Patent application number | Description | Published |
20080262314 | APPARATUS AND METHODS FOR MEASURING VIBRATIONS USING SPECTRALLY-ENCODED ENDOSCOPY - An apparatus and method according to an exemplary embodiment of to the present invention can provide imaging information associated with at least one portion of a sample. For example, at least two first different wavelengths of at least one first electromagnetic radiation within a first wavelength range may be provided on the portion of the sample so as to determine at least one first transverse location of the portion. At least two second different wavelengths of at least one second electromagnetic radiation may also be provided within a second wavelength range provided on the portion so as to determine at least one second transverse location of the portion. It is possible to obtain a relative phase between at least one third electromagnetic radiation electromagnetic radiation being returned from the sample and at least one fourth electromagnetic radiation returned from a reference to determine a motion of the portion or of particles within or on the portion, whereas the motion is effectuated by at least one of a sound wave. Further, the imaging information of the portion can be provided based on the first transverse location, the second transverse location and the motion. | 10-23-2008 |
20080262359 | SYSTEM AND METHOD PROVIDING INTRACORONARY LASER SPECKLE IMAGING FOR THE DETECTION OF VULNERABLE PLAQUE - Apparatus and method according to an exemplary embodiment of the present invention can be provided for analyzing tissue. For example, the apparatus can include at least one first arrangement configured to illuminate at least one anatomical structure with at least one of at least one electro-magnetic radiation. The apparatus can also include at least one second arrangement that may include at least two wave-guiding arrangements associated with one another that are configured to receive a further electro-magnetic radiation reflected from the tissue and transmit at least one speckle pattern associated with the further electro-magnetic radiation. The wave-guiding arrangements may be structured so as to reduce crosstalk therebetween. | 10-23-2008 |
20080287808 | APPARATUS, PROBE AND METHOD FOR PROVIDING DEPTH ASSESSMENT IN AN ANATOMICAL STRUCTURE - Apparatus and method can be provided for obtaining information regarding at least one portion of an anatomical structure. For example, using at least one first arrangement, it is possible to forward at least one first electromagnetic radiation to the at least one portion. In addition, using at least one second arrangement, it is possible to detect at least one second electromagnetic radiation from the sample, the second electromagnetic radiation being related to the first electromagnetic radiation. The second arrangement can be used to obtain data associated with the second electromagnetic radiation at a plurality of integration times. Further, with at least one third arrangement, it is possible to determine at least one motion characteristic as a function of depth within the portion using the second electromagnetic radiation. The motion characteristic can be determined by obtaining data associated with the second electromagnetic radiation. The data can be speckle data detected by the second arrangement. In addition, using the third arrangement, it is possible to determine optical properties of the portion based on the data. Furthermore, with a fourth arrangement, it is possible to receive the first electromagnetic radiation and generate a plurality of third electromagnetic radiations to irradiate multiple points on the portion. The second arrangement can be used to detect the second electromagnetic radiation from the sample based on the third electromagnetic radiations, and the third arrangement can also be used to determine a plurality of motion characteristics as a function of depth for a plurality of location of the at least one portion as a function of the second electromagnetic radiation. | 11-20-2008 |
20080297806 | APPARATUS AND METHOD FOR CONTROLLING RANGING DEPTH IN OPTICAL FREQUENCY DOMAIN IMAGING - Exemplary embodiments of an apparatus are provided. For example, the exemplary apparatus can include at least one first arrangement providing at least one first electro-magnetic radiation to a sample, at least one second electro-magnetic radiation to a first reference and at least one third electro-magnetic radiation to a second reference. A frequency of radiation provided by the first arrangement generally varies over time. The exemplary apparatus may also include at least one second arrangement which is configured to detect a first interference between at least one fourth electro-magnetic radiation associated with the first electro-magnetic radiation and at least one fifth electro-magnetic radiation associated with the second radiation. The second arrangement is also configured to detect a second interference between at least one sixth electro-magnetic radiation associated with the first electro-magnetic radiation and at least one seventh electro-magnetic radiation associated with the third radiation. | 12-04-2008 |
