Justin M Virgili

US Patent:

8333197, Dec 18, 2012

Filed:

May 29, 2009

Appl. No.:

12/474680

Inventors:

Stephen D. Cross - Alamo CA, US
Mathieu Herbette - Sunnyvale CA, US
Andrew J. G. Kelly - Redwood City CA, US
Daniel J. Myers - Mountain View CA, US
William W. Shen - New York NY, US
Ryan D. Timmons - Mountain View CA, US
Curtis Tom - San Mateo CA, US
Justin M. Virgili - Berkeley CA, US
Martin J. Wensley - Los Gatos CA, US

Assignee:

Alexza Pharmaceuticals, Inc. - Mountain View CA

International Classification:

A61M 11/00

US Classification:

12820417, 12820023, 12820014

Abstract:

Devices and methods of entraining a substance within an airflow are disclosed. Condensation aerosol delivery devices and methods of consistently producing multiple doses of a substance, such as a drug, having high purity, high yield, characterized by a particle size distribution appropriate for pulmonary delivery, and which can be administered to a user in a single dose are also disclosed.

US Patent:

20050268911, Dec 8, 2005

Filed:

Jun 3, 2004

Appl. No.:

10/861554

Inventors:

Steven Cross - Alamo CA, US
Matthieu Herbette - Sunnyvale CA, US
Andrew Kelly - Palo Alto CA, US
Daniel Myers - Mountain View CA, US
William Shen - Stanford CA, US
Ryan Timmons - Mountain View CA, US
Curtis Tom - San Mateo CA, US
Justin Virgili - Palo Alto CA, US
Martin Wensley - San Francisco CA, US

Assignee:

Alexza Molecular Delivery Corporation - Palo Alto CA

International Classification:

F23D011/00
A61M016/00

US Classification:

128204170, 128203260, 128203270

Abstract:

Devices and methods of entraining a substance within an airflow are disclosed. Condensation aerosol delivery devices and methods of consistently producing multiple doses of a substance, such as a drug, having high purity, high yield, characterized by a particle size distribution appropriate for pulmonary delivery, and which can be administered to a user in a single dose are also disclosed.

US Patent:

20080299048, Dec 4, 2008

Filed:

Dec 26, 2007

Appl. No.:

11/964630

Inventors:

Ron L. Hale - Woodside CA, US
Kathleen Simis - San Mateo CA, US
Amy T. Lu - Los Altos CA, US
Joshua D. Rabinowitz - Princeton NJ, US
Krishnamohan Sharma - Milpitas CA, US
William Shen - New York NY, US
Justin Virgili - Berkeley CA, US

Assignee:

ALEXZA PHARMACEUTICALS, INC. - Palo Alto CA

International Classification:

A61K 9/12

US Classification:

424 45

Abstract:

The present invention pertains to aerosols which comprise a first compound which is physiologically active and a second compound which is different from the first compound. Such aerosols may be produced “on demand” and can be used to control drug release, to improve vaporizability, or to reduce, modify or eliminate undesirable taste associated with a drug aerosol. The present invention also pertains to methods for producing such aerosols.

US Patent:

20110233043, Sep 29, 2011

Filed:

Apr 1, 2011

Appl. No.:

13/078654

Inventors:

Steven D. Cross - Alamo CA, US
Matthieu Herbette - Sunnyvale CA, US
Andrew J.G. Kelly - Palo Alto CA, US
Daniel J. Myers - Mountain View CA, US
William W. Shen - Mountain View CA, US
Ryan D. Timmons - Mountain View CA, US
Curtis Tom - San Mateo CA, US
Justin M. Virgili - Palo Alto CA, US
Martin J. Wensley - San Francisco CA, US

Assignee:

ALEXZA PHARMACEUTICALS, INC. - Mountain View CA

International Classification:

B01D 5/00
B01D 3/00

US Classification:

2021851

Abstract:

Devices and methods of entraining a substance within an airflow are disclosed. Condensation aerosol delivery devices and methods of consistently producing multiple doses of a substance, such as a drug, having high purity, high yield, characterized by a particle size distribution appropriate for pulmonary delivery, and which can be administered to a user in a single dose are also disclosed.

