1
Harrison M Lazarus: Artificial graft and implantation method. Endovascular Technologies, Flehr Hohbach Test Albritton & Herbert, April 14, 1992: US05104399 (575 worldwide citation)

An intraluminal grafting system includes a hollow graft which has a proximal staple positioned proximate its proximal end and a distal staple adapted proximate its distal end. The system includes a capsule for transporting the graft through the lumen and for positioning the proximal end of the graft ...


2
Alec A Piplani, Dinah B Quiachon, Wesley D Sterman: Endovascular graft having bifurcation and apparatus and method for deploying the same. EndoVascular Technologies, Fulwider Patton Lee & Utecht, February 6, 1996: US05489295 (514 worldwide citation)

Graft having a bifurcation for repairing an aneurysm in the vicinity of an aortic bifurcation in a patient comprising a main tubular body and first and second tubular legs joined to said main body in a bifurcation. The main body and the legs are formed of a flexible surgically implantable material. ...


3
Peter S Brown, Mary Bellack, Mona Patel: Intra-luminal device for treatment of body cavities and lumens and method of use. Endovascular Technologies, Fulwider Patton Lee & Utecht, July 25, 2000: US06093199 (401 worldwide citation)

An intra-luminal device comprises a flow retainer and/or modulator for maintaining an embolic mass within an aneurysm and, optionally, for diverting or modulating fluid flow, and an anchoring element for fixating the retainer within a lumen in a patient's body. The retainer is introduced into the bo ...


4
David Hancock, William Stephen Tremulis, Saypin Phonthalasa, Olin Palmer, Larry Voss, Gary A Walker: Expandable emboli filter and thrombectomy device. Endovascular Technologies, Fulwider Patton Lee & Utecht, August 26, 2003: US06610077 (370 worldwide citation)

Expandable emboli filter and thrombectomy devices adapted for use with microcatheters to remove debris from blood vessels. The devices embody expanded profiles that span the entirety of various sized target vessels and thus are particularly effective in the engagement of debris found in vessels.


5
Steven G Baker, Dinah B Quiachon, Alec A Piplani, Wesley D Sterman, Ronald G Williams: Intraluminal grafting system. Endovascular Technologies, Fulwider Patton Lee & Utecht, April 24, 2001: US06221102 (325 worldwide citation)

An intraluminal grafting system having a delivery catheter comprising a flexible elongate tubular member having proximal and distal extremities and a capsule mounted on the distal extremity of the tubular member and including a graft disposed within the capsule. The graft is comprised of a tubular b ...


6
Harrison M Lazarus: Artificial graft and implantation method. EndoVascular Technologies, Fulwider Patton Lee & Utecht, March 14, 1995: US05397345 (320 worldwide citation)

An intraluminal grafting system includes a hollow graft which has a proximal staple positioned proximate its proximal end and a distal staple adapted proximate its distal end. The system includes a capsule for transporting the graft through the lumen and for positioning the proximal end of the graft ...


7
Dinah B Quiachon, Alec A Piplani, Richard S Williams, Steve G Baker, Peter K Johansson: Bifurcated multicapsule intraluminal grafting system and method. EndoVascular Technologies, Fulwider Patton Lee & Utecht, May 13, 1997: US05628783 (261 worldwide citation)

An intraluminal grafting system having a balloon catheter assembly, a capsule catheter assembly and capsule jacket assembly is used for deploying in the vessel of an animal body a bifurcated graft having a plurality of attachment systems. The deployment catheters contain an ipsilateral capsule assem ...


8
Olin J Palmer, Jeff Krolik: Intrasaccular embolic device. Endovascular Technologies, Fulwider Patton Lee & Utecht, July 8, 2003: US06589265 (260 worldwide citation)

An intrasaccular device particularly adapted for treating body lumens. The intrasaccular device includes structure that provides a strong framework as well as improved covering across an opening to an aneurysm sac. The intrasaccular device is intended to retain foreign bodies within the aneurysm sac ...


9
Steve G Baker, Michael D Dake, David C Dillow, Arnold Escano: Thoracic graft and delivery catheter. EndoVascular Technologies, Fulwider Patton Lee & Utecht, December 2, 1997: US05693083 (252 worldwide citation)

A delivery catheter having an inner catheter assembly, an inferior capsule catheter, and a capsule jacket assembly for use in deploying a graft having a compressible and expandable attachment systems in the thoracic region of an aorta. The graft is comprised of a tubular member having superior and i ...


10
Dinah B Quiachon, Alec A Piplani, Steve G Baker, Ronald G Williams, Richard S Williams, Kenneth L Osborn, Ted W Layman, Peter K Johansson: Bifurcated multicapsule intraluminal grafting system. Endovascular Technologies, Fulwider Patton Lee & Utecht, October 20, 1998: US05824044 (235 worldwide citation)

An improved intraluminal grafting system incorporating novel structural features for enhancing the effective and efficient deployment of a bifurcated prosthesis having a plurality of attachment systems, in the vessel of an animal body, the system including a balloon catheter assembly, an ipsilateral ...