20090027689 | METHOD AND APPARATUS FOR PERFORMING OPTICAL IMAGING USING FREQUENCY-DOMAIN INTERFEROMETRY - An apparatus and method are provided. In particular, at least one first electro-magnetic radiation may be provided to a sample and at least one second electro-magnetic radiation can be provided to a non-reflective reference. A frequency of the first and/or second radiations varies over time. An interference is detected between at least one third radiation associated with the first radiation and at least one fourth radiation associated with the second radiation. Alternatively, the first electro-magnetic radiation and/or second electro-magnetic radiation have a spectrum which changes over time. The spectrum may contain multiple frequencies at a particular time. In addition, it is possible to detect the interference signal between the third radiation and the fourth radiation in a first polarization state. Further, it may be preferable to detect a further interference signal between the third and fourth radiations in a second polarization state which is different from the first polarization state. The first and/or second electro-magnetic radiations may have a spectrum whose mean frequency changes substantially continuously over time at a tuning speed that is greater than 100 Tera Hertz per millisecond. | 01-29-2009 |
20090036770 | METHOD AND APPARATUS FOR DETERMINATION OF ATHEROSCLEROTIC PLAQUE TYPE BY MEASUREMENT OF TISSUE OPTICAL PROPERTIES - Methods for diagnosing vulnerable atherosclerotic plaque using optical coherence tomography to measure tissue optical properties, including backreflectance of heterogeneous layers, such as plaque cap, lipid pool composition and macrophage presence. Methods also include measurement of spatially and temporally dependent reflectance, measurement of multiple wavelength reflectance, low coherence interferometry, polarization and quantification of macrophage content. | 02-05-2009 |
20090043192 | METHOD AND APPARATUS FOR DETERMINATION OF ATHEROSCLEROTIC PLAQUE TYPE BY MEASUREMENT OF TISSUE OPTICAL PROPERTIES - Methods for diagnosing vulnerable atherosclerotic plaque using optical coherence tomography to measure tissue optical properties, including backreflectance of heterogeneous layers, such as plaque cap, lipid pool composition and macrophage presence. Methods also include measurement of spatially and temporally dependent reflectance, measurement of multiple wavelength reflectance, low coherence interferometry, polarization and quantification of macrophage content. | 02-12-2009 |
20090131801 | SYSTEMS AND PROCESSES FOR OPTICAL IMAGING OF LUMINAL ANATOMIC STRUCTURES - Exemplary embodiments of an apparatus for obtaining data for at least one portion within at least one luminal or hollow sample can be provided. For example, the exemplary apparatus can include a first optical arrangement configured to transceive at least one electromagnetic radiation to and from the portion. A second arrangement may be provided that can at least partially enclose the first arrangement. At least one third arrangement may be provided which is configured to be actuated so as to expand, at least in part, beyond a periphery of the second arrangement. Such exemplary third arrangement can be structured to facilitate a fluid flow and/or a gas flow therethrough. Further, a fourth arrangement may be provided which can be structured to (i) actuate a particular number of the third arrangement and/or (ii) adjust a distance between at least two outer portions of the third arrangement. According to one exemplary embodiment, the third arrangement can be a plurality of the third arrangements. | 05-21-2009 |
20100094576 | APPARATUS AND METHOD FOR RANGING AND NOISE REDUCTION OF LOW COHERENCE INTERFEROMETRY LCI AND OPTICAL COHERENCE TOMOGRAPHY OCT SIGNALS BY PARALLEL DETECTION OF SPECTRAL BANDS - Apparatus and method for increasing the sensitivity in the detection of optical coherence tomography and low coherence interferometry (“LCI”) signals by detecting a parallel set of spectral bands, each band being a unique combination of optical frequencies. The LCI broad bandwidth source is split into N spectral bands. The N spectral bands are individually detected and processed to provide an increase in the signal-to-noise ratio by a factor of N. Each spectral band is detected by a separate photo detector and amplified. For each spectral band the signal is band pass filtered around the signal band by analog electronics and digitized, or, alternatively, the signal may be digitized and band pass filtered in software. As a consequence, the shot noise contribution to the signal is reduced by a factor equal to the number of spectral bands. The signal remains the same. The reduction of the shot noise increases the dynamic range and sensitivity of the system. | 04-15-2010 |
20100157309 | SPECKLE REDUCTION IN OPTICAL COHERENCE TOMOGRAPHY BY PATH LENGTH ENCODED ANGULAR COMPOUNDING - Speckle, a factor reducing image quality in optical coherence tomography (“OCT”), can limit the ability to identify cellular structures that are important for the diagnosis of a variety of diseases. Exemplary embodiments of the present invention can facilitate an implementation of an angular compounding, angular compounding by path length encoding (“ACPE”) for reducing speckle in OCT images. By averaging images obtained at different incident angles, with each image encoded by path length, ACPE maintains high-speed image acquisition and implements minimal modifications to OCT probe optics. ACPE images obtained from tissue phantoms and human skin in vivo demonstrate a qualitative improvement over traditional OCT and an increased signal-to-noise ratio (“SNR”). Accordingly, exemplary embodiments of an apparatus probe catheter and method can be provided for irradiating a structure. In particular, an interferometer may forward forwarding an electromagnetic radiation. In addition, a sample arm may receive the electromagnetic radiation, and can include an arrangement which facilitates a production of at least two radiations from the electromagnetic radiation so as to irradiate the structure. Such exemplary arrangement can be configured to delay a first radiation of the at least two radiations with respect to a second radiation of the at least two radiations. | 06-24-2010 |
