1. Articles in category: Probes

    1-24 of 373 1 2 3 4 ... 14 15 16 »
    1. True color scanning laser ophthalmoscopy and optical coherence tomography handheld probe

      True color scanning laser ophthalmoscopy and optical coherence tomography handheld probe

      Scanning laser ophthalmoscopes (SLOs) are able to achieve superior contrast and axial sectioning capability compared to fundus photography. However, SLOs typically use monochromatic illumination and are thus unable to extract color information of the retina. Previous color SLO imaging techniques utilized multiple lasers or narrow band sources for illumination, which allowed for multiple color but not “true color” imaging as done in fundus photography. We describe the first “true color” SLO, handheld color SLO, and combined color SLO integrated with a spectral domain optical coherence tomography (OCT) system. To achieve accurate color imaging, the SLO was calibrated with a color ...

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    2. Parallel guidance endoscopic optical coherence tomography system for internal diagnosis through active cannulas

      Parallel guidance endoscopic optical coherence tomography system for internal diagnosis through active cannulas

      A parallel guidance endoscopic optical coherence tomography (OCT) system is proposed for minimally invasive internal inspection of inner organs or complex structures for diagnosis. The system is maneuvered to access the target using an active cannulas’ steerable structures. The integration of a specially designed linkage device with the developed system allows the OCT endoscope to scan with enhanced signal-collective performance, while maintaining its tip at a constant distance from the target, as well as expanding the scanning range. The proposed system is integrated with flexible active cannulas, and this prototype is used for testing. The test results show that the ...

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    3. Imaging probe with combined ultrasound and optical means of imaging

      Imaging probe with combined ultrasound and optical means of imaging

      The present invention provides an imaging probe for imaging mammalian tissues and structures using high resolution imaging, including high frequency ultrasound and optical coherence tomography. The imaging probes structures using high resolution imaging use combined high frequency ultrasound (IVUS) and optical imaging methods such as optical coherence tomography (OCT) and to accurate co-registering of images obtained from ultrasound image signals and optical image, signals during scanning a region of interest.

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    4. In vivo imaging of functional microvasculature within tissue beds of oral and nasal cavities by swept-source optical coherence tomography with a forward/side-viewing probe

      In vivo imaging of functional microvasculature within tissue beds of oral and nasal cavities by swept-source optical coherence tomography with a forward/side-viewing probe

      We report three-dimensional (3D) imaging of microcirculation within human cavity tissues in vivo using a high-speed swept-source optical coherence tomography (SS-OCT) at 1300 nm with a modified probe interface. Volumetric structural OCT images of the inner tissues of oral and nasal cavities are acquired with a field of view of 2 mm × 2 mm. Two types of disposable and detachable probe attachments are devised and applied to the port of the imaging probe of OCT system, enabling forward and side imaging scans for selective and easy access to specific cavity tissue sites. Blood perfusion is mapped with OCT-based microangiography from ...

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    5. Intravascular Optical Coherence Tomography System with Pressure Monitoring Interface and Accessories

      Intravascular Optical Coherence Tomography System with Pressure Monitoring Interface and Accessories

      An optical coherence tomography system and method with integrated pressure measurement. In one embodiment the system includes an interferometer including: a wavelength swept laser; a source arm in communication with the wavelength swept laser; a reference arm in communication with a reference reflector; a first photodetector having a signal output; a detector arm in communication with the first photodetector, a probe interface; a sample arm in communication with a first optical connector of the probe interface; an acquisition and display system comprising: an A/D converter having a signal input in communication with the first photodetector signal output and a ...

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    6. Ultrasound guided optical coherence tomography, photoacoustic probe for biomedical imaging

      Ultrasound guided optical coherence tomography, photoacoustic probe for biomedical imaging

      An imaging probe for a biological sample includes an OCT probe and an ultrasound probe combined with the OCT probe in an integral probe package capable of providing by a single scanning operation images from the OCT probe and ultrasound probe to simultaneously provide integrated optical coherence tomography (OCT) and ultrasound imaging of the same biological sample. A method to provide high resolution imaging of biomedical tissue includes the steps of finding an area of interest using the guidance of ultrasound imaging, and obtaining an OCT image and once the area of interest is identified where the combination of the ...

