Abstract: A tubular sheath for enclosing an expandable balloon attached to the distal portion of a catheter encloses and protects the expandable balloon. The tubular sheath is configured to be slidable and removable from the catheter. The tubular sheath may include a longitudinal splitting element that is removable as a result of a force applied to the longitudinal splitting element. The longitudinal splitting element is configured to split the wall of the tubular sheath in response to the force. Alternatively, the tubular sheath may include a gripping portion that has relatively poor cohesive strength to adjacent portions of the tubular sheath. The tubular sheath is configured to be removable in response to a force applied to the gripping portion.

Abstract: A tubular sheath for enclosing an expandable balloon attached to the distal portion of a catheter encloses and protects the expandable balloon. The tubular sheath is configured to be slidable and removable from the catheter. The tubular sheath may include a longitudinal splitting element that is removable as a result of a force applied to the longitudinal splitting element. The longitudinal splitting element is configured to split the wall of the tubular sheath in response to the force. Alternatively, the tubular sheath may include a gripping portion that has relatively poor cohesive strength to adjacent portions of the tubular sheath. The tubular sheath is configured to be removable in response to a force applied to the gripping portion.

Abstract: A medical device that is configured to house an expandable balloon includes a tubular sheath and a retaining member. The tubular sheath includes a longitudinal slit that extends parallel to a longitudinal axis of the tubular sheath and the retaining member is configured to retain the tubular sheath in a closed configuration. The tubular sheath may house the expandable balloon while the expandable balloon is attached to a catheter that is configured to navigate the expandable balloon into a body of a patient. The tubular sheath may be configured to house the expandable balloon substantially through the process of inserting the expandable balloon into the vasculature of the patient. Once the expandable balloon has been introduced into the introducer sheath and/or inserted into the vasculature of the patient, the retaining member may be disengaged and the tubular sheath removed from the catheter.

Abstract: A tubular sheath for enclosing an expandable balloon attached to the distal portion of a catheter encloses and protects the expandable balloon. The tubular sheath is configured to be slidable and removable from the catheter. The tubular sheath may include a longitudinal splitting element that is removable as a result of a force applied to the longitudinal splitting element. The longitudinal splitting element is configured to split the wall of the tubular sheath in response to the force. Alternatively, the tubular sheath may include a gripping portion that has relatively poor cohesive strength to adjacent portions of the tubular sheath. The tubular sheath is configured to be removable in response to a force applied to the gripping portion.

Abstract: A medical device that is configured to house an expandable balloon includes a tubular sheath and a retaining member. The tubular sheath includes a longitudinal slit that extends parallel to a longitudinal axis of the tubular sheath and the retaining member is configured to retain the tubular sheath in a closed configuration. The tubular sheath may house the expandable balloon while the expandable balloon is attached to a catheter that is configured to navigate the expandable balloon into a body of a patient. The tubular sheath may be configured to house the expandable balloon substantially through the process of inserting the expandable balloon into the vasculature of the patient. Once the expandable balloon has been introduced into the introducer sheath and/or inserted into the vasculature of the patient, the retaining member may be disengaged and the tubular sheath removed from the catheter.

Abstract: Systems and method for treating aneurysms are provided which utilize formulations that form polymer foams in situ. The formulations generally have a buoyancy greater than or less than blood, and either float to the top of the aneurysm and foam from the top down or sink to the bottom and foam from the bottom up.

Abstract: Systems and method for treating aneurysms are provided which utilize formulations that form polymer foams in situ. The formulations generally have a buoyancy greater than or less than blood, and either float to the top of the aneurysm and foam from the top down or sink to the bottom and foam from the bottom up.

Abstract: Systems and method for treating aneurysms are provided which utilize formulations that form polymer foams in situ. The formulations generally have a buoyancy greater than or less than blood, and either float to the top of the aneurysm and foam from the top down or sink to the bottom and foam from the bottom up.