Abstract: Devices for the isolation of a selected portion of a vessel are described. In some embodiments, the device comprises an introducer sheath and a sealing catheter that are movable relative to each other to create an isolated volume with adjustable size and location. The methods for the treatment of vascular aneurysms using the devices are described. The treatment is achieved through the delivery of an effective amount of stabilization agent to an isolated volume that encompass the aneurysm. The device optionally has an aspiration means to improve the effectiveness of the treatment.

Abstract: Collagen crosslinking/stabilization composition optionally in combination with elastin crosslinking composition as treatment of vascular aneurysms, methods of using the compositions, especially with respect to in vivo procedures are described. The treatment is achieved through the delivery of an effective amount of crosslinking/stabilization composition to the site of the aneurysm. The crosslinking/stabilization agent may be embedded in a delivery composition and delivered to the site of aneurysm using a delivery device. The site of the aneurysm may be isolated for treatment using the delivery device. The elastin stabilization agent may be simultaneously or sequentially delivered with the collagen crosslinking/stabilization agent for the treatment of vascular aneurysms in the isolated section of blood vessel.

Abstract: Devices for the treatment of vascular aneurysms are described. The treatment is achieved through the delivery of an effective amount of elastin stabilization agent to an isolated volume at the aneurysm. The elastin stabilization agent maybe embedded in a delivery composition. The device optionally has an aspiration means to improve the effectiveness of the treatment.

Abstract: Devices for the isolation of a selected portion of a vessel are described. In some embodiments, the device has an introducer sheath and a sealing catheter that are movable relative to each other to create an isolated volume with adjustable size and location. The methods for the treatment of vascular aneurysms using the devices are described. The treatment is achieved through the delivery of an effective amount of stabilization agent to an isolated volume that encompass the aneurysm. The device optionally has an aspiration device to improve the effectives of the treatment.

Abstract: Collagen crosslinking/stabilization composition optionally in combination with elastin crosslinking composition as treatment of vascular aneurysms, methods of using the compositions, especially with respect to in vivo procedures are described. The treatment is achieved through the delivery of an effective amount of crosslinking/stabilization composition to the site of the aneurysm. The crosslinking/stabilization agent may be embedded in a delivery composition and delivered to the site of aneurysm using a delivery device. The site of the aneurysm may be isolated for treatment using the delivery device. The elastin stabilization agent may be simultaneously or sequentially delivered with the collagen crosslinking/stabilization agent for the treatment of vascular aneurysms in the isolated section of blood vessel.

Abstract: Devices for the treatment of vascular aneurysms are described. The treatment is achieved through the delivery of an effective amount of elastin stabilization agent to an isolated volume at the aneurysm. The elastin stabilization agent maybe embedded in a delivery composition. The device optionally has an aspiration means to improve the effectiveness of the treatment.

Abstract: Devices for the isolation of a selected portion of a vessel are described. In some embodiments, the device comprises an introducer sheath and a sealing catheter that are movable relative to each other to create an isolated volume with adjustable size and location. The methods for the treatment of vascular aneurysms using the devices are described. The treatment is achieved through the delivery of an effective amount of stabilization agent to an isolated volume that encompass the aneurysm. The device optionally has an aspiration means to improve the effectiveness of the treatment.

Abstract: Devices for the isolation of a selected portion of a vessel are described. In some embodiments, the device comprises an introducer sheath and a sealing catheter that are movable relative to each other to create an isolated volume with adjustable size and location. The methods for the treatment of vascular aneurysms using the devices are described. The treatment is achieved through the delivery of an effective amount of stabilization agent to an isolated volume that encompass the aneurysm. The device optionally has an aspiration means to improve the effectiveness of the treatment.

Abstract: A method and product are provided for the treatment of connective tissue weakened due to destruction of tissue architecture, and in particular due to elastin degradation. The treatment agents employ certain unique properties of phenolic compounds to develop a protocol for reducing elastin degradation, such as that occurring during aneurysm formation in vasculature. According to the invention, elastin can be stabilized in vivo and destruction of connective tissue, such as that leading to life-threatening aneurysms in vasculature, can be tempered or halted all together. The treatment agents can be delivered or administered acutely or chronically according to various delivery methods, including sustained release methods incorporating perivascular or endovascular patches, use of microsphere carriers, hydrogels, or osmotic pumps.

Abstract: A method and product are provided for the treatment of connective tissue weakened due to destruction of tissue architecture, and in particular due to elastin degradation. The treatment agents employ certain unique properties of phenolic compounds to develop a protocol for reducing elastin degradation, such as that occurring during aneurysm formation in vasculature. According to the invention, elastin can be stabilized in vivo and destruction of connective tissue, such as that leading to life-threatening aneurysms in vasculature, can be tempered or halted all together. The treatment agents can be delivered or administered acutely or chronically according to various delivery methods, including sustained release methods incorporating perivascular or endovascular patches, use of microsphere carriers, hydrogels, or osmotic pumps.

