Jin Hui Shen from 2906 Clifton Ave, Nashville, TN 37209, age 62

Resumes

Jin Shen

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Location:

Nashville, TN

Industry:

Medical Devices

Work:

Shanghai University

Education:

Shanghai University

Research Assistant Professor At Vanderbilt University

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Location:

2309 west End Ave, Nashville, TN 37240

Industry:

Higher Education

Work:

Vanderbilt University
Research Assistant Professor at Vanderbilt University

Jin Shen

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Jin Shen

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Location:

United States

Publications

Us Patents

Laser Surgical Cutting Probe And System

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US Patent:

6458120, Oct 1, 2002

Filed:

Aug 17, 2000

Appl. No.:

09/640425

Inventors:

Jin Hui Shen - Nashville TN, 37212
Karen M. Joos - Nashville TN, 37205

International Classification:

A61B 1818

US Classification:

606 10, 606 2, 606 13, 606 5, 606 6

Abstract:

A surgical laser probe and system combines a laser diode array remotely connected to a hand-held surgical probe by a fiber bundle. The surgical probe includes a laser head which produces a laser beam for surgical tissue ablation that is delivered through a disposable intraocular probe tip. The probe tip is made of a short section of optical fiber. Preferably, the laser head is an Er:YAG rod pumped by energy from the laser diode array to operate at a wavelength of 2. 94 microns. Auxiliary water and thermal electric cooling integral to the hand piece cools the laser head.

Intraocular Lens System

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US Patent:

20040158322, Aug 12, 2004

Filed:

Apr 9, 2004

Appl. No.:

10/474988

Inventors:

Jin Shen - Nashville TN, US

International Classification:

A61F002/16

US Classification:

623/006330, 623/006340

Abstract:

A system and intraocular lens system for implantation in an eye having a lens capsule and lens substance contained in the lens capsule. In one embodiment of the present invention, the intraocular lens system has a frame having a center, a first optical element with a focal power and a second optical element with a focal power. The first optical element has a center, a surface and an edge, wherein the first optical element is coupled to the frame at its edge such that the center of the first optical element is at a distance from the center of the frame. The second optical element has a center, a surface and an edge, wherein the second optical element is coupled to the frame at its edge such that the center of the second optical element is at a distance from the center of the frame. The first optical element and the second optical element at a predetermined state are positioned such that the distance between the first optical element and the center of the frame and the distance between the second optical element and the center of the frame are substantially same, and the surfaces of the first optical element and the second optical element partially overlap to form a combined lens with an effective focal power that is different from either of the focal power of the first optical element and the focal power of the second optical element.

Apparatus And Method For Real-Time Imaging And Monitoring Of An Electrosurgical Procedure

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US Patent:

20120310042, Dec 6, 2012

Filed:

May 31, 2011

Appl. No.:

13/149502

Inventors:

Karen Joos - Nashville TN, US
Jin Hui Shen - Nashville TN, US
M. Shane Hutson - Nashville TN, US
John Kozub - Mount Juliet TN, US

International Classification:

A61B 1/07
A61B 18/20

US Classification:

600108, 600104

Abstract:

An optical coherence tomography probe and laser combination device configured for real-time z-directional guidance of the incisional depth of a surgical procedure. It can be used alone or placed within the working channel of an endoscope. The device includes an OCT single mode fiber, and a laser fiber or laser hollow waveguide or electrical surgical wire positioned adjacent to the OCT single mode fiber. The single mode fiber is configured to move laterally when activated by an actuator to scan light data reflected from a sample that is positioned in front of a distal end of the device. The light data can be processed to generate a B-scan image. The device can collect data in real-time during lasing, or immediately prior to and following the cutting. The surgical tool, when coupled to a processor, can deactivate when the B-scan image identifies that the incision is within a predefined tolerance.

Laser Surgical Cutting Probe And System

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US Patent:

62139983, Apr 10, 2001

Filed:

Apr 2, 1998

Appl. No.:

9/054039

Inventors:

Jin Hui Shen - Nashville TN
Karen M. Joos - Nashville TN

Assignee:

Vanderbilt University - Nashville TN

International Classification:

A61B 1818

US Classification:

606 10

Abstract:

A surgical laser system combines a laser diode array remotely connected to a hand-held surgical probe by a fiber bundle. The surgical system has a which includes a laser head which produces a laser beam for surgical tissue ablation that is delivered through a disposable intraocular probe tip. The probe tip is made of a short section of optical fiber. Preferably, the laser head is an Er:YAG rod pumped by energy from the laser diode array to operate at a wavelength of 2. 94 microns. Auxiliary water and thermal electric cooling integral to the hand piece cools the laser head.

Optical Coherence Tomography Probe

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US Patent:

20140221826, Aug 7, 2014

Filed:

May 31, 2011

Appl. No.:

14/122500

Inventors:

Karen Joos - Nashville TN, US
Jin Hui Shen - Nashville TN, US

Assignee:

VANDERBILT UNIVERSITY - Nashville TN

International Classification:

A61B 5/00
A61B 1/04
A61B 1/07
A61B 3/10
G01B 9/02

US Classification:

600425

Abstract:

A miniature intraoperative probe () capable of forward-imaging with optical coherence tomography. The probe includes a housing (), an actuator () supported by the housing, and a single mode () fiber supported by the housing and configured to laterally scan light data reflected from a sample.