Shuliang Jiao from 12381 SW 240Th St, Homestead, FL 33032, age 60

Enhanced Optical Coherence Tomography For Anatomical Mapping

View page

US Patent:

7301644, Nov 27, 2007

Filed:

Sep 6, 2005

Appl. No.:

11/219992

Inventors:

Robert W. Knighton - Miami FL, US
Shuliang Jiao - Miami FL, US
Giovanni Gregori - Coral Gables FL, US
Carmen A. Puliafito - Pinecrest FL, US

Assignee:

University of Miami - Miami FL

International Classification:

G01B 9/02

US Classification:

356479

Abstract:

A system, method and apparatus for anatomical mapping utilizing optical coherence tomography. In the present invention, 3-dimensional fundus intensity imagery can be acquired from a scanning of light back-reflected from an eye. The scanning can include spectral domain scanning, as an example. A fundus intensity image can be acquired in real-time. The 3-dimensional data set can be reduced to generate an anatomical mapping, such as an edema mapping and a thickness mapping. Optionally, a partial fundus intensity image can be produced from the scanning of the eye to generate an en face view of the retinal structure of the eye without first requiring a full segmentation of the 3-D data set. Advantageously, the system, method and apparatus of the present invention can provide quantitative three-dimensional information about the spatial location and extent of macular edema and other pathologies. This three-dimensional information can be used to determine the need for treatment, monitor the effectiveness of treatment and identify the return of fluid that may signal the need for re-treatment.

Enhanced Optical Coherence Tomography For Anatomical Mapping

View page

US Patent:

7505142, Mar 17, 2009

Filed:

Oct 18, 2007

Appl. No.:

11/975239

Inventors:

Robert W. Knighton - Miami FL, US
Shuliang Jiao - Miami FL, US
Giovanni Gregori - Coral Gables FL, US
Carmen A. Puliafito - Pinecrest FL, US

Assignee:

University of Miami - Miami FL

International Classification:

G01B 9/02

US Classification:

356479

Abstract:

A system, method and apparatus for anatomical mapping utilizing optical coherence tomography. In the present invention, 3-dimensional fundus intensity imagery can be acquired from a scanning of light back-reflected from an eye. The scanning can include spectral domain scanning, as an example. A fundus intensity image can be acquired in real-time. The 3-dimensional data set can be reduced to generate an anatomical mapping, such as an edema mapping and a thickness mapping. Optionally, a partial fundus intensity image can be produced from the scanning of the eye to generate an en face view of the retinal structure of the eye without first requiring a full segmentation of the 3-D data set. Advantageously, the system, method and apparatus of the present invention can provide quantitative three-dimensional information about the spatial location and extent of macular edema and other pathologies. This three-dimensional information can be used to determine the need for treatment, monitor the effectiveness of treatment and identify the return of fluid that may signal the need for re-treatment.

Enhanced Optical Coherence Tomography For Anatomical Mapping

View page

US Patent:

7659990, Feb 9, 2010

Filed:

Feb 4, 2009

Appl. No.:

12/322607

Inventors:

Robert W. Knighton - Miami FL, US
Shuliang Jiao - Miami FL, US
Giovanni Gregori - Coral Gables FL, US
Carmen A. Puliafito - Pinecrest FL, US

Assignee:

University of Miami - Miami FL

International Classification:

G01B 9/02

US Classification:

356479

Abstract:

A system, method and apparatus for anatomical mapping utilizing optical coherence tomography. In the present invention, 3-dimensional fundus intensity imagery can be acquired from a scanning of light back-reflected from an eye. The scanning can include spectral domain scanning, as an example. A fundus intensity image can be acquired in real-time. The 3-dimensional data set can be reduced to generate an anatomical mapping, such as an edema mapping and a thickness mapping. Optionally, a partial fundus intensity image can be produced from the scanning of the eye to generate an en face view of the retinal structure of the eye without first requiring a full segmentation of the 3-D data set. Advantageously, the system, method and apparatus of the present invention can provide quantitative three-dimensional information about the spatial location and extent of macular edema and other pathologies. This three-dimensional information can be used to determine the need for treatment, monitor the effectiveness of treatment and identify the return of fluid that may signal the need for re-treatment.

Enhanced Optical Coherence Tomography For Anatomical Mapping

View page

US Patent:

7924429, Apr 12, 2011

Filed:

Dec 22, 2009

Appl. No.:

12/644526

Inventors:

Robert W. Knighton - Miami FL, US
Shuliang Jiao - Miami FL, US
Giovanni Gregori - Coral Gables FL, US
Carmen A. Puliafito - Pinecrest FL, US

Assignee:

University of Miami - Miami FL

International Classification:

G01B 9/02

US Classification:

356479

Abstract:

A system, method and apparatus for anatomical mapping utilizing optical coherence tomography. In the present invention, 3-dimensional fundus intensity imagery can be acquired from a scanning of light back-reflected from an eye. The scanning can include spectral domain scanning, as an example. A fundus intensity image can be acquired in real-time. The 3-dimensional data set can be reduced to generate an anatomical mapping, such as an edema mapping and a thickness mapping. Optionally, a partial fundus intensity image can be produced from the scanning of the eye to generate an en face view of the retinal structure of the eye without first requiring a full segmentation of the 3-D data set. Advantageously, the system, method and apparatus of the present invention can provide quantitative three-dimensional information about the spatial location and extent of macular edema and other pathologies. This three-dimensional information can be used to determine the need for treatment, monitor the effectiveness of treatment and identify the return of fluid that may signal the need for re-treatment.