20100309477 | METHOD AND APPARATUS FOR PERFORMING OPTICAL IMAGING USING FREQUENCY-DOMAIN INTERFEROMETRY - An apparatus and method are provided. In particular, at least one first electro-magnetic radiation may be provided to a sample and at least one second electro-magnetic radiation can be provided to a non-reflective reference. A frequency of the first and/or second radiations varies over time. An interference is detected between at least one third radiation associated with the first radiation and at least one fourth radiation associated with the second radiation. Alternatively, the first electro-magnetic radiation and/or second electro-magnetic radiation have a spectrum which changes over time. The spectrum may contain multiple frequencies at a particular time. In addition, it is possible to detect the interference signal between the third radiation and the fourth radiation in a first polarization state. Further, it may be preferable to detect a further interference signal between the third and fourth radiations in a second polarization state which is different from the first polarization state. The first and/or second electro-magnetic radiations may have a spectrum whose mean frequency changes substantially continuously over time at a tuning speed that is greater than 100 Tera Hertz per millisecond. | 12-09-2010 |
20110058178 | ARRANGEMENTS AND METHODS FOR PROVIDING MULTIMODALITY MICROSCOPIC IMAGING OF ONE OR MORE BIOLOGICAL STRUCTURES - Method and apparatus according to an exemplary embodiment of the present invention can be provided. For example, first data associated with a first signal received from at least one region of at least one sample can be provided based on a first modality, and second data associated with a second signal received from the at least one sample can be provided based on a second modality which is different from the first modality. Third data associated with a reference can be received. Further data can be generated based on the first, second and third data. In addition, third data associated with a second signal received from the at least one sample can be obtained. Each of the third data can be based on a further modality which is different from the first modality and the second modality, and the further data can be further determined based on the third data. Further, the first modality can be a spectral-encoded modality, and the second modality can be a non-spectral-encoding modality. | 03-10-2011 |
20110144504 | METHOD AND APPARATUS FOR OPTICAL IMAGING VIA SPECTRAL ENCODING - Method, apparatus and arrangement according an exemplary embodiment of the present invention can be provided for generating an image of at least one portion of an anatomical structure. For example, the portion can have an area greater than about 1 mm2, and the image can have a resolution a transverse resolution that is below about 10 μm. For example, light can be scanned over such portion so as to generate first information which is related to the portion, where the light may be provided through a diffraction arrangement to generate a spectrally dispersed line. Method, apparatus and arrangement according to a further exemplary embodiment of the present invention can be provided for positioning a radiation or optical beam within an anatomical structure based on signals generated by scanning a portion of the structure using the same or a different beam. | 06-16-2011 |
20110149296 | METHOD AND APPARATUS FOR OPTICAL IMAGING VIA SPECTRAL ENCODING - Exemplary method, apparatus and arrangement can be provided for obtaining information associated with a sample such as a portion of an anatomical structure. The information can be generated using first data, which can be based on a signal obtained from a location on the sample, and second data, where the second data can be obtained by combining a second signal received from the sample with a third reference signal. An image of a portion of the sample can also be generated based on the information. For example, the first data can be associated with spectral encoding microscopy data, and the second data can be associated with optical coherence tomography data. | 06-23-2011 |
20110178398 | METHOD AND APPARATUS FOR IMAGING OF VESSEL SEGMENTS - An apparatus, method and software arrangement for imaging a surface of a structure that is in contact with an opaque fluid is provided. The apparatus includes an article of manufacture (e.g., a housing), a fluid delivery arrangement and an imaging arrangement. The housing includes an aperture formed in the article of manufacture. The fluid delivery arrangement is configured to deliver a volume of substantially transparent fluid to the aperture formed in the housing. The imaging arrangement is configured to image the surface of the structure using an imaging modality after the volume of the transparent fluid is delivered to the aperture, wherein the imaging arrangement and/or the article of manufacture is translated along the surface of the structure while imaging the surface of the structure. | 07-21-2011 |
