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  Devices, systems and methods for acute or chronic delivery of substances or apparatus to extravascular treatment sitesUSPTO Application #: 20080058759Title: Devices, systems and methods for acute or chronic delivery of substances or apparatus to extravascular treatment sites Abstract: Methods and apparatus for delivery of substances or apparatus to target sites located outside blood vessels within the body of a human or animal patient. A vessel wall penetrating catheter is inserted into the vasculature, positioned and oriented within a blood vessel near the target extravascular site and a penetrator is advanced from the catheter so as to penetrate outwardly through the wall of the blood vessel in the direction of the target site. Thereafter, a delivery catheter is passed through a lumen of the penetrator to the target site. A desired substance or apparatus is then delivered to or obtained from the target site. In some applications, the penetrator may be retracted into the vessel wall penetrating catheter and the vessel wall penetrating catheter may be removed, leaving the delivery catheter in place for chronic or continuous delivery of substance(s) to and/or obtaining of information or samples from the target site. Alternatively, a delivery catheter having an occlusion member or balloon may be advanced into a vein or venule and the occlusion member or balloon may be used to occlude the lumen of the vein or venule during and after injection of a substance through the catheter, such that the substance will not be carried away by normal venous blood flow and will remain in the vein or venule for a sufficient period of time to have its intended effect (e.g. to enter adjacent tissues through capillary beds drained by that vein or venule). (end of abstract) Agent: Medtronic Vascular, Inc.IPLegal Department - Santa Rosa, CA, US Inventors: Joshua Makower, Theodore C. Lamson, J. Christopher Flaherty, John A. Reggie, John Y. Chang, Joseph Catanese, David R. Tholfsen USPTO Applicaton #: 20080058759 - Class: 604509000 (USPTO) Related Patent Categories: Surgery, Means For Introducing Or Removing Material From Body For Therapeutic Purposes (e.g., Medicating, Irrigating, Aspirating, Etc.), Treating Material Introduced Into Or Removed From Body Orifice, Or Inserted Or Removed Subcutaneously Other Than By Diffusing Through Skin, Method, Therapeutic Material Introduced Or Removed Through A Piercing Conduit (e.g., Trocar) Inserted Into Body, Therapeutic Material Introduced Into Or Removed From Vasculature, By Catheter, The Patent Description & Claims data below is from USPTO Patent Application 20080058759. Brief Patent Description - Full Patent Description - Patent Application Claims
RELATED APPLICATIONS [0001] This patent application is a division of copending U.S. patent application Ser. No. 10/466,622 filed on Mar. 1, 2004 which is a Section 371 national stage application based on PCT International Application No. PCT/US02/01168 filed Jan. 1, 2002 which claims priority to U.S. patent application Ser. No. 09/766,502 filed Jan. 17, 2001. BACKGROUND OF THE INVENTION [0002] There exist many situations in which it is desirable to deliver substances (e.g., drugs, biological materials, etc) or apparatus (e.g., wires, sensors, etc.) to specific locations within tissues (i.e. an "interstitial target site") of the body of a human or veterinary patient. Examples of the types of tissues wherein such target sites may be located include myocardial tissue, brain tissue or tumors. [0003] Some catheters and drug delivery stents of the prior art have been purportedly useable to indirectly deliver drugs or substances to specific interstitial target locations by first dispensing the drug within the lumen of a nearby blood vessel or on the inner surface of a nearby blood vessel and then allowing the drug to migrate through the blood vessel wall or through a downstream capillary bed, to the desired interstitial target location. [0004] The prior art has also included catheter devices that may be used for delivering substances or apparatus directly into interstitial target locations by guided advancement of a penetrating cannula or needle from a catheter located within the lumen of a nearby blood vessel, through the wall of the blood vessel and through any intervening tissue, to the interstitial target site. The desired substance or apparatus may then be infused or delivered directly into the target interstitial site without any need for transmural diffusion through the blood vessel wall or downstream transluminal flow to the selected capillary bed. Examples of these catheter devices useable for direct delivery of drugs or apparatus into interstitial target sites are described in PCT International Patent Publications No. PCT/US99/07115 and PCT/US99/07112. [0005] Particular interest has developed in methods for controlled or targeted delivery of substances such as drugs (e.g., chemotherapeutic agents), gene therapy compositions (e.g., plasmids, viral vectors, genetically modified cells, naked DNA), biological factors (e.g., angiogenic factors, nerve growth factors, other cell growth factors, other proteins), monoclonal antibodies, or specific cell types (e.g., stem cells or other progenator cells, pancreatic islet cells, dopamine secreting neurons, endothelial cells, myocardial cells, other myocytes, etc) into interstitial target locations for the purpose of treating diseases such as myocardial ischemia, solid tumor types of cancer, parkansonism, diabetes, etc. Specifically, in the treatment of myocardial ischemia, research has indicated that introduction of certain angiogenic substances into ischemic areas of myocardium may result in "therapeutic angiogenesis" in patients who suffer