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    • 3. 发明授权
    • Enhanced optical coherence tomography for anatomical mapping
    • 用于解剖图的增强光学相干断层扫描
    • US07659990B2
    • 2010-02-09
    • US12322607
    • 2009-02-04
    • Robert W. KnightonShuliang JiaoGiovanni GregoriCarmen A. Puliafito
    • Robert W. KnightonShuliang JiaoGiovanni GregoriCarmen A. Puliafito
    • G01B9/02
    • G01B9/02044A61B3/102G01B9/02089G01B9/02091
    • 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.
    • 一种利用光学相干断层扫描的解剖学映射的系统,方法和装置。 在本发明中,可以从从眼睛反射的光的扫描中获取三维眼底强度图像。 作为示例,扫描可以包括光谱域扫描。 可以实时获取眼底强度图像。 可以减少3维数据集以产生解剖学映射,例如水肿测绘和厚度映射。 可选地,可以从眼睛的扫描产生部分眼底强度图像,以生成眼睛的视网膜结构的面部视图,而不需要对3D数据集进行全部分割。 有利地,本发明的系统,方法和装置可以提供关于黄斑水肿和其他病变的空间位置和程度的定量三维信息。 这种三维信息可用于确定治疗的需要,监测治疗的有效性,并确定可能表明需要再次治疗的流体的返回。
    • 4. 发明申请
    • ENHANCED OPTICAL COHERENCE TOMOGRAPHY FOR ANATOMICAL MAPPING
    • 用于解剖图的增强光学相干坐标测量
    • US20110273667A1
    • 2011-11-10
    • US13043401
    • 2011-03-08
    • Robert W. KnightonShuliang JiaoGiovanni GregoriCarmen A. Puliafito
    • Robert W. KnightonShuliang JiaoGiovanni GregoriCarmen A. Puliafito
    • A61B3/14A61B3/12
    • G01B9/02044A61B3/102G01B9/02089G01B9/02091
    • 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.
    • 一种利用光学相干断层扫描的解剖学映射的系统,方法和装置。 在本发明中,可以从从眼睛反射的光的扫描中获取三维眼底强度图像。 作为示例,扫描可以包括光谱域扫描。 可以实时获取眼底强度图像。 可以减少3维数据集以产生解剖学映射,例如水肿测绘和厚度映射。 可选地,可以从眼睛的扫描产生部分眼底强度图像,以生成眼睛的视网膜结构的面部视图,而不需要对3D数据集进行全部分割。 有利地,本发明的系统,方法和装置可以提供关于黄斑水肿和其他病变的空间位置和程度的定量三维信息。 这种三维信息可用于确定治疗的需要,监测治疗的有效性,并确定可能表明需要再次治疗的流体的返回。
    • 6. 发明授权
    • Enhanced optical coherence tomography for anatomical mapping
    • 用于解剖图的增强光学相干断层扫描
    • US08319974B2
    • 2012-11-27
    • US13043401
    • 2011-03-08
    • Robert W. KnightonShuliang JiaoGiovanni GregoriCarmen A. Puliafito
    • Robert W. KnightonShuliang JiaoGiovanni GregoriCarmen A. Puliafito
    • G01B9/02
    • G01B9/02044A61B3/102G01B9/02089G01B9/02091
    • 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.
    • 一种利用光学相干断层扫描的解剖学映射的系统,方法和装置。 在本发明中,可以从从眼睛反射的光的扫描中获取三维眼底强度图像。 作为示例,扫描可以包括光谱域扫描。 可以实时获取眼底强度图像。 可以减少3维数据集以产生解剖学映射,例如水肿测绘和厚度映射。 可选地,可以从眼睛的扫描产生部分眼底强度图像,以生成眼睛的视网膜结构的面部视图,而不需要对3D数据集进行全部分割。 有利地,本发明的系统,方法和装置可以提供关于黄斑水肿和其他病变的空间位置和程度的定量三维信息。 这种三维信息可用于确定治疗的需要,监测治疗的有效性,并确定可能表明需要再次治疗的流体的返回。
    • 7. 发明授权
    • Enhanced optical coherence tomography for anatomical mapping
    • 用于解剖图的增强光学相干断层扫描
    • US07924429B2
    • 2011-04-12
    • US12644526
    • 2009-12-22
    • Robert W. KnightonShuliang JiaoGiovanni GregoriCarmen A. Puliafito
    • Robert W. KnightonShuliang JiaoGiovanni GregoriCarmen A. Puliafito
    • G01B9/02
    • G01B9/02044A61B3/102G01B9/02089G01B9/02091
    • 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.