Systems And Methods For Photoacoustic Opthalmoscopy

View page

US Patent:

8016419, Sep 13, 2011

Filed:

Mar 17, 2010

Appl. No.:

12/726172

Inventors:

Hao F. Zhang - Milwaukee WI, US
Shuliang Jiao - Alhambra CA, US

Assignee:

The UWM Research Foundation, Inc. - Milwaukee WI
University of Southern California - Los Angeles CA

International Classification:

A61B 3/14
A61B 3/00

US Classification:

351206, 321200, 321246

Abstract:

Various embodiments of the present invention include systems and methods for multimodal functional imaging based upon photoacoustic and laser optical scanning microscopy. In particular, at least one embodiment of the present invention utilizes a contact lens in combination with an ultrasound transducer for purposes of acquiring photoacoustic microscopy data. Traditionally divergent imaging modalities such as confocal scanning laser ophthalmoscopy and photoacoustic microscopy are combined within a single laser system. Functional imaging of biological samples can be utilized for various medical and biological purposes.

Systems And Methods For Photoacoustic Opthalmoscopy

View page

US Patent:

8025406, Sep 27, 2011

Filed:

Mar 17, 2010

Appl. No.:

12/726176

Inventors:

Hao F. Zhang - Milwaukee WI, US
Shuliang Jiao - Alhambra CA, US

Assignee:

The UWM Research Foundation, Inc. - Milwaukee WI
University of Southern California - Los Angeles CA

International Classification:

A61B 3/00
A61B 3/10

US Classification:

351219, 351200, 351205

Abstract:

Various embodiments of the present invention include systems and methods for multimodal functional imaging based upon photoacoustic and laser optical scanning microscopy. In particular, at least one embodiment of the present invention utilizes a contact lens in combination with an ultrasound transducer for purposes of acquiring photoacoustic microscopy data. Traditionally divergent imaging modalities such as confocal scanning laser opthalmoscopy and photoacoustic microscopy are combined within a single laser system. Functional imaging of biological samples can be utilized for various medical and biological purposes.

Enhanced Optical Coherence Tomography For Anatomical Mapping

View page

US Patent:

8319974, Nov 27, 2012

Filed:

Mar 8, 2011

Appl. No.:

13/043401

Inventors:

Robert W. Knighton - Miami FL, US
Shuliang Jiao - Miami FL, US
Giovanni Gregori - Coral Gables FL, US
Carmen A. Puliafito - Pinecrest FL, US

Assignee:

Carl Zeiss Meditec, Inc. - Dublin CA

International Classification:

G01B 9/02

US Classification:

356479

Abstract:

A system, method and apparatus for anatomical mapping utilizing optical coherence tomography. In the present invention, 3-dimensional fundus intensity imagery can be acquired from a scanning of light back-reflected from an eye. The scanning can include spectral domain scanning, as an example. A fundus intensity image can be acquired in real-time. The 3-dimensional data set can be reduced to generate an anatomical mapping, such as an edema mapping and a thickness mapping. Optionally, a partial fundus intensity image can be produced from the scanning of the eye to generate an en face view of the retinal structure of the eye without first requiring a full segmentation of the 3-D data set. Advantageously, the system, method and apparatus of the present invention can provide quantitative three-dimensional information about the spatial location and extent of macular edema and other pathologies. This three-dimensional information can be used to determine the need for treatment, monitor the effectiveness of treatment and identify the return of fluid that may signal the need for re-treatment.

Spectral Contrast For Glaucoma Imaging

View page

US Patent:

8641193, Feb 4, 2014

Filed:

Dec 3, 2009

Appl. No.:

13/133016

Inventors:

Shuliang Jiao - Miami FL, US
Xiangrun Huang - Wellington FL, US
Robert W. Knighton - Duluth MN, US

Assignee:

University of Miami - Miami FL

International Classification:

A61B 3/14
A61K 31/74

US Classification:

351206, 351246, 424 7804

Abstract:

A system for analyzing and detecting early stage damage to the retina related to glaucoma. The reflectance of different wavelengths of light by the retinal nerve fiber layer are compared. Changes in relative reflectance values indicate damage to the retinal nerve fibers and indicate early glaucomatous optical neuropathy.

Shuliang Jiao

Shuliang Jiao Phones & Addresses

Resumes

Resumes

Shuliang Jiao

Publications

Us Patents

Enhanced Optical Coherence Tomography For Anatomical Mapping

Enhanced Optical Coherence Tomography For Anatomical Mapping

Enhanced Optical Coherence Tomography For Anatomical Mapping

Enhanced Optical Coherence Tomography For Anatomical Mapping

Systems And Methods For Photoacoustic Opthalmoscopy

Systems And Methods For Photoacoustic Opthalmoscopy

Enhanced Optical Coherence Tomography For Anatomical Mapping

Spectral Contrast For Glaucoma Imaging