Abstract: A method and product are provided for the treatment of connective tissue weakened due to destruction of tissue architecture, and in particular due to elastin degradation. The treatment agents employ certain unique properties of phenolic compounds to develop a protocol for reducing elastin degradation, such as that occurring during aneurysm formation in vasculature. According to the invention, elastin can be stabilized in vivo and destruction of connective tissue, such as that leading to life-threatening aneurysms in vasculature, can be tempered or halted all together. The treatment agents can be delivered or administered acutely or chronically according to various delivery methods, including sustained release methods incorporating perivascular or endovascular patches, use of microsphere carriers, hydrogels, or osmotic pumps.

Abstract: Devices for the isolation of a selected portion of a vessel are described. In some embodiments, the device comprises an introducer sheath and a sealing catheter that are movable relative to each other to create an isolated volume with adjustable size and location. The methods for the treatment of vascular aneurysms using the devices are described. The treatment is achieved through the delivery of an effective amount of stabilization agent to an isolated volume that encompass the aneurysm. The device optionally has an aspiration means to improve the effectiveness of the treatment.

Abstract: A method and product are provided for the treatment of connective tissue weakened due to destruction of tissue architecture, and in particular due to elastin degradation. The treatment agents employ certain unique properties of phenolic compounds to develop a protocol for reducing elastin degradation, such as that occurring during aneurysm formation in vasculature. According to the invention, elastin can be stabilized in vivo and destruction of connective tissue, such as that leading to life-threatening aneurysms in vasculature, can be tempered or halted all together. The treatment agents can be delivered or administered acutely or chronically according to various delivery methods, including sustained release methods incorporating perivascular or endovascular patches, use of microsphere carriers, hydrogels, or osmotic pumps.

Abstract: Collagen crosslinking/stabilization composition optionally in combination with elastin crosslinking composition as treatment of vascular aneurysms, methods of using the compositions, especially with respect to in vivo procedures are described. The treatment is achieved through the delivery of an effective amount of crosslinking/stabilization composition to the site of the aneurysm. The crosslinking/stabilization agent may be embedded in a delivery composition and delivered to the site of aneurysm using a delivery device. The site of the aneurysm may be isolated for treatment using the delivery device. The elastin stabilization agent may be simultaneously or sequentially delivered with the collagen crosslinking/stabilization agent for the treatment of vascular aneurysms in the isolated section of blood vessel.

Abstract: A method and product are provided for the treatment of connective tissue weakened due to destruction of tissue architecture, and in particular due to elastin degradation. The treatment agents employ certain unique properties of phenolic compounds to develop a protocol for reducing elastin degradation, such as that occurring during aneurysm formation in vasculature. According to the invention, elastin can be stabilized in vivo and destruction of connective tissue, such as that leading to life-threatening aneurysms in vasculature, can be tempered or halted all together. The treatment agents can be delivered or administered acutely or chronically according to various delivery methods, including sustained release methods incorporating perivascular or endovascular patches, use of microsphere carriers, hydrogels, or osmotic pumps.

Abstract: Devices for the treatment of vascular aneurysms are described. The treatment is achieved through the delivery of an effective amount of elastin stabilization agent to an isolated volume at the aneurysm. The elastin stabilization agent maybe embedded in a delivery composition. The device optionally has an aspiration means to improve the effectiveness of the treatment.

Abstract: Delivery vehicles for controlled release of connective tissue stabilization agent for the treatment of vascular aneurysms are described. The delivery vehicle generally is combined with a connective tissue stabilization agent to form a therapeutic composition. The treatment of an aneurysm can be achieved through release of connective tissue stabilization agent from the delivery vehicle to the aneurysm. The connective tissue stabilization agent can be collagen stabilization agent, elastin stabilization agent, or a combination thereof. The aneurysm can be treated individually, simultaneously or sequentially with collagen stabilization agent and elastin stabilization agent embedded in separate delivery vehicles.

Abstract: Biomarkers for diagnosis and monitoring of vascular aneurysms are described in the context of the use of assays to measure a plurality of these biomarkers. Tissue degeneration, particularly elastin and/or collagen degradation, can be monitored within patient blood (serum) and/or urine to diagnose the presence, the progression, or the likelihood of rupture of aneurismal disease. Additionally, enzymes responsible for this degradation and other biomarkers responsible for the activation or inhibition of these enzymes can be monitored additionally or alternatively. Prompt diagnosis can provide the opportunity for intervention and potentially increase the health of patients by tempering the development of debilitating and life-threatening vascular aneurysms.

Abstract: A method and product are provided for the treatment of connective tissue weakened due to destruction of tissue architecture, and in particular due to elastin degradation. The treatment agents employ certain unique properties of phenolic compounds to develop a protocol for reducing elastin degradation, such as that occurring during aneurysm formation in vasculature. According to the invention, elastin can be stabilized in vivo and destruction of connective tissue, such as that leading to life-threatening aneurysms in vasculature, can be tempered or halted all together. The treatment agents can be delivered or administered acutely or chronically according to various delivery methods, including sustained release methods incorporating perivascular or endovascular patches, use of microsphere carriers, hydrogels, or osmotic pumps.