the heart wall.

Abstract: Implantable cardiac drug delivery systems. The systems are installed endocardially into a chamber in the heart, and are variously capable of delivering anti-arrhythmia agents into the heart wall, and into the epicardial space outside the heart, and into other chambers in the heart through the septa of the heart.

Abstract: A system is disclosed, for administering a therapeutic agent locally and to a depth within cardiac tissue. An elongate, flexible catheter contains a flexible electric conductor and supports at its distal end an implantable electrode incorporating a penetrating element, typically a fixation helix or a linear needle that penetrates cardiac tissue as the electrode is implanted. A therapeutic agent is delivered through the electrode, to the cardiac tissue surrounding the penetrating element. The electrode can act as a sensor, to monitor an electrical condition of the surrounding cardiac tissue, and to control delivery of the agent responsive to the sensed electrical condition. Several embodiments feature a distal reservoir adjacent the electrode for effecting transient deliveries of the therapeutic agent in minute quantities. Other embodiments are disclosed for providing sustained deliveries of the agents.

Abstract: The invention provides multimeric receptor-binding complexes, including chemokine tetramers, useful for recognizing and binding receptors bound to the surface of a wide variety of cells. The binding complexes are useful for identifying and isolating cells according to their specific receptors, screening for cells having a specific receptor or constellation of receptors, and introducing exogenous molecules (e.g., nucleic acids and toxins) into cells. Methods of producing the complexes and other uses are also described.

Abstract: A drug delivery catheter suited for cardiac procedures. The catheter includes a distal helical coil or other fixation and penetrating element which can be operated from the proximal end of the catheter to engage and penetrate the myocardium. Once delivered to the inside of the heart, the catheter can be used to inject small doses of therapeutic agents to the myocardium. The drug delivery system of the catheter allows for precise control of the dose injected into the heart wall.

Abstract: A system is disclosed, for administering a therapeutic agent locally and to a depth within cardiac tissue. An elongate, flexible catheter contains a flexible electric conductor and supports at its distal end an implantable electrode incorporating a penetrating element, typically a fixation helix or a linear needle that penetrates cardiac tissue as the electrode is implanted. A therapeutic agent is delivered through the electrode, to the cardiac tissue surrounding the penetrating element. The electrode acts as a sensor, electrically coupled through the flexible conductor, and monitors an electrical condition of the surrounding cardiac tissue. A controller is coupled to the sensor and to a pump or reservoir containing the therapeutic agent, to control delivery of the agent responsive to the sensed electrical condition. The implanted electrode further can be used to deliver RF current to ablate the surrounding tissue.

Abstract: A drug delivery catheter suited for cardiac procedures. The catheter includes a distal helical coil or other fixation and penetrating element which can be operated from the proximal end of the catheter to engage and penetrate the myocardium. Once delivered to the inside of the heart, the catheter can be used to inject small doses of therapeutic agents to the myocardium. The drug delivery system of the catheter allows for precise control of the dose injected into the heart wall.

Abstract: A system is disclosed, for administering a therapeutic agent locally and to a depth within cardiac tissue. An elongate, flexible catheter contains a flexible electric conductor and supports at its distal end an implantable electrode incorporating a penetrating element, typically a fixation helix or a linear needle that penetrates cardiac tissue as the electrode is implanted. A therapeutic agent is delivered through the electrode, to the cardiac tissue surrounding the penetrating element. The electrode acts as a sensor, electrically coupled through the flexible conductor, and monitors an electrical condition of the surrounding cardiac tissue. A controller is coupled to the sensor and to a pump or reservoir containing the therapeutic agent, to control delivery of the agent responsive to the sensed electrical condition. The implanted electrode further can be used to deliver RF current to ablate the surrounding tissue.

Abstract: Implantable cardiac drug delivery systems. The systems are installed endocardially into a chamber in the heart, and are variously capable of delivering anti-arrhythmia agents into the heart wall, and into the epicardial space outside the heart, and into other chambers in the heart through the septa of the heart.

Abstract: Implantable cardiac drug delivery systems. The systems are installed endocardially into a chamber in the heart, and are variously capable of delivering anti-arrhythmia agents into the heart wall, and into the epicardial space outside the heart, and into other chambers in the heart through the septa of the heart.

Abstract: A system is disclosed, for administering a therapeutic agent locally and to a depth within cardiac tissue. An elongate, flexible catheter contains a flexible electric conductor and supports at its distal end an implantable electrode incorporating a penetrating element, typically a fixation helix or a linear needle that penetrates cardiac tissue as the electrode is implanted. A therapeutic agent is delivered through the electrode, to the cardiac tissue surrounding the penetrating element. The electrode acts as a sensor, electrically coupled through the flexible conductor, and monitors an electrical condition of the surrounding cardiac tissue. A controller is coupled to the sensor and to a pump or reservoir containing the therapeutic agent, to control delivery of the agent responsive to the sensed electrical condition. The implanted electrode further can be used to deliver RF current to ablate the surrounding tissue.

Abstract: T cells are specifically labeled according to their antigen receptor by binding of a multimeric binding complex. The complex is prepared with major histocompatibility complex protein subunits having a homogeneous population of peptides bound in the antigen presentation site. The multimeric MHC-antigen complex forms a stable structure with T cells, thereby allowing for the labeling, identification and separation of specific T cells.