20110201924 | Method and Apparatus for Improving Image Clarity and Sensitivity in Optical Tomography Using Dynamic Feedback to Control Focal Properties and Coherence Gating - Methods for optical imaging, particularly with optical coherence tomography, using a low coherence light beam reflected from a sample surface and compared to a reference light beam, wherein real time dynamic optical feedback is used to detect the surface position of a tissue sample with respect to a reference point and the necessary delay scan range. The delay is provided by a tilting/rotating mirror actuated by a voltage adjustable galvanometer. An imaging probe apparatus for implementing the method is provided. The probe initially scans along one line until it finds the tissue surface, identifiable as a sharp transition from no signal to a stronger signal. The next time the probe scans the next line it adjusts the waveform depending on the previous scan. An algorithm is disclosed for determining the optimal scan range. | 08-18-2011 |
20110237892 | APPARATUS AND METHODS FOR COLOR ENDOSCOPY - Exemplary embodiments of apparatus and method according to the present disclosure are provided. For example, an apparatus for providing electromagnetic radiation to a structure can be provided. The exemplary apparatus can include a first arrangement having at least two wave-guides which can be configured to provide there through at least two respective electro-magnetic radiations with at least partially different wavelengths from one another. The exemplary apparatus can also include a dispersive second arrangement structured to receive the electro-magnetic radiations and forward at least two dispersed radiations associated with the respective electro-magnetic radiations to at least one section of the structure. The wave-guide(s) can be structured and/or spatially arranged with respect to the dispersive arrangement to facilitate at least partially overlap of the dispersed radiations on the structure. In addition, another arrangement can be provided which can include at least two further wave-guides which can be configured to receive the electro-magnetic radiations from the dispersive arrangement. Each of the further wave-guides can be structured and/or spatially arranged with respect to the dispersive arrangement to facilitate a receipt of a different one of the such electro-magnetic radiations as a function of wavelengths thereof. | 09-29-2011 |
20110255561 | APPARATUS CONFIGURED TO PROVIDE A WAVELENGTH-SWEPT ELECTRO-MAGNETIC RADIATION - Exemplary embodiments of apparatus according to the present disclosure are provided. For example, an apparatus for providing electromagnetic radiation to a structure can be provided. In one exemplary embodiment, the apparatus can provide at least one electromagnetic radiation, and include at least one first arrangement which can be configured to generate the electromagnetic radiation(s) having at least one wavelength that varies over time. The exemplary apparatus can also include at least one second arrangement which can be configured to power the first arrangement(s) independently from an external power source. In another exemplary embodiment the apparatus can include at least one particular arrangement which is configured to generate the electromagnetic radiation(s) having at least one wavelength that varies over time. The particular arrangement(s) can include a resonant cavity that has a roundtrip optical transit time of approximately less than 0.7 nsec. | 10-20-2011 |
20110275899 | SPECTRALLY ENCODED MINIATURE ENDOSCOPIC IMAGING PROBE - A spectrally encoded endoscopic probe having high resolution and small diameter comprising at least one flexible optical fiber; an energy source; a grating through which said energy is transmitted such that the energy spectrum is dispersed; a lens for focusing the dispersed energy spectrum onto a sample such that the impingement spot for each wavelength is a separate position on the sample, the wavelength spectrum defining a wavelength encoded axis; means for mechanically scanning the sample with focused energy in a direction perpendicular to the wavelength encoded axis; a means for receiving energy reflected from the sample; and, a means for detecting the received reflected energy. The probe grating and lens delivers a beam of multi-spectral light having spectral components extending in one dimension across a target region and which is moved to scan in another direction. The reflected spectrum is measured to provide two dimensional imaging of the region. | 11-10-2011 |
20110292400 | APPARATUS, SYSTEMS, METHODS AND COMPUTER-ACCESSIBLE MEDIUM FOR SPECTRAL ANALYSIS OF OPTICAL COHERENCE TOMOGRAPHY IMAGES - According to an exemplary embodiment of the present disclosure, apparatus and method can be provided for generating information for at least one structure. For example, using at least one first arrangement, it is possible to receive at least one first radiation from the at least one structure and at least one second radiation from a reference, and interfere the first and second radiations to generate at least one third radiation. Further, with at least one second arrangement, it is possible to generate spectroscopic data as a function of the at least one third radiation, and reduce at least one scattering effect in the spectroscopic data to generate the information. In addition or as an alternative, according to a further exemplary embodiment of the present disclosure, it is possible to classify a type of the structure based on the spectroscopic data to generate the information. | 12-01-2011 |
