Publications

03/19/17

Femtosecond Laser induced Refractive Index Change (RIS) in an Intraocular Lens

J. Bille, R. Sahler (BSRS 2017)

External Link to Abstract

02/28/17

Is every IOL Adjustable

D. Koch (AECOS 2017)

External Link to Abstract

01/28/17

Perfect Lens

R. Sahler (CSTILII 2017)

Woman in Ophthalmology

01/28/17

Hydrophilicity Based Refractive Index Shaping Process

G. Waring IV (CSTILII 2017)

Woman in Ophthalmology

01/28/17

Solutions to Multifocal IOL problems

D. Schanzlin (CSTILII 2017)

Session: Presbyopia correction

09/11/16

Chemical Basis for Alteration of an Intraocular Lens Using a Femtosecond Laser

J. Bille, R. Sahler, S. Enright, R. Alley, S. Chhoeung, K. Chan (ESCRS 2016)

External Link to Abstract

09/11/16

Refractive Index Shape Change Technology for Implanted IOLs - A Novel Solution for Presbyopia

George Waring IV (ISOP 2016)

External Link to Agenda

07/17/16

In vivo refractive index modification of an intraocular lens with a femtosecond laser - Perfect Lens

George Waring IV (AECOS Summer Symposium)

Innovator Session

05/10/16

Creation of a Lens Within a Standard Hydrophobic IOL in a Model Eye

R. Sahler, J. Bille (ASCRS 2016)

External Link to Abstract

09/08/15

Customizable aspheric refractive index shaped lens inside intraocular lens

R. Sahler, J. Bille (ESCRS 2015)

External Link to Abstract

09/08/15

Modification of an implanted intraocular lens

J. Bille, R. Sahler (ESCRS 2015)

External Link to Abstract

04/20/15

Manufacture of Custom IOL Using Femtosecond Laser

J. Bille, R. Sahler, S. Enright, S. Chhoeung, K. Chan, J. Matten (ASCRS 2015)

External Link to Abstract

04/20/15

Customizable IOL: Full-Sized Lens Created Inside Existing IOL Using Laser-Induced Refractive Index Change

R. Sahler, J. Bille, S. Enright, S. Chhoeung, K. Chan, J. Matten (ASCRS 2015)

External Link to Abstract

03/28/11

Generation and In Situ Modification of Customized IOLs

J.F. Bille, R. Sahler, R. Aguilera, S. Zhou, D.J. Schanzlin

Patents

US Patent 8,646,916

System for Characterizing a Cornea and Obtaining an Ophthalmic Lens

Status: Patent

APEIP.0101

Application No. 12/717,866

Issued February 11, 2014

A system for determining the clarity of vision of a patient using a laser

 

1a) Chinese Application No. 201080018948.X

System for Characterizing a Cornea and Obtaining an Ophthalmic Lens

Allowed for Issuance October 19, 2015

APEIP.0101CN

 

1b) Japanese Patent No. 5797563 (Japanese Application No. 2011-553121)

System for Characterizing a Cornea and Obtaining an Ophthalmic Lens

Issued August 28, 2015

APEIP.0101JP

 

1c) Mexican Patent Appln. No. MX/a/2011/009197 (PCT/US2010/026281)

System for Characterizing a Cornea and Obtaining an Ophthalmic Lens

Allowed August 25, 2015

APEIP.0101MX

US Patent 8,152,302

System for Characterizing a Cornea and Obtaining an Ophthalmic Lens

Status: Patent

APEIP.0101DIV2

Application No. 13/022,515

Issued April 10, 2012

A system for determining the shape of a cornea using a laser

US Patent 8,292,952

System for Forming and Modifying Lenses and Lenses Formed Thereby

Status: Patent

APEIP.0102

Application No. 12/717,886

A lens for placement in a human eye that has some properties formed with a laser.

 

3a) Canadian Patent Application No. 2,754,774

System for Forming and Modifying Lenses and Lenses Formed Thereby

Allowed for Issuance July 7, 2015

APEIP.0102CA

 

3b) Chinese Application No. 201080019199.2

System for Forming and Modifying Lenses and Lenses Formed Thereby

Allowed for Issuance March 20, 2015

APEIP.0102CN

 

3c) JP Patent No. 5,462,288 (Application No. 553120 [PCT/US2010/026280])

System for Forming and Modifying Lenses and Lenses Formed Thereby

Notice of Grant December 18, 2013

APEIP.0102JP

 

3d) Korean Patent Application No. 10-2011-7023186

System for Forming and Modifying Lenses and Lenses Formed Thereby

Allowed for Issuance December 28, 2015

APEIP.0102KR

 

3e) Mexican Patent Appln. No. MX/a/2011/009196 (PCT/US2010/026280)

System for Forming and Modifying Lenses and Lenses Formed Thereby

Allowed for Issuance October 2, 2015

APEIP.0102MX

US Patent 8,568,627

Method for Forming and Modifying Lenses

Status: Patent

APEIP.0102DIV1

Application No. 13/022,515

Issued October 29, 2013

 

4a) Japanese Application No. 2014-006081 (Division of JP Appln. No. 55312)

System for Forming and Modifying Lenses and Lenses Formed Thereby

Allowed for Issuance June 8, 2015

APEIP.0102JP-DIV1

US Patent 8,920,690

Method for Forming and Modifying Lenses and Lenses Formed Thereby

Status: Patent

Application No. 14/039,398

APEIP.0102DIV1-D

Issued December 30, 2014

A method for the creation of a lens for placement in the eye using a laser.

US Patent 9,192,292

System for Forming and Modifying Lenses and Lenses Formed Thereby

Status: Patent

Application No. 14/553,962

APEIP.0102DIV1-D-D

Issued November 24, 2015

US Patent 9,023,257

Hydrophilicity Alteration System and Method

Status: Patent

Application No. 13/843,464

APEIP.0105

A method for altering the hydrophilicity of a polymeric material using a laser, including modifying an implanted intraocular lens.

 

7a) Japanese Application No. 2015-543048

Hydrophilicity Alteration System and Method

APEIP.0105JP

Allowed for Issuance January 7, 2016

US Patent 9,186,242

Hydrophilicity Alteration System and Method

Status: Patent

Application No. 14/275,372

APEIP.0105DIV3

Issued November 17, 2015

US Patent 9,107,746

Hydrophilicity Alteration System and Method

Status: Patent

Application No. 14/275,413

APEIP.0105DIV4

Issued August 18, 2015

Patents are pending in China, Japan, Europe, Canada, Mexico, India and Korea.