The present invention features an all-in-one system for vascular access and closure. In particular, this invention features systems and methods for forming holes in blood vessels and rapidly closing these vessel holes using an all-in-one system. For example, an arterial access and closure port system is disclosed herein to provide fail-safe percutaneous entry and exit into any artery, particularly useful for high flow and high pressure arteries such as the carotid artery. The present invention is a single system that forms and closes vascular holes and can be used for percutaneous arterial access with interventional radiology, interventional cardiology, neuro-intervention, endovascular surgery, and endovascular neurosurgery.

The present invention features an all-in-one system for vascular access and closure. In particular, this invention features systems and methods for forming holes in blood vessels and rapidly closing these vessel holes using an all-in-one system. For example, an arterial access and closure port system is disclosed herein to provide fail-safe percutaneous entry and exit into any artery, particularly useful for high flow and high pressure arteries such as the carotid artery. The present invention is a single system that forms and closes vascular holes and can be used for percutaneous arterial access with interventional radiology, interventional cardiology, neuro-intervention, endovascular surgery, and endovascular neurosurgery.

Apparatuses and methods for loading and deploying implants from delivery apparatuses. The apparatuses in certain embodiments may comprise crimping devices for compressing an implant for insertion into a portion of a delivery apparatus. The apparatuses in certain embodiments may comprise features of delivery apparatuses allowing for improved loading and deployment of an implant from the delivery apparatuses.

The present disclosure generally relates to systems, devices, and methods for providing control of fluids from a subject, which may be utilized with an introducer system. Such fluids may comprise blood and may be produced during medical operation upon the subject. An expandable sheath may be provided that is configured to cover a portion of an introducer sheath body between the surface of the subject and a housing of the introducer sheath to retain fluid from the subject within the expandable sheath.

The present disclosure generally relates to systems, devices, and methods for providing control of fluids from a subject, which may be utilized with an introducer system. Such fluids may comprise blood and may be produced during medical operation upon the subject. An expandable sheath may be provided that is configured to cover a portion of an introducer sheath body between the surface of the subject and a housing of the introducer sheath to retain fluid from the subject within the expandable sheath.

Aspects of the disclosure are generally related to systems, devices and methods for transcatheter delivery and deployment of an implant, such as a prosthetic valve. Aspects of the disclosure include methods of loading the implant to the delivery device having a capsule assembly for sheathing the implant. The capsule assembly can include separable proximal and distal segments. Such methods of loading can include utilizing a collar and a funnel to guide the proximal segment over the implant and adjacent the distal segment to compress and fully sheathe the implant for delivery.

A modular handle assembly comprises a stationary main handle having proximal and distal ends. A first handle extends proximally from the main handle and is rotationally moveable relative to the main handle, the first handle having proximal and distal ends, wherein a rotational interface is located at the distal end. A second handle extends distally from the main handle and is rotationally moveable relative to the main handle, the second handle having proximal and distal ends, wherein a rotational interface is located at the proximal end. The proximal end of the main handle comprises a first rotational interface that is configured to engage with a rotational interface at the distal end of the first handle and wherein the distal end of the main handle comprises a second rotational interface that is configured to engage with the rotational interface at the proximal end of the second handle.

A stent system may include a stent including a first leg having a first end fixedly attached to the distal end of a main body portion and extending distally from the distal end of the main body portion in a deployed configuration, and a second leg having a first end fixedly attached to the distal end of the main body portion and extending distally from the distal end of the main body portion in the deployed configuration. The second leg may extend proximally from the distal end of the main body portion in a delivery configuration. A stent system may include a bifurcated delivery sheath and two guidewires for delivery of two stents at the same time. A method of treating a body lumen may include delivering a contrast fluid including an anti-gas agent while implanting a stent in the body lumen.

A stent system may include a stent including a first leg having a first end fixedly attached to the distal end of a main body portion and extending distally from the distal end of the main body portion in a deployed configuration, and a second leg having a first end fixedly attached to the distal end of the main body portion and extending distally from the distal end of the main body portion in the deployed configuration. The second leg may extend proximally from the distal end of the main body portion in a delivery configuration. A stent system may include a bifurcated delivery sheath and two guidewires for delivery of two stents at the same time. A method of treating a body lumen may include delivering a contrast fluid including an anti-gas agent while implanting a stent in the body lumen.

A locking mechanism for a transcatheter delivery system is disclosed. As one example, the locking mechanism may comprise a first fixing member configured to be coupled to an introducer sheath, a second fixing member configured to be coupled to a handle of a delivery apparatus, and a locking arm configured to be removably coupled at a first end to one of the first fixing member and the second fixing member and fixedly or removably coupled at a second end to another one of the first fixing member and the second fixing member, wherein the locking arm is moveable between a first position where an axial position of the second fixing member is not fixed relative to the first fixing member via the locking arm and a second position where the axial position of the second fixing member is fixed relative to the first fixing member via the locking arm.