20110299091 | METHOD AND APPARATUS FOR PERFORMING OPTICAL IMAGING USING FREQUENCY-DOMAIN INTERFEROMETRY - An apparatus and method are provided. In particular, at least one first electro-magnetic radiation may be provided to a sample and at least one second electro-magnetic radiation can be provided to a non-reflective reference. A frequency of the first and/or second radiations varies over time. An interference is detected between at least one third radiation associated with the first radiation and at least one fourth radiation associated with the second radiation. Alternatively, the first electro-magnetic radiation and/or second electro-magnetic radiation have a spectrum which changes over time. The spectrum may contain multiple frequencies at a particular time. In addition, it is possible to detect the interference signal between the third radiation and the fourth radiation in a first polarization state. Further, it may be preferable to detect a further interference signal between the third and fourth radiations in a second polarization state which is different from the first polarization state. The first and/or second electro-magnetic radiations may have a spectrum whose mean frequency changes substantially continuously over time at a tuning speed that is greater than 100 Tera Hertz per millisecond. | 12-08-2011 |
20120002686 | PROCESS AND APPARATUS FOR A WAVELENGTH TUNING SOURCE - An apparatus and source arrangement for filtering an electromagnetic radiation can be provided which may include at least one spectral separating arrangement configured to physically separate one or more components of the electromagnetic radiation based on a frequency of the electromagnetic radiation. The apparatus and source arrangement may also have at least one continuously rotating optical arrangement which is configured to receive at least one signal that is associated with the one or more components. Further, the apparatus and source arrangement can include at least one beam selecting arrangement configured to receive the signal. | 01-05-2012 |
20120035454 | METHOD AND APPARATUS FOR IMAGING OF VESSEL SEGMENTS - An apparatus, method and software arrangement for imaging a surface of a structure that is in contact with an opaque fluid is provided. The apparatus includes an article of manufacture (e.g., a housing), a fluid delivery arrangement and an imaging arrangement. The housing includes an aperture formed in the article of manufacture. The fluid delivery arrangement is configured to deliver a volume of substantially transparent fluid to the aperture formed in the housing. The imaging arrangement is configured to image the surface of the structure using an imaging modality after the volume of the transparent fluid is delivered to the aperture, wherein the imaging arrangement and/or the article of manufacture is translated along the surface of the structure while imaging the surface of the structure. | 02-09-2012 |
20120101374 | SYSTEMS, DEVICES, METHODS, APPARATUS AND COMPUTER-ACCESSIBLE MEDIA FOR PROVIDING OPTICAL IMAGING OF STRUCTURES AND COMPOSITIONS - Exemplary systems, devices, methods, apparatus and computer-accessible media for providing and/or utilizing optical frequency domain imaging (OFDI) and fluorescence of structures and, e.g., multimodality imaging using OFDI techniques and fluorescence imaging techniques are described. For example, an arrangement can provide at least one electro-magnetic radiation to an anatomical structure. Such exemplary arrangement can include at least one optical core and at least one cladding at least partially surrounding the fiber(s). A region between the optical core(s) and the cladding(s) can have an index that is different from indexes of the optical core(s) and the cladding(s). The arrangement can also include at least one apparatus which is configured to transmit the radiation(s) via the optical core(s) and the cladding(s) to the anatomical structure. | 04-26-2012 |
20120108956 | APPARATUS, SYSTEMS AND METHODS FOR MEASURING BLOOD PRESSURE WITHIN AT LEAST ONE VESSEL - Exemplary apparatus and method for obtaining information for at least one structure can be provided. For example, it is possible to forward at least one first electro-magnetic radiation to the at least one structure which is external from the apparatus. At least one second electro magnetic radiation provided from the at least one structure (which is based on the first electro-magnetic radiation(s)) can be detected. It is also possible to determine at least one characteristic of the structure(s) based on the second electro-magnetic radiation(s), and obtain data relating to a pressure of at least one portion of the structure(s) based on the characteristic(s). | 05-03-2012 |
20120281237 | SPECKLE REDUCTION IN OPTICAL COHERENCE TOMOGRAPHY BY PATH LENGTH ENCODED ANGULAR COMPOUNDING - Accordingly, exemplary embodiments of an apparatus probe catheter and method can be provided for irradiating a structure. In particular, an interferometer may forward forwarding an electromagnetic radiation. In addition, a sample arm may receive the electromagnetic radiation, and can include an arrangement which facilitates a production of at least two radiations from the electromagnetic radiation so as to irradiate the structure. Such exemplary arrangement can be configured to delay a first radiation of the at least two radiations with respect to a second radiation of the at least two radiations. | 11-08-2012 |