    • 一种利用光学相干断层扫描的解剖学映射的系统,方法和装置。 在本发明中,可以从从眼睛反射的光的扫描中获取三维眼底强度图像。 作为示例,扫描可以包括光谱域扫描。 可以实时获取眼底强度图像。 可以减少3维数据集以产生解剖学映射,例如水肿测绘和厚度映射。 可选地,可以从眼睛的扫描产生部分眼底强度图像,以生成眼睛的视网膜结构的面部视图,而不需要对3D数据集进行全部分割。 有利地,本发明的系统,方法和装置可以提供关于黄斑水肿和其他病变的空间位置和程度的定量三维信息。 这种三维信息可用于确定治疗的需要,监测治疗的有效性,并确定可能表明需要再次治疗的流体的返回。
    • 8. 发明申请
    • Enhanced optical coherence tomography for anatomical mapping
    • 用于解剖图的增强光学相干断层扫描
    • US20090180123A1
    • 2009-07-16
    • US12322607
    • 2009-02-04
    • Robert W. KnightonShuliang JiaoGiovanni GregoriCarmen A. Puliafito
    • Robert W. KnightonShuliang JiaoGiovanni GregoriCarmen A. Puliafito
    • G01B9/02G01B11/02
    • G01B9/02044A61B3/102G01B9/02089G01B9/02091
    • 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.
    • 一种利用光学相干断层扫描的解剖学映射的系统,方法和装置。 在本发明中,可以从从眼睛反射的光的扫描中获取三维眼底强度图像。 作为示例,扫描可以包括光谱域扫描。 可以实时获取眼底强度图像。 可以减少3维数据集以产生解剖学映射,例如水肿测绘和厚度映射。 可选地,可以从眼睛的扫描产生部分眼底强度图像,以生成眼睛的视网膜结构的面部视图,而不需要对3D数据集进行全部分割。 有利地,本发明的系统,方法和装置可以提供关于黄斑水肿和其他病变的空间位置和程度的定量三维信息。 这种三维信息可用于确定治疗的需要,监测治疗的有效性,并确定可能表明需要再次治疗的流体的返回。
    • 10. 发明申请
    • ENHANCED OPTICAL COHERENCE TOMOGRAPHY FOR ANATOMICAL MAPPING
    • 用于解剖图的增强光学相干坐标测量
    • US20100208201A1
    • 2010-08-19
    • US12644526
    • 2009-12-22
    • Robert W. KNIGHTONShuliang JiaoGiovanni GregoriCarmen A. Puliafito
    • Robert W. KNIGHTONShuliang JiaoGiovanni GregoriCarmen A. Puliafito
    • A61B3/14
    • G01B9/02044A61B3/102G01B9/02089G01B9/02091
    • 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.
    • 一种利用光学相干断层扫描的解剖学映射的系统,方法和装置。 在本发明中,可以从从眼睛反射的光的扫描中获取三维眼底强度图像。 作为示例,扫描可以包括光谱域扫描。 可以实时获取眼底强度图像。 可以减少3维数据集以产生解剖学映射,例如水肿测绘和厚度映射。 可选地,可以从眼睛的扫描产生部分眼底强度图像,以生成眼睛的视网膜结构的面部视图,而不需要对3D数据集进行全部分割。 有利地,本发明的系统,方法和装置可以提供关于黄斑水肿和其他病变的空间位置和程度的定量三维信息。 这种三维信息可用于确定治疗的需要,监测治疗的有效性,并确定可能表明需要再次治疗的流体的返回。