from clinically significant coronary artery disease. Generally speaking, the term "angiogenesis" refers to the creation of new capillaries and/or blood vessels within the parenchyma of an organ, within a tumor or within an area of tissue (e.g., myocardium). Angiogenesis is believed to occur as a multistep process in which endothelial cells focally degrade and invade through their own basement membrane, migrate through interstitial stroma toward an angiogenic stimulus, proliferate proximal to the migrating tip, organize into blood vessels, and reattach to newly synthesized basement membrane. The term "therapeutic angiogenesis" involves the administration of angiogenic substances or treatments to promote one or more steps in the angiogenesis process thereby providing for the creation of new blood flow in tissue that previously lacked sufficient blood flow. [0006] Various approaches have heretofore been used for delivery of angiogenic substances into the myocardium. One approach is the use a tissue penetrating device such as a laser to create penetration tracts or transmyocardial (TMR) channels which extend from either the epicardial (outer) surface or endocardial (inner) surface of the heart into the myocardium, and to then inject quantities of angiogenic substances into those TMR channels. Examples of this approach are described in U.S. Pat. No. 5,925,012 (Murphy-Chutorian, et al.), U.S. Pat. No. 5,999,678 (Murphy-Chutorian, et al.) And U.S. Pat. No. 6,106,520 (Laufer, et al.) [0007] There remains a need in the art for the development of new apparatus and methods for delivering substances or apparatus to specific target sites within tissues, tumors or organs of the body with minimal trauma to the tissues and optimum control as to the precise location(s) at which the substances or apparatus are introduced. SUMMARY OF THE INVENTION [0008] The present invention provides transluminal methods, devices and systems for delivering substances (e.g., drugs or other therapeutic or diagnostic agents) or articles (e.g., devices, apparatus, wires, sensors, thermistors, etc.) to interstitial sites within the body of a human or veterinary patient. [0009] In accordance with one aspect of the invention, there is provided a system comprising a) a penetrating catheter that is positionable within the vasculature (e.g., a blood vessel, vascular sinus or chamber of the heart) of a human or animal patient and which has a penetrator advanceable from the catheter in the direction of an extravascular target site and b) a delivery catheter that is advanceable from the penetrator to the target site. As used herein, the term "vessel wall" shall mean not only the wall of a blood vessel (i.e., artery or vein) but also the endocardium surrounding a chamber of the heart or any other wall of an anatomical structure in which the penetrating catheter is positioned and through which the penetrator advances to reach its intended position within adjacent tissue. The Substance(s), article(s) or apparatus may then be delivered to the target site through the delivery catheter and/or samples of body fluid or other information may be obtained from the target site through the delivery catheter. In applications where it is desired to use the delivery catheter continuously or intermittently over an extended period of time (e.g., hours, days, weeks or months) the penetrator may be withdrawn into the vessel wall penetrating catheter and the vessel wall penetrating catheter may be removed, leaving just the delivery catheter in place (e.g., extending through the patients blood vessel(s), outwardly through the penetration formed in the blood vessel wall and to the target site.) Also, the substance or article(s) may be injected periodically or continuously as the delivery catheter is being advanced or retracted, so as to provide a continuous "trail" or series of deposition sites wherein the substance or article(s) is/are deposited. [0010] In accordance with the invention, the use of a unicurvate or multicurvate penetrator (or a curved delivery catheter in combination with a straight, unicurvate or multicurvate penetrator) may serve to guide the delivery catheter on a path that is navigates around anatomical structures or avoid penetration into a cavity, organ or anatomical structure that the operator does not wish for the delivery catheter to enter. In this regard, the delivery catheter may be guided such that it advances on a path that is generally tangential to the wall or edge or a chamber of the heart or other cavity or anatomical structure that the operator does not wish to enter or penetrate. This ability to avoid penetration of a chamber, cavity or anatomical structure may allow a greater length of the delivery catheter to be advanced into the tissue than would have been otherwise possible. The advancement of a greater length of delivery catheter into the tissue may allow for deposition of a longer trail or a more lengthy series of depots of an injected material than would be possible if the delivery catheter were to have been advanced in the direction of or non-tangentially to the chamber of the heart or other cavity or anatomical structure that the operator does not wish to enter or penetrate. Also, the ability to provide a lengthy trail or series of deposition sites may be advantageous in certain applications of the invention. For example, the ability to deposit a tissue graft or cells (e.g., stem cells, myoblasts, etc.) in an elongate trail may allow for the cells to form an organized structure wherein the cells communicate with one another and/or form a connection between two spaced apart regions of an organ or tissue mass. In cases where angiogenic substances are being injected through the delivery catheter, the ability to lay down