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    7. Handheld imaging probe

      Handheld imaging probe

      A handheld imaging probe for performing optical coherence tomography is disclosed. The handheld imaging probe includes a lens tube and a housing. The lens tube contains an objective lens and a polycarbonate sheet. The polycarbonate sheet provides a bio-safe contact with a tissue sample to be examined. The housing, which is connected to the lens tube, contains a micromirror for directing a laser beam to irradiate the tissue sample via the objective lens and the polycarbonate sheet.

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    8. Forward viewing OCT endomicroscopy (Thesis)

      Forward viewing OCT endomicroscopy (Thesis)

      A forward viewing fiber optic-based imaging probe device was designed and constructed for use with ultrahigh speed optical coherence tomography in the human gastrointestinal tract. The light source was a MEMS-VCSEL at 1300 nm wavelength running at 300 kHz sweep rate, giving an effective A-line rate of 600 kHz. Data was acquired with a 1.8 GS/s A/D card optically clocked by a maximum fringe frequency of 1 GHz. The optical beam from the probe was scanned by a freely deflecting optical fiber that was mounted proximally on a piezoelectric tubular actuator, which was electrically driven in two ...

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    9. Durable Single Mode Fiber Probe With Optimized Reference Reflectivity

      Durable Single Mode Fiber Probe With Optimized Reference Reflectivity

      A probe for a common path optical coherence tomography system includes a sheath having a proximal end and a distal end and defining a lumen therein, a single mode optical fiber disposed within the lumen of the sheath such that a portion of the single mode optical fiber extends beyond the distal end of the sheath. The single mode optical fiber has an end face for transmitting and receiving light. The probe also includes a layer of hardened epoxy encasing the portion of the single mode optical fiber that extends beyond the distal end of the sheath except for the ...

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    10. Sapphire LENS-BASED Optical Fiber Probe For Optical Coherence Tomography

      Sapphire LENS-BASED Optical Fiber Probe For Optical Coherence Tomography

      A probe for an optical coherence tomography system according to an embodiment of the current invention includes a sheath having a proximal end and a distal end and defining a lumen therein, an optical fiber disposed at least partially within the lumen of said sheath, and a sapphire lens attached to the distal end of the sheath to form a fluid-tight seal to prevent fluid from entering the lumen of said sheath. The optical fiber has an end arranged in an optical path with the sapphire lens to provide optical coupling between the sapphire lens and the optical fiber.

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    11. Fiber-optic polarization diversity detection for rotary probe optical coherence tomography

      Fiber-optic polarization diversity detection for rotary probe optical coherence tomography

      We report a polarization diversity detection scheme for optical coherence tomography with a new, custom, miniaturized fiber coupler with single mode (SM) fiber inputs and polarization maintaining (PM) fiber outputs. The SM fiber inputs obviate matching the optical lengths of the X and Y OCT polarization channels prior to interference and the PM fiber outputs ensure defined X and Y axes after interference. Advantages for this scheme include easier alignment, lower cost, and easier miniaturization compared to designs with free-space bulk optical components. We demonstrate the utility of the detection system to mitigate the effects of rapidly changing polarization states ...

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    12. Method and apparatus for providing high-fill-factor micromirror/micromirror arrays with surface mounting capability

      Method and apparatus for providing high-fill-factor micromirror/micromirror arrays with surface mounting capability

      Embodiments of the subject invention relate to micromirror devices and methods of fabricating a micromirror/micromirror array. According to an embodiment, micromirrors can be fabricated from a semiconductor substrate where after forming actuators and bonding pads on a front side of the semiconductor substrate, the device is flipped over to have a portion of the back side of the substrate removed and formed to become the mirror plate surface. The subject micromirrors can allow further miniaturization of endoscopes and other optical applications without sacrificing the optical aperture through their surface mounting capabilities.