US Patent:

20130180525, Jul 18, 2013

Filed:

Dec 17, 2012

Appl. No.:

13/717630

Inventors:

ALEXZA PHARMACEUTICALS, INC. - Mountain View CA, US
Matthieu Herbette - Montricher, CH
Andrew J.G. Kelly - Belmont CA, US
Daniel J. Myers - Mountain View CA, US
William W. Shen - San Francisco CA, US
Ryan D. Timmons - Eagan MN, US
Curtis Tom - San Mateo CA, US
Justin M. Virgili - Midland MI, US
Martin J. Wensley - Los Gatos CA, US

Assignee:

ALEXZA PHARMACEUTICALS, INC. - Mountain View CA

International Classification:

A61M 16/10
A61M 11/04
A61M 16/14
A61M 15/00

US Classification:

12820327

Abstract:

Devices and methods of entraining a substance within an airflow are disclosed. Condensation aerosol delivery devices and methods of consistently producing multiple doses of a substance, such as a drug, having high purity, high yield, characterized by a particle size distribution appropriate for pulmonary delivery, and which can be administered to a user in a single dose are also disclosed.

US Patent:

20210261718, Aug 26, 2021

Filed:

May 10, 2021

Appl. No.:

17/316614

Inventors:

- Fremont CA, US
Matthew Han - Fremont CA, US
Justin Virgili - Fremont CA, US
Ryosuke Isobe - Fremont CA, US
Brian Flamm - Fremont CA, US
Leize Zhu - Newark CA, US

International Classification:

C08G 18/76
C08G 18/78
C08G 18/75
C08G 18/64
C08G 18/38
C08G 18/34
C08J 5/18

Abstract:

A polymer composition includes: a first proportion of an aliphatic-diisocyanate terminated polyol; a second proportion of an aromatic diisocyanate; a third proportion of an aromatic diamine curative configured to extend a chain length of the aliphatic-diisocyanate-terminated polyol and the aromatic diisocyanate; a fourth proportion of a polyester polyol configured to polymerize with the aliphatic-diisocyanate-terminated polyol; and a fifth proportion of a high functionality dendrimer configured to crosslink polymer chains of the aliphatic-diisocyanate-terminated polyol. Further, the hybrid copolymer can be configured to form a protective film layer in a foldable electronic display, the foldable electronic display including: a cover layer arranged over the protective film layer; and an array of organic light-emitting diodes arranged beneath the protective film layer.

US Patent:

20200199358, Jun 25, 2020

Filed:

Dec 20, 2019

Appl. No.:

16/723797

Inventors:

- Fremont CA, US
Matthew Han - Fremont CA, US
Justin Virgili - Fremont CA, US
Ryosuke Isobe - Fremont CA, US
Brian Flamm - Fremont CA, US

International Classification:

C08L 75/04
C08G 18/73
C08G 18/80
C08G 18/32
C08L 75/02
H01L 51/52
C08G 18/24
C08G 18/42
C08K 5/18

Abstract:

A hybrid copolymer composition includes: a first proportion of an aliphatic-diisocyanate terminated polyol; a second proportion of an aromatic diisocyanate; a third proportion of an aromatic diamine curative configured to extend a chain length of the aliphatic-diisocyanate-terminated polyol and the aromatic diisocyanate; a fourth proportion of a polyester polyol configured to polymerize with the aliphatic-diisocyanate-terminated polyol; and a fifth proportion of a high functionality dendrimer configured to crosslink polymer chains of the aliphatic-diisocyanate-terminated polyol. Further, the hybrid copolymer can be configured to form a protective film layer in a foldable electronic display, the foldable electronic display including: a cover layer arranged over the protective film layer; and an array of organic light-emitting diodes arranged beneath the protective film layer.

US Patent:

20180223143, Aug 9, 2018

Filed:

May 31, 2016

Appl. No.:

15/749410

Inventors:

- Midland MI, US
Justin M. Virgili - Oakland CA, US
Mark F. Sonnenschein - Midland MI, US
Jonathan Barrus - Lake Jackson TX, US
Yinzhong Guo - Pearland TX, US
Rui Xie - Pearland TX, US

International Classification:

C09J 175/04
B32B 7/12
C08G 18/32
C08G 18/50

Abstract:

A process comprising a) mixing i) an isocyanate reactive component that contains from 2 to 100 weight percent of an aminobenzoate terminated composition wherein the isocyanate reactive component does not contain a solvent; and ii) an isocyanate terminated component having an isocyanate functionality of from 2 to 6 wherein the isocyanate terminated component does not contain a solvent; at a stoichiometric ratio of NCO to reactive hydrogen in the range of from 0.9 to 2.5; to form an adhesive composition; b) applying the adhesive composition to a primary substrate; and c) laminating the primary substrate with a secondary film to form a laminate structure, is disclosed. The laminate structure can be used as a laminating adhesive.