Jillian K Allen, 436940 Santa Fe Canyon Pl, San Diego, CA 92129

8377050, Feb 19, 2013

Jun 8, 2007

11/760564

David J. Lentz - La Jolla CA, US
Jillian K. Allen - San Diego CA, US

Boston Scientific Scimed, Inc. - Maple Grove MN

A61B 18/02

606 23

A configuration for a cryo-catheter which optimizes both the catheter's outer diameter and the size of the catheter's internal refrigerant flow path is described. Specifically, the inner dimensions of the cryo-catheter are configured to accommodate a pre-selected flow of refrigerant into the catheter's distal tip, and a return flow of refrigerant from the distal tip. The return flow is established in the void spaces between a refrigerant supply line and the inner wall of the catheter body. The available void space varies along the catheter length and depends on the presence/absence of various catheter accessories (i. e. pull wires, pressure tubes, etc. ) which typically only extend through a portion of the catheter length. The disclosed configuration ensures that the cryo-catheter does not operate in a refrigerant limited condition, maintains the refrigerant as a liquid in the supply tube, and maintains the return line pressure at about 1 atmosphere.

2008030, Dec 4, 2008

Jun 1, 2007

11/757124

David J. Lentz - La Jolla CA, US
Jillian K. Allen - San Diego CA, US
Richard J. Koerner - San Diego CA, US

A61B 18/18

606 21

An applicator for cryoablating tissue to form linear (i.e. straight line and curvilinear) lesions in targeted tissue includes a fluid refrigerant delivery system having a source of a fluid refrigerant and a tubular cryoablation segment. Structurally, the segment has an open proximal end and a distal end, and is formed with a lumen. Also, the segment is formed with at least one distal port and at least one proximal port, with each port connected in fluid communication with the segment's lumen. The proximal end of the tubular segment is operably connected in fluid communication with the source of fluid refrigerant. For the system, the ports can be selectively sized to outflow liquid refrigerant through the distal and proximal ports at a substantially same mass flow rate.

2013015, Jun 20, 2013

Feb 19, 2013

13/770827

JILLIAN K. ALLEN - SAN DIEGO CA, US

BOSTON SCIENTIFIC SCIMED, INC. - MAPLE GROVE MN

A61B 18/02

606 21

A configuration for a cryo-catheter which optimizes both the catheter's outer diameter and the size of the catheter's internal refrigerant flow path is described. Specifically, the inner dimensions of the cryo-catheter are configured to accommodate a pre-selected flow of refrigerant into the catheter's distal tip, and a return flow of refrigerant from the distal tip. The return flow is established in the void spaces between a refrigerant supply line and the inner wall of the catheter body. The available void space varies along the catheter length and depends on the presence/absence of various catheter accessories (i.e. pull wires, pressure tubes, etc.) which typically only extend through a portion of the catheter length. The disclosed configuration ensures that the cryo-catheter does not operate in a refrigerant limited condition, maintains the refrigerant as a liquid in the supply tube, and maintains the return line pressure at about 1 atmosphere.

2023003, Feb 2, 2023

Oct 7, 2022

17/962308

- San Diego CA, US
Jennifer Blackwell - San Diego CA, US
Christopher M. Davis - San Diego CA, US
David DeRenzy - San Diego CA, US
Eric Gobrecht - Madison WI, US
Jason Halac - Solana Beach CA, US
Jonathan Hughes - Carlsbad CA, US
Kathleen Suzanne Hurst - La Mesa CA, US
Randall Scott Koplin - Middleton WI, US
Phong Lieu - San Diego CA, US
Kyle Neuser - Madison WI, US
Todd Andrew Newhouse - San Diego CA, US
Jack Pryor - Ladera Ranch CA, US
Peter C. Simpson - Cardiff CA, US
Maria Noel Brown Wells - San Diego CA, US
Justen Deering England - San Francisco CA, US
Stefanie Lynn Mah - El Cajon CA, US
Leonard Darius Barbod - San Diego CA, US
Jillian K. Allen - San Diego CA, US
Michael J. Estes - Poway CA, US
Philip Thomas Pupa - San Diego CA, US
Timothy Joseph Goldsmith - San Diego CA, US
Kyle Tinnell Keller - San Diego CA, US

A61B 17/34
A61B 5/00
A61B 5/145

The present embodiments relate generally to systems and methods for measuring an analyte in a host. More particularly, the present embodiments provide sensor applicators and methods of use with activation that implant the sensor, withdraw the insertion needle, engage the transmitter with the housing, and disengage the applicator from the housing. Systems and methods according to present principles allow for such steps to occur without significant loss of spring force, and without deleterious effects such as seal slingshotting.

2020017, Jun 4, 2020

Feb 6, 2020

16/784198

- San Diego CA, US
Jennifer Blackwell - San Diego CA, US
Christopher M. Davis - San Diego CA, US
David DeRenzy - San Diego CA, US
Eric Gobrecht - Madison WI, US
Jason Halac - Solana Beach CA, US
Jonathan Hughes - Carlsbad CA, US
Kathleen Suzanne Hurst - La Mesa CA, US
Randall Scott Koplin - Middleton WI, US
Phong Lieu - San Diego CA, US
Kyle Neuser - Madison WI, US
Todd Andrew Newhouse - San Diego CA, US
Jack Pryor - Ladera Ranch CA, US
Peter C. Simpson - Cardiff CA, US
Maria Noel Brown Wells - San Diego CA, US
Justen Deering England - San Francisco CA, US
Stefanie Lynn Mah - El Cajon CA, US
Leonard Darius Barbod - San Diego CA, US
Jillian K. Allen - San Diego CA, US
Michael J. Estes - Poway CA, US
Philip Thomas Pupa - San Diego CA, US
Timothy Joseph Goldsmith - San Diego CA, US
Kyle Tinnell Keller - San Diego CA, US

A61B 17/34
A61B 5/00
A61B 5/145

The present embodiments relate generally to systems and methods for measuring an analyte in a host. More particularly, the present embodiments provide sensor applicators and methods of use with activation that implant the sensor, withdraw the insertion needle, engage the transmitter with the housing, and disengage the applicator from the housing. Systems and methods according to present principles allow for such steps to occur without significant loss of spring force, and without deleterious effects such as seal slingshotting.