20120328241 | Apparatus for Obtaining Information For A Structure Using Spectrally-Encoded Endoscopy Techniques and Methods for Producing One or More Optical Arrangements - Exemplary apparatus for obtaining information for a structure can be provided. For example, the exemplary apparatus can include at least one first optical fiber arrangement which is configured to transceive at least one first electro-magnetic radiation, and can include at least one fiber. The exemplary apparatus can also include at least one second focusing arrangement in optical communication with the optical fiber arrangement. The second arrangement can include a ball lens, and be configured to focus and provide there through the first electro-magnetic radiation to generate focused electro-magnetic radiation. Further, the exemplary apparatus can include at least at least one dispersive third arrangement which can receive a particular radiation (e.g., the first and/or focused electro-magnetic radiation(s), and forward a dispersed radiation thereof to at least one section of the structure. An end of the fiber(s) can be directly connected to the second focusing arrangement and/or the third arrangement(s). | 12-27-2012 |
20130066215 | APPARATUS AND METHOD FOR OBTAINING AND PROVIDING IMAGING INFORMATION ASSOCIATED WITH AT LEAST ONE PORTION OF A SAMPLE, AND EFFECTING SUCH PORTION(S) - Exemplary apparatus and process can be provided for imaging information associated with at least one portion of a sample. For example, (i) first different wavelengths of at least one first electro-magnetic radiation can be provided within a first wavelength range provided on the portion of the sample so as to determine at least one first transverse location of the portion, and (ii) second different wavelengths of at least one second electro-magnetic radiation within a second wavelength range can be provided on the portion so as to determine at least one second transverse location of the portion. The first and second ranges can east partially overlap on the portion. Further, a relative phase between at least one third electro-magnetic radiation electro-magnetic radiation being returned from the sample and at least one fourth electro-magnetic radiation returned from a reference can be obtained to determine a relative depth location of the portion. | 03-14-2013 |
20130100455 | METHOD AND APPARATUS FOR OPTICAL IMAGING VIA SPECTRAL ENCODING - Exemplary method, apparatus and arrangement can be provided for obtaining information associated with a sample such as a portion of an anatomical structure. The information can be generated using first data, which can be based on a signal obtained from a location on the sample, and second data, where the second data can be obtained by combining a second signal received from the sample with a third reference signal. An image of a portion of the sample can also be generated based on the information. For example, the first data can be associated with spectral encoding microscopy data, and the second data can be associated with optical coherence tomography data. | 04-25-2013 |
20130116552 | IMPLANTABLE IMAGING ARRANGEMENT AND METHOD FOR USING THE SAME - According to an exemplary embodiment of the present disclosure, apparatus and method can be provided for obtaining information associated with at least one anatomical structure. The exemplary apparatus can include at least one first arrangement which can be configured to provide at least one electro-magnetic radiation to at least one portion of the at least one anatomical structure. The first arrangement(s) can include a configuration which is configured to relatively permanently attach the apparatus to or in the at least one anatomical structure. The exemplary apparatus can further include at least one interferometric arrangement configured to receive a further radiation from the portion(s) which can be associated with the electro-magnetic radiation(s). | 05-09-2013 |
20130128274 | METHOD AND APPARATUS FOR PERFORMING OPTICAL IMAGING USING FREQUENCY-DOMAIN INTERFEROMETRY - An apparatus and method are provided. In particular, at least one first electro-magnetic radiation may be provided to a sample and at least one second electro-magnetic radiation can be provided to a non-reflective reference. A frequency of the first and/or second radiations varies over time. An interference is detected between at least one third radiation associated with the first radiation and at least one fourth radiation associated with the second radiation. Alternatively, the first electro-magnetic radiation and/or second electro-magnetic radiation have a spectrum which changes over time. The spectrum may contain multiple frequencies at a particular time. In addition, it is possible to detect the interference signal between the third radiation and the fourth radiation in a first polarization state. Further, it may be preferable to detect a further interference signal between the third and fourth radiations in a second polarization state which is different from the first polarization state. The first and/or second electro-magnetic radiations may have a spectrum whose mean frequency changes substantially continuously over time at a tuning speed that is greater than 100 Tera Hertz per millisecond. | 05-23-2013 |
20130148106 | ARRANGEMENTS AND METHODS FOR PROVIDING MULTIMODALITY MICROSCOPIC IMAGING OF ONE OR MORE BIOLOGICAL STRUCTURES - Method and apparatus according to an exemplary embodiment of the present invention can be provided. For example, first data associated with a first signal received from at least one region of at least one sample can be provided based on a first modality, and second data associated with a second signal received from the at least one sample can be provided based on a second modality which is different from the first modality. Third data associated with a reference can be received. Further data can be generated based on the first, second and third data. In addition, third data associated with a second signal received from the at least one sample can be obtained. Each of the third data can be based on a further modality which is different from the first modality and the second modality, and the further data can be further determined based on the third data. Further, the first modality can be a spectral-encoded modality, and the second modality can be a non-spectral-encoding modality. | 06-13-2013 |