a trail of the angiogenic substance may permit the operator to define a line or elongate region of new blood vessel growth. Also, advancement of a more lengthy segment of the delivery catheter into the tissue may provide for deeper injection of substances with less potential for bleedback or regurgitation through the interstitial tract created by advancement of the penetrator and/or delivery catheter. Also, this capability of the system allows for the deposition of a series or network of elongate trails or tracts of a substance or article, or spaced apart interstitial deposits of a substance or article in a manner that allows the individual trails, tracts or deposits to form a network and to interact with one another in a desired manner. [0011] The types of substances that may be delivered through the delivery catheter include drugs (thrombolytics, platelet inhibitors, anti-restenotic agents, beta blockers, ion channel antagonists, positive or negative ionotropic agents, anti-arrhythmics, antibiotics, analgesics, chemotherapeutic agents, other anti-neoplastic agents, etc.), natural or recombinant proteins (e.g., angiogenic proteins such as vascular endothelial growth factor (VEGF), fibroblast growth factors (FGF), epidermal growth factor (EGF), platelet-derived growth factor (PDGF) nerve cell growth factor (NGF) or hepatocyte growth factor (HGF)), cells or cellular preparations (e.g., stem cells, other progenetor cells, myocytes, myoblasts, pancreatic islet cells, dopamine secreting cells, etc), genes or gene therapy preparations (e.g., viral vectors containing genes for gene therapy applications, genetic material for electrophoretic transmission into cells, plasmids, viral vectors, genetically modified cells, naked DNA, etc.), contrast media or dyes for imaging, radio-labeled diagnostic materials or drugs or other traceable substances, mixtures of any of the above, alone, in solution or in combination with any delivery substance or matrix (e.g., polymer matrices used to inhibit or slow distribution or dissemination of a substance away from its original injection site), dialysis solutions or micro-dialysis solutions, or any other type of substances that may be introduced through the delivery catheter for any therapeutic, imaging, diagnostic or other purpose. [0012] Further in accordance with the invention, the types of target tissues into which the delivery catheter of the above-described system may be placed include various organs (e.g., heart, brain, liver, pancreas), the walls of blood vessels (by injection directly into the vessel wall or by injection into a periadventital area outside of but close to the vessel so that the drug or substance will be distributed into the vessel wall), muscles (e.g., myocardium, skeletal muscle) or aberrant masses (e.g., tumors, cysts). [0013] Still further in accordance with the invention, substances delivered through the delivery catheter may be of increased viscosity to deter their egress from the target area, may be adherent to tissues in the target area so as to deter egress of the substance from the target area and/or may harden or form a mass in situ after injection into the target area, thereby deterring egress of the substance from the target area. [0014] Still further in accordance with the invention, the outlet port(s) of the delivery catheter may be configured such that substances injected through the delivery catheter will form high pressure jet sprays into the tissue surrounding the delivery catheter. [0015] Still further in accordance with the invention, the vessel wall penetrator of the vessel wall penetrating catheter and/or the delivery catheter may be equipped with backflow deterrent for limiting or preventing fluid that is injected through the delivery catheter from bleeding back through the tissue tract through which the delivery catheter and/or penetrator was/were advanced. In chronic dosing applications wherein the delivery catheter remains indwelling, such backflow deterrent may comprise a balloon, annular rib or other barrier formed on the outer surface of the delivery catheter to block the backflow of fluid through the tract in which the delivery catheter resides. In acute dosing applications wherein the delivery catheter is extracted and removed immediately after injection of the substance, the backflow deterrent may comprise a) an embolizing member such as a detachable blocker, balloon, clot, fibrin, bead of polyvinyl alcohol, etc. that is deployed into the tissue tract as the delivery catheter and/or penetrator is/are retracted, b) a substance such as a cyanoacrylate, polyethylene glycol, hydrogel, fibrin glue or other material is injected to embolize, seal or close the tract through which the delivery catheter and/or penetrator was/were advanced or c) a tissue fusing device, such as a radio-frequency emitting electrode, for welding or fusing adjacent tissue in a way that effectively closes the tract through which the delivery catheter and/or penetrator was/were advanced. [0016] Still further in accordance with the invention, the delivery catheter of the above-described system may be used for aspiration of samples of blood or body fluid from the target site and/or may include one or more interactive members, such as emitters, detectors, electrodes, sensors, etc. for a) facilitating the delivery catheter's penetration through tissue, b) facilitating the distribution of an injected substance into surrounding tissues (e.g., by iontophoresis), c) creating a pocket into which a substance may be injected or d) sensing the position of the delivery catheter or some content or variable (e.g., ECG, contractility, force of contraction, pressure, local ECG amplitude, local protein levels, local antibody levels, pO.sub.2, pCO.sub.2, oxygen