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Method and apparatus for determining optical characteristics of a cornea

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • A61B-003/10
출원번호 US-0936238 (1997-09-24)
발명자 / 주소
  • Bille Josef F.,DEX
출원인 / 주소
  • Heidelberg Engineering Optische Messysteme GmbH, DEX
대리인 / 주소
    Nydegger & Associates
인용정보 피인용 횟수 : 174  인용 특허 : 10

초록

A system for determining the birefringent topography of a birefringent sample (e.g. cornea of an eye) includes a scanning tomopgraphy unit for establishing a plane of focus and an ellipsometer for generating a laser beam that is useable to obtain a birefringent measurement of the sample. The system

대표청구항

[ What is claimed is:] [1.] A system for determining the birefringent topography of a birefringent sample, the sample having an anterior surface separated from a posterior surface, wherein said system comprises:a scanning tomography unit for establishing a plane of focus within the sample;an ellipso

이 특허에 인용된 특허 (10)

  1. Bille Josef F. (Rancho Santa Fe CA), Device for mapping corneal topography.
  2. Bille Josef F.,DEX, Ellipsometer.
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  6. L\Esperance ; Jr. Francis A. (Englewood NJ), Method for performing ophthalmic laser surgery.
  7. Bille Josef F. (Rancho Santa Fe CA), Method for reshaping the cornea.
  8. Bille Josef F. (Rancho Santa Fe CA) Brown Stuart I. (La Jolla CA), Method for reshaping the eye.
  9. L\Esperance ; Jr. Francis A. (Englewood NJ), Method of laser-sculpture of the optically used portion of the cornea.
  10. L\Esperance ; Jr. Francis A. (Englewood NJ), Method of laser-sculpture of the optically used portion of the cornea.

이 특허를 인용한 특허 (174)

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  151. Colice, Christopher Max; Bouma, Brett Eugene; Tearney, Guillermo J.; Ha, Jinyong; Shishkov, Milen, System, method and computer-accessible medium for tracking vessel motion during three-dimensional coronary artery microscopy.
  152. Tearney, Guillermo J.; Bouma, Brett Eugene; Kang, Dongkyun; Whitesides, George M.; Martinez, Rames, System, method, and computer-accessible medium for fabrication miniature endoscope using soft lithography.
  153. Narasimha-Iyer, Harihar; Everett, Matthew J., Systems and methods for efficiently obtaining measurements of the human eye using tracking.
  154. Narasimha-Iyer, Harihar; Everett, Matthew J., Systems and methods for efficiently obtaining measurements of the human eye using tracking.
  155. Bagherinia, Homayoun; Sharma, Utkarsh, Systems and methods for enhanced accuracy in OCT imaging of the cornea.
  156. Vakoc, Benjamin J.; Oh, Wang Y.; Tearney, Guillermo J.; Bouma, Brett E., Systems and methods for extending imaging depth range of optical coherence tomography through optical sub-sampling.
  157. Yelin, Dvir; Yun, Seok-Hyun; Bouma, Brett Eugene; Tearney, Guillermo J, Systems and methods for generating data based on one or more spectrally-encoded endoscopy techniques.
  158. de Boer,Johannes Fitzgerald, Systems and methods for imaging a sample.
  159. Campbell, Charles E.; Farrer, Stephen W.; Neal, Daniel R.; Powers, William S.; Raymond, Thomas D.; Copland, James, Systems and methods for measuring the shape and location of an object.
  160. Vakoc, Benjamin J.; Tearney, Guillermo J.; Bouma, Brett E., Systems and methods for providing beam scan patterns for high speed doppler optical frequency domain imaging.
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  166. Tearney, Guillermo J.; Bouma, Brett Eugene; Gardecki, Joseph A.; Liu, Linbo, Systems, methods and computer-accessible medium which provide microscopic images of at least one anatomical structure at a particular resolution.
  167. Vermeer, Koenraad Arndt; De Boer, Johannes Fitzgerald, Systems, methods and computer-readable medium for determining depth-resolved physical and/or optical properties of scattering media by analyzing measured data over a range of depths.
  168. Vakoc, Benjamin J.; Zhang, Ziyi, Systems, methods, apparatus and computer-accessible-medium for providing polarization-mode dispersion compensation in optical coherence tomography.
  169. Jaffer, Farouc A.; Ntziachristos, Vasilis, Systems, processes and computer-accessible medium for providing hybrid flourescence and optical coherence tomography imaging.
  170. Tearney, Guillermo J.; Bouma, Brett Eugene; Evans, John A., Systems, processes and software arrangements for evaluating information associated with an anatomical structure by an optical coherence ranging technique.
  171. Tearney, Guillermo J.; Bouma, Brett Eugene; Evans, John A., Systems, processes and software arrangements for evaluating information associated with an anatomical structure by an optical coherence ranging technique.
  172. Neal, Daniel R.; Copland, Richard J., Tomographic wavefont analysis system and method of mapping an optical system.
  173. Levine,Bruce Martin, Wavefront sensing apparatus with adaptive optics.
  174. Pettit, George H., Wavefront sensor for objective measurement of an optical system and associated methods.
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