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      Mentions: Huikai K. Xie
    13. Optofluidic needle probe integrating targeted delivery of fluid with optical coherence tomography imaging

      Optofluidic needle probe integrating targeted delivery of fluid with optical coherence tomography imaging

      We present an optofluidic optical coherence tomography (OCT) needle probe capable of modifying the local optical properties of tissue to improve needle-probe imaging performance. The side-viewing probe comprises an all-fiber-optic design encased in a hypodermic needle (outer diameter 720 μm) and integrates a coaxial fluid-filled channel, terminated by an outlet adjacent to the imaging window, allowing focal injection of fluid to a target tissue. This is the first fully integrated OCT needle probe design to incorporate fluid injection into the imaging mechanism. The utility of this probe is demonstrated in air-filled sheep lungs, where injection of small quantities of saline ...

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    14. Medical imaging probe with rotary encoder

      Medical imaging probe with rotary encoder

      The present invention provides minimally invasive imaging probe having an optical encoder integrated therewith for accurately measuring or estimating the rotational velocity near the distal end of the medical device, such as an imaging probe which undergoes rotational movement during scanning of surrounding tissue in bodily lumens and cavities.

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    15. Cantilever-based MEMS optical scanning apparatus, system and method

      Cantilever-based MEMS optical scanning apparatus, system and method

      The present invention relates to an optical scanning apparatus and an optical scanning system The optical system includes an optical engine connected to an optical scanning probe The optical scanning probe images a sample at different lateral positions of the sample The optical scanning probe includes a housing having a longitudinal axis extending in a direction towards a sample to be scanned, a first base having a first moveable mirror supported thereon by a first cantilever connecting the first moveable mirror to the first base, a second base having a second moveable mirror supported thereon by a second cantilever connecting ...

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    16. Two-dimensional optical scanner with monolithically integrated glass microlens

      Two-dimensional optical scanner with monolithically integrated glass microlens

      A miniaturized two-dimensional forward optical scanner with a monolithically integrated glass microlens was developed for microendoscopic imaging applications. The fabricated device measures 2.26 × 1.97 × 0.62 mm 3 in size and a through-silicon microlens with a diameter of 400 µm and numerical aperture of 0.37 has been successfully integrated within the silicon layer. An XY stage structure with lens shuttle and comb actuators was designed, and proprietary glass isolation blocks were utilized in mechanical and electric isolation of X- and Y -axis actuators. Resonant frequencies of the stage in X and Y directions were 3.238 and ...

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    17. Endoscopic optical probe with a PZT actuator and MR tracker

      Endoscopic optical probe with a PZT actuator and MR tracker

      A miniaturized optical probe with a magnetic-resistance (MR) position tracker and piezoelectric-transduce (PZT) mirror system was developed for endoscopic optical imaging. All of the optical components such as collimation and focal lenses, reflection mirror, PZT linear actuator and MR sensor were wholly packaged in a single scanning probe with a volume of 3.57 cm 3 . This endoscopic probe has the advantages of having a small volume, extended stroke length (4.5 mm), high scanning speed (18.2 mm/s), efficient recoupling ratio (78.3%) and high spatial resolution (11.7 μm) compared to conventional endoscopes. Consequently, it showed the ...

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    18. High speed, wide velocity dynamic range Doppler optical coherence tomography (Part IV): split spectrum processing in rotary catheter probes

      High speed, wide velocity dynamic range Doppler optical coherence tomography (Part IV): split spectrum processing in rotary catheter probes

      We report a technique for blood flow detection using split spectrum Doppler optical coherence tomography (ssDOCT) that shows improved sensitivity over existing Doppler OCT methods. In ssDOCT, the Doppler signal is averaged over multiple sub-bands of the interferogram, increasing the SNR of the Doppler signal. We explore the parameterization of this technique in terms of number of sub-band windows, width and overlap of the windows, and their effect on the Doppler signal to noise in a flow phantom. Compared to conventional DOCT, ssDOCT processing has increased flow sensitivity. We demonstrate the effectiveness of ssDOCT in-vivo for intravascular flow detection within ...

