Dr. Nguyen graduated from the University of Colorado School of Medicine at Denver in 1986. He works in Denver, CO and specializes in Internal Medicine.
Us Patents
Devices, Systems, And Methods For The Treatment Of Vascular Defects
- Mansfield MA, US Patrick Quinn - Stockton CA, US Arturo Rosqueta - San Jose CA, US Stephen Sosnowski - Sherrills Ford NC, US Christopher Andrews - Lake Elsinore CA, US Hieu Dang - Westminster CA, US Dinh Nguyen - Garden Grove CA, US Robert Pecor - Aliso Viejo CA, US Minh Q. Dinh - Fremont CA, US Ahramahzd Tatavoosian - Mission Viejo CA, US
International Classification:
A61B 17/12
Abstract:
Devices, systems, and methods for treating vascular defects are disclosed herein. One aspect of the present technology, for example, includes an occlusive device comprising a mesh having a low-profile state for intravascular delivery to the aneurysm and a deployed state, the mesh comprising a first end portion, a second end portion, and a length extending between the first and second end portions, and a first lateral edge, a second lateral edge, and a width extending between the first and second lateral edges. The mesh may have a predetermined shape in the deployed state in which (a) the mesh is curved along its width, (b) the mesh is curved along its length, and (c) the mesh has an undulating contour across at least a portion of one or both of its length or its width. The mesh is configured to be positioned within the aneurysm in the deployed state such that the mesh extends over the neck of the aneurysm.
Devices, Systems, And Methods For The Treatment Of Vascular Defects
- Mansfield MA, US Patrick Quinn - Stockton CA, US Arturo Rosqueta - San Jose CA, US Stephen Sosnowski - Sherrills Ford NC, US Christopher Andrews - Lake Elsinore CA, US Hieu Dang - Westminster CA, US Dinh Nguyen - Garden Grove CA, US Robert Pecor - Aliso Viejo CA, US Minh Q. Dinh - Fremont CA, US Ahramahzd Tatavoosian - Mission Viejo CA, US
International Classification:
A61B 17/12
Abstract:
Devices, systems, and methods for treating vascular defects are disclosed herein. One aspect of the present technology, for example, includes an occlusive device comprising a mesh having a low-profile state for intravascular delivery to the aneurysm and a deployed state, the mesh comprising a first end portion, a second end portion, and a length extending between the first and second end portions, and a first lateral edge, a second lateral edge, and a width extending between the first and second lateral edges. The mesh may have a predetermined shape in the deployed state in which (a) the mesh is curved along its width, (b) the mesh is curved along its length, and (c) the mesh has an undulating contour across at least a portion of one or both of its length or its width. The mesh is configured to be positioned within the aneurysm in the deployed state such that the mesh extends over the neck of the aneurysm.
Devices, Systems, And Methods For The Treatment Of Vascular Defects
- Mansfield MA, US Patrick Quinn - Stockton CA, US Arturo Rosqueta - San Jose CA, US Stephen Sosnowski - Sherrills Ford NC, US Christopher Andrews - Lake Elsinore CA, US Hieu Dang - Westminster CA, US Dinh Nguyen - Garden Grove CA, US Robert Pecor - Aliso Viejo CA, US Minh Q. Dinh - Fremont CA, US Ahramahzd Tatavoosian - Mission Viejo CA, US
International Classification:
A61B 17/12 A61B 17/00
Abstract:
Devices, systems, and methods for treating vascular defects are disclosed herein. One aspect of the present technology, for example, includes an occlusive device comprising a mesh having a low-profile state for intravascular delivery to the aneurysm and a deployed state, the mesh comprising a first end portion, a second end portion, and a length extending between the first and second end portions, and a first lateral edge, a second lateral edge, and a width extending between the first and second lateral edges. The mesh may have a predetermined shape in the deployed state in which (a) the mesh is curved along its width, (b) the mesh is curved along its length, and (c) the mesh has an undulating contour across at least a portion of one or both of its length or its width. The mesh is configured to be positioned within the aneurysm in the deployed state such that the mesh extends over the neck of the aneurysm.
