This disclosure provides design, material, manufacturing method, and use alternatives for medical devices. An example medical device includes a stent having a plurality of longitudinally extending filaments. The stent also has an inner surface and an outer surface and a plurality of tubular members extending along the stent. Each of the plurality of tubular members is coupled with one or more of the plurality of longitudinally extending filaments and each of the plurality of tubular members is configured to accept a radioactive element, a spacer or both.

A dual double balloon catheter includes a catheter having a proximal end portion, a central portion and a distal end portion. The catheter includes a plurality of lumens within the catheter extending from the proximal end portion, and a plurality of inflatable balloons positioned in the central portion and/or the distal end portion, and the balloons being communicatively connected with a corresponding one of the plurality of lumens to selectively inflate/deflate the corresponding inflatable balloon, wherein one or more of inflatable balloons further includes a second one of the plurality lumens associated with a corresponding inner wall of a corresponding inflatable balloon and adapted to receive a radioactive dose or a therapeutic agent for a treatment. The plurality of balloons can have varying sizes in relation to each other and also include lumens within or associated with the inner walls of the balloons to deliver a treatment.

A multi-purpose balloon catheter includes a catheter having a proximal end portion, a central portion and a distal end portion, a plurality of lumens associated with the catheter extending from the proximal end portion, and a plurality of inflatable balloons positioned in the central portion and/or the distal end portion. Each of the plurality of inflatable balloons is communicatively associated with a corresponding one of the plurality of lumens, the plurality of inflatable balloons being selectively inflated and deflated to position and stabilize the catheter in a cavity for delivery of a treatment. The catheter can include an extraction point associated with a lumen to remove fluids and material from the cavity, and a connector associated with a corresponding lumen adapted to selectively receive one or more of a liquid saline solution, a fluid medium, or a radioactive isotope provided to a corresponding lumen for delivery of the treatment.

Systems and methods for minimally invasively delivering radiation therapy to a patient, e.g., with bladder cancer, is provided. The radiotherapy system includes one or more catheters that may be introduced to a patient's anatomical structure via a sheath using an intracavitary approach. The proximal end of the one or more catheters may be coupled to an afterloader for selectively delivering the radiation therapy, and the distal portion of the one or more catheters is transitionable between an uncoiled delivery state within the sheath and a coiled deployed state having a spherical configuration within the anatomical structure of the patient, such that the one or more catheters contacts at least a portion of the anatomical structure in the deployed state.

Systems and methods for minimally invasively delivering radiation therapy to a patient, e.g., with bladder cancer, is provided. The radiotherapy system includes one or more catheters that may be introduced to a patient's anatomical structure via a sheath using an intracavitary approach. The proximal end of the one or more catheters may be coupled to an afterloader for selectively delivering the radiation therapy, and the distal portion of the one or more catheters is transitionable between an uncoiled delivery state within the sheath and a coiled deployed state having a spherical configuration within the anatomical structure of the patient, such that the one or more catheters contacts at least a portion of the anatomical structure in the deployed state.