Cathy L Lei, Age 7716611 Living Rock Ct, Chino Hills, CA 91709

2009006, Mar 5, 2009

Jul 28, 2008

12/180834

Matthew Fitz - Vista CA, US
Cathy Lei - Chino Hills CA, US
Joseph Gulachenski - Trabuco Canyon CA, US
Maricruz Castaneda - Mission Viejo CA, US
Gary Currie - Fallbrook CA, US

A61B 17/00

606108, 604 57, 604500, 606191

An implantable embolic device having a stretch-resistant member passing therethrough that also serves as a tether for connecting the device to a delivery system. The stretch-resistant member is attached at a proximal and distal end of the device and extends proximally to the delivery device. The proximal attachment point serves to isolate a distal, stretch resisting segment of the member from axial tension placed on a proximal, connecting section of the member. Thus, the portion of the stretch-resistant member being used to connect the embolic device to a delivery device may be placed under tension without placing tension or distorting the implant.

2012024, Sep 27, 2012

Feb 24, 2012

13/405113

Joseph Gulachenski - Trabuco Canyon CA, US
Cathy Lei - Chino Hills CA, US
Nelson Peralta - Rancho Santa Margarita CA, US
Tadele Haile - Cypress CA, US

A61M 25/10

60410309, 604 9601, 29428

One embodiment of the present invention discloses a balloon catheter employing a reinforced, co-axial, duel lumen design. In certain embodiments, at least one of the lumens is formed of a multilayer, tubular element in which one of the layers functions, in part, to provide radial reinforcement to the tubular element.

2004020, Oct 14, 2004

Feb 6, 2004

10/774299

Brian Cox - Laguna Niguel CA, US
Matthew Fitz - Encinitas CA, US
Cathy Lei - Chino Hills CA, US

A61B017/00

606/001000, 606/200000

A mechanism for the deployment of a filamentous endovascular device includes a flexible deployment tube having an open proximal end, and a coupling element attached to the proximal end of the endovascular device. The deployment tube includes a distal section terminating in an open distal end, with a lumen defined between the proximal and distal ends. A retention sleeve is fixed around the distal section and includes a distal extension extending a short distance past the distal end of the deployment tube. The endovascular device is attached to the distal end of the deployment tube by fixing the retention sleeve around the coupling element, so that the coupling element is releasably held within the distal extension of the deployment tube. In use, the deployment tube, with the implant attached to its distal end, is passed intravascularly through a microcatheter to a target vascular site until the endovascular device is located within the site. To detach the endovascular device from the deployment tube, a liquid is injected through the lumen of the deployment tube so as to apply pressure to the upstream side of the coupling element, which is thus pushed out of the retention sleeve by the fluid pressure. The coupling element may include an internal or peripheral purge passage that allows air to be purged from the microcatheter prior to the intravascular passage of the endovascular device.

2022040, Dec 22, 2022

Aug 24, 2022

17/822006

- Aliso Viejo CA, US
Roland Guyon - Aliso Viejo CA, US
Cathy Lei - Aliso Viejo CA, US
Nelson Peralta - Aliso Viejo CA, US
Tadele Haile Wolde-Meskel - Aliso Viejo CA, US
Russell Corvese - Aliso Viejo CA, US

MicroVention, Inc. - Aliso Viejo CA

A61M 25/10

A balloon catheter is described, having a reinforced, co-axial, dual lumen design. At least one of the lumens is formed of a multilayer, tubular element in which one of the layers functions, in part, to provide radial reinforcement to the tubular element.

2023000, Jan 12, 2023

Sep 15, 2022

17/932642

- Aliso Viejo CA, US
Ivan Sepetka - Aliso Viejo CA, US
Cathy Lei - Aliso Viejo CA, US
Alejandro Berenstein - Aliso Viejo CA, US
Heath Bowman - Aliso Viejo CA, US

MicroVention, Inc. - Aliso Viejo CA

A61B 17/12
A61F 2/01

Devices, systems, and methods used to seal a treatment area to prevent embolic agents from migrating are described. The concept has particular benefit in allowing liquid embolic to be used with a variety of intravascular therapeutic applications, including for occluding aneurysms and arteriovenous malformations in the neurovasculature.

2021028, Sep 16, 2021

May 27, 2021

17/332747

- Aliso Viejo CA, US
Cathy Lei - Aliso Viejo CA, US
Matthew Fitz - Aliso Viejo CA, US

MicroVention, Inc. - Aliso Viejo CA

A61B 17/12

An occlusive device comprising a braided component which can be inserted into a blood vessel and a delivery system for delivering said occlusive device is described.

2021028, Sep 16, 2021

May 27, 2021

17/332966

- Aliso Viejo CA, US
Cathy Lei - Aliso Viejo CA, US
Joseph Gulachenski - Aliso Viejo CA, US
Maricruz Castaneda - Aliso Viejo CA, US
Gary Currie - Aliso Viejo CA, US

MicroVention, Inc. - Aliso Viejo CA

A61B 17/12
A61F 2/95

An implantable embolic device having a stretch-resistant member passing therethrough that also serves as a tether for connecting the device to a delivery system. The stretch-resistant member is attached at a proximal and distal end of the device and extends proximally to the delivery device. The proximal attachment point serves to isolate a distal, stretch resisting segment of the member from axial tension placed on a proximal, connecting section of the member. Thus, the portion of the stretch-resistant member being used to connect the embolic device to a delivery device may be placed under tension without placing tension or distorting the implant.

2021013, May 13, 2021

Dec 17, 2020

17/125840

- Aliso Viejo CA, US
Ivan Sepetka - Aliso Viejo CA, US
Cathy Lei - Aliso Viejo CA, US
Alejandro Berenstein - Aliso Viejo CA, US

MicroVention, Inc. - Aliso Viejo CA

A61B 17/12

Devices, systems, and methods used to seal a treatment area to prevent embolic agents from migrating are described. The concept has particular benefit in allowing liquid embolic to be used with a variety of intravascular therapeutic applications, including for occluding aneurysms and arteriovenous malformations in the neurovasculature.