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    19. Miniature forward-imaging B-scan optical coherence tomography probe to guide real-time laser ablation

      Miniature forward-imaging B-scan optical coherence tomography probe to guide real-time laser ablation

      Background and Objective Investigations have shown that pulsed lasers tuned to 6.1 µm in wavelength are capable of ablating ocular and neural tissue with minimal collateral damage. This study investigated whether a miniature B-scan forward-imaging optical coherence tomography (OCT) probe can be combined with the laser to provide real-time visual feedback during laser incisions. Study Design/Methods and Materials A miniature 25-gauge B-scan forward-imaging OCT probe was developed and combined with a 250 µm hollow-glass waveguide to permit delivery of 6.1 µm laser energy. A gelatin mixture and both porcine corneal and retinal tissues were simultaneously imaged and ...

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    20. PhD Student Position: design, fabrication and control of 2-axis endoscopic MOEMS scanner and implementation in an endomicroscopy microsystem for early diagnosis of cancer FEMTO-ST, Besançon, France

      PhD Student Position: design, fabrication and control of 2-axis endoscopic MOEMS scanner and implementation in an endomicroscopy microsystem for early diagnosis of cancer FEMTO-ST, Besançon, France

      PhD Student Position: design, fabrication and control of 2-axis endoscopic MOEMS scanner and implementation in an endomicroscopy microsystem for early diagnosis of cancer The FEMTO-ST Institute (CNRS unit), associated with the Université de Franche-Comté (UFC), announces the opening of a PhD Student position in design and fabrication of Biophotonic Microsystems. This position, delivering a PhD diploma of UFC, is starting from October 1, 2014. The position is proposed in the frame of a joint collaboration between FEMTO-ST/UFC and Department of Electrical and Computer Engineering/University of Florida (UF), and includes a stage of 18 months at UF, Florida. FEMTO-ST ...

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    21. SOI lens structure for medical probe

      SOI lens structure for medical probe

      An optical probe for emitting and/or receiving light within a body comprises an optical fiber that transmits and/or receives an optical signal, a silicon optical bench including a fiber groove running longitudinally that holds an optical fiber termination of the optical fiber and a reflecting surface that optically couples an endface of the optical fiber termination to a lateral side of the optical bench. The fiber groove is fabricated using silicon anisotropic etching techniques. Some examples use a housing around the optical bench that is fabricated using LIGA or other electroforming technology. A method for a forming lens ...

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    22. CP-OCT sensor guided SMART micro-forceps

      CP-OCT sensor guided SMART micro-forceps

      Even the most stable hands have unintended movements on the order of 50-100 microns within 0-15 Hz. Micro-forceps are one of the frequently used microsurgical tools used to grasp thin layers of tissue during microsurgery. Here, a handheld Smart Micromanipulation Aided Robotic-surgery Tool (SMART) micro-forceps is developed by integrating a fiber-optic common-path optical coherence tomography (CP-OCT) sensor into the micro-forceps. This forceps design could significantly improve performance by canceling unwanted hand tremor during the moment of a grasping. The basic grasping and peeling functions of the micro-forceps are evaluated in dry phantoms and in a biological tissue model.

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    23. Development of Real-Time Dual-Display Handheld and Bench-Top Hybrid-Mode SD-OCTs

      Development of Real-Time Dual-Display Handheld and Bench-Top Hybrid-Mode SD-OCTs

      Development of a dual-display handheld optical coherence tomography (OCT) system for retina and optic-nerve-head diagnosis beyond the volunteer motion constraints is reported. The developed system is portable and easily movable, containing the compact portable OCT system that includes the handheld probe and computer. Eye posterior chambers were diagnosed using the handheld probe, and the probe could be fixed to the bench-top cradle depending on the volunteers’ physical condition. The images obtained using this handheld probe were displayed in real time on the computer monitor and on a small secondary built-in monitor; the displayed images were saved using the handheld probe ...

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    1-24 of 373 1 2 3 4 ... 14 15 16 »
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