2017011, Apr 27, 2017

Oct 20, 2016

15/298721

- San Diego CA, US
Jennifer Blackwell - San Diego CA, US
Christopher M. Davis - San Diego CA, US
David DeRenzy - San Diego CA, US
Eric Gobrecht - Madison WI, US
Jason Halac - Solana Beach CA, US
Jonathan Hughes - Carlsbad CA, US
Kathleen Suzanne Hurst - La Mesa CA, US
Randall Scott Koplin - Middleton WI, US
Phong Lieu - San Diego CA, US
Kyle Neuser - Madison WI, US
Todd Andrew Newhouse - San Diego CA, US
Jack Pryor - Ladera Ranch CA, US
Peter C. Simpson - Cardiff CA, US
Maria Noel Brown Wells - San Diego CA, US
Justen Deering England - San Francisco CA, US
Stephanie Lynn Mah - El Cajon CA, US
Leonard Darius Barbod - San Diego CA, US
Jillian K. Allen - San Diego CA, US
Michael J. Estes - Poway CA, US
Philip Thomas Pupa - San Diego CA, US
Timothy Joseph Goldsmith - San Diego CA, US
Kyle Tinnell Keller - San Diego CA, US

A61B 17/34
A61B 5/00
A61B 5/145

The present embodiments relate generally to systems and methods for measuring an analyte in a host. More particularly, the present embodiments provide sensor applicators and methods of use with activation that implant the sensor, withdraw the insertion needle, engage the transmitter with the housing, and disengage the applicator from the housing. Systems and methods according to present principles allow for such steps to occur without significant loss of spring force, and without deleterious effects such as seal slingshotting.

2017011, Apr 27, 2017

Oct 20, 2016

15/298990

- San Diego CA, US
Jennifer Blackwell - San Diego CA, US
Christopher M. Davis - San Diego CA, US
David DeRenzy - San Diego CA, US
Eric Gobrecht - Madison WI, US
Jason Halac - Solana Beach CA, US
Jonathan Hughes - Carlsbad CA, US
Kathleen Suzanne Hurst - La Mesa CA, US
Randall Scott Koplin - Middleton WI, US
Phong Lieu - San Diego CA, US
Kyle Neuser - Madison WI, US
Todd Andrew Newhouse - San Diego CA, US
Jack Pryor - Ladera Ranch CA, US
Peter C. Simpson - Cardiff CA, US
Maria Noel Brown Wells - San Diego CA, US
Justen Deering England - San Francisco CA, US
Stephanie Lynn Mah - El Cajon CA, US
Leonard Darius Barbod - San Diego CA, US
Jillian K. Allen - San Diego CA, US
Michael J. Estes - Poway CA, US
Philip Thomas Pupa - San Diego CA, US
Timothy Joseph Goldsmith - San Diego CA, US
Kyle Tinnell Keller - San Diego CA, US

A61B 17/34
A61B 5/145
A61B 5/00

The present embodiments relate generally to systems and methods for measuring an analyte in a host. More particularly, the present embodiments provide sensor applicators and methods of use with activation that implant the sensor, withdraw the insertion needle, engage the transmitter with the housing, and disengage the applicator from the housing. Systems and methods according to present principles allow for such steps to occur without significant loss of spring force, and without deleterious effects such as seal slingshotting.

2017011, Apr 27, 2017

Oct 20, 2016

15/299075

- San Diego CA, US
Jennifer Blackwell - San Diego CA, US
Christopher M. Davis - San Diego CA, US
David DeRenzy - San Diego CA, US
Eric Gobrecht - Madison WI, US
Jason Halac - Solana Beach CA, US
Jonathan Hughes - Carlsbad CA, US
Kathleen Suzanne Hurst - La Mesa CA, US
Randall Scott Koplin - Middleton WI, US
Phong Lieu - San Diego CA, US
Kyle Neuser - Madison WI, US
Todd Andrew Newhouse - San Diego CA, US
Jack Pryor - Ladera Ranch CA, US
Peter C. Simpson - Cardiff CA, US
Maria Noel Brown Wells - San Diego CA, US
Justen Deering England - San Francisco CA, US
Stephanie Lynn Mah - El Cajon CA, US
Leonard Darius Barbod - San Diego CA, US
Jillian K. Allen - San Diego CA, US
Michael J. Estes - Poway CA, US
Philip Thomas Pupa - San Diego CA, US
Timothy Joseph Goldsmith - San Diego CA, US
Kyle Tinnell Keller - San Diego CA, US

A61B 17/34
A61B 5/145
A61B 5/00

The present embodiments relate generally to systems and methods for measuring an analyte in a host. More particularly, the present embodiments provide sensor applicators and methods of use with activation that implant the sensor, withdraw the insertion needle, engage the transmitter with the housing, and disengage the applicator from the housing. Systems and methods according to present principles allow for such steps to occur without significant loss of spring force, and without deleterious effects such as seal slingshotting.