20130188850 | SYSTEMS, PROCESSES AND SOFTWARE ARRANGEMENTS FOR EVALUATING INFORMATION ASSOCIATED WITH AN ANATOMICAL STRUCTURE BY AN OPTICAL COHERENCE RANGING TECHNIQUE - Software systems, arrangements and processes for evaluating an image associated with at least one portion of an anatomical structure are provided. For example, first information associated with the at least one portion of the anatomical structure second information associated with the at least one portion of the anatomical structure can be received. Third information can be generated by determining a relationship between the first information and the second information. Further, the image can be evaluated using a predetermined pathological scoring criteria and the third information. | 07-25-2013 |
20130190565 | SYSTEM, METHOD AND APPARATUS FOR OPTICAL IMAGING OF LUMINAL ORGANS, AND FOR CENTERING WITHIN AND CONTACTING A LUMINAL ORGAN - Exemplary apparatus and method can be provided for obtaining data for at least one portion within at least one luminal or hollow sample. It is possible, e.g., using a first optical arrangement, to transceive at least one electromagnetic radiation to and from the portion(s). Further, it is possible, e.g., to actuate an expandable second basket arrangement so as to position the first arrangement at a predetermined location within the luminal or hollow sample(s). The second arrangement can have at least one prong or strip that has a flat shape on at least one side thereof. | 07-25-2013 |
20130215427 | IMAGING SYSTEM USING AND RELATED TECHNIQUES - A method and apparatus for imaging using a double-clad fiber is described. | 08-22-2013 |
20130310643 | APPARATUS, DEVICE AND METHOD FOR CAPSULE MICROSCOPY - An exemplary apparatus for obtaining data for at least one portion within at least one luminal or hollow sample can be provided. For example, the apparatus can include a first optical arrangement configured to transceive at least one electromagnetic radiation to and from the portion(s). The apparatus can also include a wavelength dispersive second arrangement, which can be configured to disperse the electromagnetic radiation(s). A housing can be provided with a shape of a pill, and enclosing the first and second arrangements. | 11-21-2013 |
20130314716 | SPECKLE REDUCTION IN OPTICAL COHERENCE TOMOGRAPHY BY PATH LENGTH ENCODED ANGULAR COMPOUNDING - Accordingly, exemplary embodiments of an apparatus obtaining information associated with a structure can be provided. For example, with a first arrangement, it is possible to separate at least one first electro-magnetic radiation into a first radiation and a second radiation forwarded to the structure, with the first and second radiations having different path lengths. Using a second arrangement, it is possible to receive third and fourth radiations from the structure associated with the first and second radiations and a fifth radiation received from a reference. Further, with a third arrangement, it is possible to generate data corresponding to an amount of a ranging depth within the structure associated with the second arrangement. For example, a difference between the path lengths of the first and second radiations is equal or greater than the ranging depth. | 11-28-2013 |
20130338510 | APPARATUS FOR APPLYING A PLURALITY OF ELECTRO-MAGNETIC RADIATIONS TO A SAMPLE - An apparatus for applying electro-magnetic radiations to a sample is provided. The apparatus can include an arrangement which has a specific portion with a plurality of channels. One channel(s) can facilitate a first radiation to be forwarded to the sample within an anatomical structure, and another channel(s) can facilitate a second radiation to be forwarded to the sample. The first radiation can have a first wavelength band, and the second radiation can have a second wavelength band, which can be substantially different from the first wavelength band. The first radiation can be delivered to a first area of the sample, and the second radiation can be delivered to a second area of the sample. Each of the channels can facilitate a particular radiation(s) to be forwarded to the sample that is within an anatomical structure of the sample, the radiations being delivered to different areas of the sample. | 12-19-2013 |
20140187970 | OPTICAL PROBE APPARATUS, SYSTEMS, METHODS FOR GUIDING TISSUE ASESSMENT - An exemplary system can be provided for obtaining information associated with at least one tissue. The exemplary system can include at least one waveguide first arrangement which can provide at least one first radiation to the tissue(s), and which can receive at least one optical second radiation from the at least one tissue. Further, at least one configuration can be provided that can transceive at least one electrical signal to and from at least one portion of the system. In addition, at least one computing second arrangement can be provided which may configured to obtain the information based on the second radiation and data corresponding to the electrical signal(s). The data can comprise a position of the portion(s). | 07-03-2014 |
20140204604 | IMAGING SYSTEM AND RELATED TECHNIQUES - A method and apparatus for imaging using a double-clad fiber is described. | 07-24-2014 |
