Optical coherence tomography (OCT) imaging systems having adaptable lens systems and related methods and computer program products
First Claim
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1. An optical coherence tomography (OCT) imaging system for imaging structures adjacent a posterior surface of a substantially spherical ball-lens device, the system comprising:
- a source having an associated source arm path;
a reference arm having an associated reference arm path coupled to the source arm path, the reference arm path having an associated reference arm path length;
a sample arm having an associated sample arm path coupled to the source arm path, the sample arm comprising an input optical fiber delivering optical radiation from the source, at least one optical element following the input optical fiber, at least one scanning mirror following the at least one optical element, at least one optical element following the at least one scanning mirror, and the substantially spherical ball lens device following the at least one optical element;
a non-zero working distance between the at least one optical element and the substantially spherical ball lens device; and
a reference arm path length adjustment module coupled to the reference arm,wherein the working distance between the at least one optical element and the substantially spherical ball lens device are configured to adjust such that a conjugate of the at least one scanning mirror is imaged interior to the substantially spherical ball lens device, posterior to the anterior surface of the substantially spherical ball lens device and anterior to the posterior surface of the substantially spherical ball lens device; and
wherein the optical radiation from the input optical fiber is focused to an intermediate conjugate anterior to the substantially spherical ball lens device, wherefrom the intermediate conjugate of the optical radiation from the input optical fiber is focused to a region posterior to the image of the at least one scanning mirror and to a region adjacent the posterior surface of the substantially spherical ball lens device.
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Abstract
OCT imaging systems are provided for imaging a spherical-type eye including a source having an associated source arm path and a reference arm having an associated reference arm path coupled to the source path. The reference arm path has an associated reference arm path length. A sample is also provided having an associated sample arm path coupled to the source arm and reference arm paths. A lens having a focal power optimized for a diameter of the spherical-type eye is provided along with a reference arm path length adjustment module coupled to the reference arm. The reference arm path length adjustment module is configured to automatically adjust the reference arm path length such that the reference arm path length is based on an eye diameter of the subject.
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Citations
13 Claims
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1. An optical coherence tomography (OCT) imaging system for imaging structures adjacent a posterior surface of a substantially spherical ball-lens device, the system comprising:
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a source having an associated source arm path; a reference arm having an associated reference arm path coupled to the source arm path, the reference arm path having an associated reference arm path length; a sample arm having an associated sample arm path coupled to the source arm path, the sample arm comprising an input optical fiber delivering optical radiation from the source, at least one optical element following the input optical fiber, at least one scanning mirror following the at least one optical element, at least one optical element following the at least one scanning mirror, and the substantially spherical ball lens device following the at least one optical element; a non-zero working distance between the at least one optical element and the substantially spherical ball lens device; and a reference arm path length adjustment module coupled to the reference arm, wherein the working distance between the at least one optical element and the substantially spherical ball lens device are configured to adjust such that a conjugate of the at least one scanning mirror is imaged interior to the substantially spherical ball lens device, posterior to the anterior surface of the substantially spherical ball lens device and anterior to the posterior surface of the substantially spherical ball lens device; and wherein the optical radiation from the input optical fiber is focused to an intermediate conjugate anterior to the substantially spherical ball lens device, wherefrom the intermediate conjugate of the optical radiation from the input optical fiber is focused to a region posterior to the image of the at least one scanning mirror and to a region adjacent the posterior surface of the substantially spherical ball lens device. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method for imaging structures adjacent a posterior surface of a substantially spherical ball lens device using a scanning optical coherence tomography (OCT) imaging system, the method comprising:
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positioning a substantially spherical ball lens device distal to sample arm optics of the scanning OCT imaging system; adjusting a working distance between the distal sample arm optical element and an anterior surface of the substantially spherical ball lens device such that a conjugate of at least one scanning mirror is imaged within the interior of the substantially spherical ball lens device, posterior to the anterior surface of the substantially spherical ball lens device and anterior to the posterior surface of the substantially spherical ball lens device, such that a scanning beam pivots around a region interior to the substantially spherical ball lens device; and focusing optical radiation emanating from a distal end of an optical fiber terminating in the sample arm to a region posterior to a position of the conjugate of the at least one scanning mirror and to a region adjacent the posterior surface of the substantially spherical ball lens device.
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13. A computer program product for imaging structures adjacent a posterior surface of a substantially spherical ball lens device using a scanning optical coherence tomography (OCT) system, the computer program product comprising:
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a non-transitory computer readable storage medium having computer readable program code embodied in said medium, the computer readable program code comprising; computer readable program code configured to image structures adjacent the posterior surface of a substantially spherical ball lens device using optics positioned between at least one scanning mirror and the substantially spherical ball lens device, wherein the optics image are configured to image conjugate of the at least one scanning mirror to a region internal to the substantially spherical ball lens device and focus a light source posterior to the image of the at least one scanning mirror and to a region adjacent the posterior surface of the substantially spherical ball lens device; and computer readable program code configured to process an optical coherence tomography image of a region adjacent the posterior surface of the substantially spherical ball lens device.
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Specification
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Current AssigneeLeica Microsystems NC, Inc. (Danaher Corporation)
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Original AssigneeBioptigen, Inc. (Danaher Corporation)
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InventorsHart, Robert H., Buckland, Eric L., Myers, Glenn A., Izatt, Joseph A., Vance, Joseph Elliott
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Primary Examiner(s)SAHLE, MAHIDERE S
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Application NumberUS14/301,670Publication NumberTime in Patent Office1,042 DaysField of Search351200-247US Class CurrentCPC Class CodesA61B 3/102 for optical coherence tomog...A61B 5/0066 Optical coherence imagingA61B 5/0073 by tomography, i.e. reconst...G02B 26/105 with one or more pivoting m...