saturation, blood flow rate, pH, local lactate levels, etc.) of the adjacent tissue. [0017] Still further in accordance with the invention, the delivery catheter may be used to continuously or intermittently monitor physiological parameters or variables (e.g., rate of blood flow away from the site) or pharmacokinetic or biodistributive parameters or variables (e.g., the rate at which a substance will distribute away from the target site, how long the injected substance may be expected to remain at the target site, the rate at which the injected substance may be inactivated or metabolized at the target site and/or other parameters/variables relating to the activity of the substance after it has been injected at the site). Such information may then be used to verify that the delivery catheter is suitably placed for optimal or desired therapeutic effect of an injected substance or apparatus delivered to the site. If it is determined that an injected substance is likely to distribute away from the target site too quickly, or remain at the target site for too long, or become inactivated too quickly or not quickly enough, the delivery catheter may be reposition to a site that is more desirable. Similarly, if it is determined that the site is too vascularized or not vascularized enough for the desired therapeutic or diagnostic activity of the delivered substance or apparatus, the delivery catheter may be repositioned to a new target site that is suitably vascularized, before continuing with delivery of the substance or apparatus through the delivery catheter. One example of a manner in which this type of site monitoring may be accomplished is to deliver radio-opaque dye, a radio-labeled substance or other traceable material through the delivery catheter and to the location adjacent the outlet port(s) of the delivery catheter (i.e., the target site to which the therapeutic or diagnostic substance is being or will be delivered) Thereafter, the rate at which that traceable substance distributes away from that site (or the rate at which it becomes inactivated, degraded or metabolized) may be measured by appropriate means such as x-ray (when radio-opaque traceable material is used) or radio-scanning (when radio-labeled traceable material is used). If the site is deemed to be acceptable, the therapeutic or diagnostic substance or apparatus may be delivered to the site. If the site is deemed to be unacceptable (or less than optimal) the delivery catheter may be repositioned and the test may be repeated. In some applications, the delivery catheter may have multiple lumens such that a therapeutic or diagnostic substance or apparatus may be delivered through one lumen and a traceable substance useable for site monitoring/verification may be delivered through another lumen. [0018] Still further in accordance with the invention, the delivery catheter of the above-described system may include anti-obstruction apparatus (e.g., a mandrel, stylet, inflatable member or semi-permeable barrier) that allows the desired substances or apparatus to be introduced in the distal direction through the delivery catheter but prevents cellular ingrowth or other matter from invading and obstructing the lumen and/or outlet port(s) of the delivery catheter. In this manner, the delivery catheter remains patent, even when it has been indwelling within tissue for an extended period of weeks or months. [0019] Still further in accordance with the invention, the efficacy of substances injected through the delivery catheter may in some applications be enhanced by limiting the rate at which the substance distributes away from the site or otherwise altering the biodistribution and/or pharmacokinetics of the substance after it has been introduced into the body. This may be accomplished by introducing the substance in the form of a solid, dry pellet, implant, filament or gel. Alternatively, this may be accomplished by micro-encapsulating or mixing the substance with a polymer matrix, oil or other drug delivery matrix or material that is prepared before injection or formed in situ or by forming liposomes or colloidal suspensions containing the substance, etc. Another way in which this may be achieved is by causing the substance to promptly enter cells rather than allowing the substance to remain disposed in intercellular fluids or intercellular spaces from which the substance my quickly distribute or disseminate away from the injection site (e.g., by driving the substance into adjacent cells by electrophoretic means or chemical means, by modifying the properties (e.g., solubility, polarity, pH) of the substance in a manner which will facilitate its transport into cells, by atomizing or spraying the substance as it exits the catheter, or by causing the substance to exit the catheter at increased velocity or force. [0020] The invention together with additional features and advantages thereof may best be understood by reference to the following description taken in connection with the accompanying illustrated drawings. BRIEF DESCRIPTION OF THE DRAWINGS Continue reading... Full patent description for Devices, systems and methods for acute or chronic delivery of substances or apparatus to extravascular treatment sites Brief Patent Description - Full Patent Description - Patent Application Claims Click on the above for other options relating to this Devices, systems and methods for acute or chronic delivery of substances or apparatus to extravascular treatment sites patent application. ###  How KEYWORD MONITOR works... a FREE service from FreshPatents1. Sign up (takes 30 seconds). 2. Fill in the keywords to be monitored. 3. Each week you receive an email with patent applications related to your keywords. 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