20140301620 | METHODS AND SYSTEMS FOR OPTICAL IMAGING OR EPITHELIAL LUMINAL ORGANS BY BEAM SCANNING THEREOF - Arrangements, apparatus, systems and systems are provided for obtaining data for at least one portion within at least one luminal or hollow sample. The arrangement, system or apparatus can be (insertable via at least one of a mouth or a nose of a patient. For example, a first optical arrangement can be configured to transceive at least one electromagnetic (e.g., visible) radiation to and from the portion. A second arrangement may be provided at least partially enclosing the first arrangement. Further, a third arrangement can be configured to be actuated so as to position the first arrangement at a predetermined location within the luminal or hollow sample. The first arrangement may be configured to compensate for at least one aberration (e.g., astigmatism) caused by the second arrangement and/or the third arrangement. The second arrangement can include at least one portion which enables a guiding arrangement to be inserted there through. Another arrangement can be provided which is configured to measure a pressure within the at least one portion. The data may include a position and/or an orientation of the first arrangement with respect to the luminal or hollow sample. | 10-09-2014 |
20150029513 | SYSTEMS, METHODS AND COMPUTER-ACCESSIBLE MEDIUM WHICH PROVIDE MICROSCOPIC IMAGES OF AT LEAST ONE ANATOMICAL STRUCTURE AT A PARTICULAR RESOLUTION - Exemplary embodiments of systems and methods can be provided which can generate data associated with at least one portion of a sample. For example, at least one first radiation can be forwarded to the portion through at least one optical arrangement. At least one second radiation can be received from the portion which is based on the first radiation. Based on an interaction between the optical arrangement and the first radiation and/or the second radiation, the optical arrangement can have a first transfer function. Further, it is possible to forward at least one third radiation to the portion through such optical arrangement (or through another optical arrangement), and receive at least one fourth radiation from the portion which is based on the third radiation. Based on an interaction between the optical arrangement (or the other optical arrangement) and the third radiation and/or the fourth radiation, the optical arrangement (or the other optical arrangement) can have a second transfer function. The first transfer function can be at least partially different from the second transfer function. The data can be generated based on the second and fourth radiations. | 01-29-2015 |
20150045622 | SPECTRALLY-ENCODED ENDOSCOPY TECHNIQUES, APPARATUS AND METHODS - Exemplary apparatus for obtaining information for a structure can be provided. For example, the exemplary apparatus can include at least one first optical fiber arrangement which is configured to transceive at least one first electro-magnetic radiation, and can include at least one fiber. The exemplary apparatus can also include at least one second focusing arrangement in optical communication with the optical fiber arrangement. The second arrangement can be configured to focus and provide there through the first electro-magnetic radiation to generate the focused electro-magnetic radiation. Further, the exemplary apparatus can include at least at least one dispersive third arrangement which can receive a particular radiation (e.g., the first electro-magnetic radiation(s) and/or the focused electro-magnetic radiation), and forward a dispersed radiation thereof to at least one section of the structure. | 02-12-2015 |
20150077755 | METHOD AND APPARATUS FOR PERFORMING OPTICAL IMAGING USING FREQUENCY-DOMAIN INTERFEROMETRY - An apparatus and method are provided. In particular, at least one first electro-magnetic radiation may be provided to a sample and at least one second electro-magnetic radiation can be provided to a non-reflective reference. A frequency of the first and/or second radiations varies over time. An interference is detected between at least one third radiation associated with the first radiation and at least one fourth radiation associated with the second radiation. Alternatively, the first electro-magnetic radiation and/or second electro-magnetic radiation have a spectrum which changes over time. The spectrum may contain multiple frequencies at a particular time. In addition, it is possible to detect the interference signal between the third radiation and the fourth radiation in a first polarization state. Further, it may be preferable to detect a further interference signal between the third and fourth radiations in a second polarization state which is different from the first polarization state. The first and/or second electro-magnetic radiations may have a spectrum whose mean frequency changes substantially continuously over time at a tuning speed that is greater than 100 Tera Hertz per millisecond. | 03-19-2015 |
20150080738 | APPARATUS, METHOD, AND COMPUTER-ACCESSIBLE MEDIUM FOR DETERMINING ANTIGEN IMMUNOREACTIVITY IN TISSUE - Exemplary configurations can be provided which can be structured to be included and/or inserted in an internal anatomical structure. For example, the configuration(s) can have at least one first arrangement which can include at least one substance that, when applied to at least one section of the internal anatomical structure, has a potential to induce an inflammatory response in the section(s). The configuration(s) can also have at least one second (e.g., microscopy) arrangement which can be configured to receive information from the section(s), and determine whether the inflammatory response has occurred therein. | 03-19-2015 |