Devices, Systems, And Methods For The Treatment Of Vascular Defects
- Mansfield MA, US Patrick Quinn - Stockton CA, US Arturo Rosqueta - San Jose CA, US Stephen Sosnowski - Sherrills Ford NC, US Christopher Andrews - Lake Elsinore CA, US Hieu Dang - Westminster CA, US Dinh Nguyen - Garden Grove CA, US Robert Pecor - Aliso Viejo CA, US Minh Q. Dinh - Fremont CA, US Ahramahzd Tatavoosian - Mission Viejo CA, US
International Classification:
A61B 17/12
Abstract:
Devices, systems, and methods for treating vascular defects are disclosed herein. One aspect of the present technology, for example, includes an occlusive device comprising a mesh having a low-profile state for intravascular delivery to the aneurysm and a deployed state, the mesh comprising a first end portion, a second end portion, and a length extending between the first and second end portions, and a first lateral edge, a second lateral edge, and a width extending between the first and second lateral edges. The mesh may have a predetermined shape in the deployed state in which (a) the mesh is curved along its width, (b) the mesh is curved along its length, and (c) the mesh has an undulating contour across at least a portion of one or both of its length or its width. The mesh is configured to be positioned within the aneurysm in the deployed state such that the mesh extends over the neck of the aneurysm.
Devices, Systems, And Methods For The Treatment Of Vascular Defects
- Mansfield MA, US Patrick Quinn - Stockton CA, US Arturo Rosqueta - San Jose CA, US Stephen Sosnowski - Sherrills Ford NC, US Christopher Andrews - Lake Elsinore CA, US Hieu Dang - Westminster CA, US Dinh Nguyen - Garden Grove CA, US Robert Pecor - Aliso Viejo CA, US Minh Q. Dinh - Fremont CA, US Ahramahzd Tatavoosian - Mission Viejo CA, US
International Classification:
A61B 17/12
Abstract:
Devices, systems, and methods for treating vascular defects are disclosed herein. One aspect of the present technology, for example, includes an occlusive device comprising a mesh having a low-profile state for intravascular delivery to the aneurysm and a deployed state, the mesh comprising a first end portion, a second end portion, and a length extending between the first and second end portions, and a first lateral edge, a second lateral edge, and a width extending between the first and second lateral edges. The mesh may have a predetermined shape in the deployed state in which (a) the mesh is curved along its width, (b) the mesh is curved along its length, and (c) the mesh has an undulating contour across at least a portion of one or both of its length or its width. The mesh is configured to be positioned within the aneurysm in the deployed state such that the mesh extends over the neck of the aneurysm.
Devices, Systems, And Methods For The Treatment Of Vascular Defects
- Mansfield MA, US Patrick Quinn - Stockton CA, US Arturo Rosqueta - San Jose CA, US Stephen Sosnowski - Sherrills Ford NC, US Christopher Andrews - Lake Elsinore CA, US Hieu Dang - Westminster CA, US Dinh Nguyen - Garden Grove CA, US Robert Pecor - Aliso Viejo CA, US Minh Q. Dinh - Fremont CA, US Ahramahzd Tatavoosian - Mission Viejo CA, US
International Classification:
A61B 17/12
Abstract:
Devices, systems, and methods for treating vascular defects are disclosed herein. One aspect of the present technology, for example, includes an occlusive device comprising a mesh having a low-profile state for intravascular delivery to the aneurysm and a deployed state, the mesh comprising a first end portion, a second end portion, and a length extending between the first and second end portions, and a first lateral edge, a second lateral edge, and a width extending between the first and second lateral edges. The mesh may have a predetermined shape in the deployed state in which (a) the mesh is curved along its width, (b) the mesh is curved along its length, and (c) the mesh has an undulating contour across at least a portion of one or both of its length or its width. The mesh is configured to be positioned within the aneurysm in the deployed state such that the mesh extends over the neck of the aneurysm.