Novel algorithm of processing optical coherence tomography images for differentiation of biological tissue pathologies

Turchin, Ilya V.; Сергеева, Е. А.; Долин, Л. С.; Kamensky, Vladislav A.; Shakhova, Natalia M.; Richards‐Kortum, Rebecca

doi:10.1117/1.2137670

Cited by 78 publications

(72 citation statements)

References 22 publications

(28 reference statements)

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“…(3) at small depths. It is consistent with other group's report (Turchin et al, 2005), which expects for small depths:…”

Section: Characterization Of Fmi and Oct Signalsupporting

confidence: 83%

“…The specimens were then washed in PBS, before being mounted and imaged by OCT/FMI system. Those models can be used to find the scattering coefficient µ s of the scattering media (Schmitt et al, 1993;Faber et al, 2004;Levitz et al, 2004;Turchin et al, 2005). Most recent models (Levitz et al, 2004;Turchin et al, 2005a) consider factors from the multi-scattering and the Gaussian beam propagation.…”

Section: Animal Model Of Colon Cancermentioning

confidence: 99%

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Combining Optical Coherence Tomography with Fluorescence Imaging

Yuan¹,

Chen²

2010

Advances in Lasers and Electro Optics

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“…(3) at small depths. It is consistent with other group's report (Turchin et al, 2005), which expects for small depths:…”

Section: Characterization Of Fmi and Oct Signalsupporting

confidence: 83%

Section: Animal Model Of Colon Cancermentioning

confidence: 99%

Combining Optical Coherence Tomography with Fluorescence Imaging

Yuan¹,

Chen²

2010

Advances in Lasers and Electro Optics

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“…This complicates the interpretation of diagnostic OCT images and requires the development of algorithms for the numerical processing of OCT images to increase diagnostic accuracy of the technique. Such algorithms are usually based on the extraction of numerical parameters of the OCT images, such as individual optical properties of tissue layers [15], parameters of the histograms of entire OCT image [16] or preselected region of interest [17]. Extracted values can be sensitive to morphological alterations in cases when a clinician's visual perception is not able to distinguish changes.…”

Section: Discussionmentioning

confidence: 99%

“…Numerous studies have consistently proved that the pathological processes in biological tissues significantly change their optical properties, which can be sensed by OCT (see, for example, [15][16][17]). In this study it was possible to show that OCT could be used for diagnosis of inflammatory processes in ENT.…”

Section: Discussionmentioning

confidence: 99%

Optical coherence tomography in diagnosing inflammatory diseases of ENT

Meller

Shakhova

Rilkin

et al. 2014

Photonics &Amp; Lasers in Medicine

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Abstract:The object of the study was to demonstrate the abilities of optical coherence tomography (OCT) technique in diagnostics of inflammatory processes in ear, nose, and throat (ENT). When used in diagnostics of the nose and pharynx, OCT facilitates differential diagnostics of rhinitis enabling differentiation between the normal state, two stages of allergic rhinitis, vasomotor and atrophic rhinitis and diagnostics of pharyngitis. This paper also demonstrates the ability of OCT to monitor changes in pharynx induced by cryotherapy. In diagnostics of the tympanic cavity the ability of OCT to differentiate between different stages of chronic otitis and retraction of the tympanic membrane is demonstrated. Finally a correlation is discussed between morphologic alterations induced by inflammatory processes and changes in diagnostic OCT images.

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“…Knüttel et al expanded Tearney's focus tracking method to measure depth-resolved changes of the refractive index [131]. Based on the model by Thrane et al relating the OCT signal strength to scattering [132], Letvitz et al extracted the scattering coefficient and the effective anisotropy factor from OCT A-scans [133], and Turchin et al developed an algorithm to derive the scattering coefficients of multi-layer samples [134]. Both methods aimed for the characterization of different pathologic states in tissue samples.…”

Section: Measurement Of Bulk Optical Propertiesmentioning

confidence: 99%

Optical coherence tomography—current technology and applications in clinical and biomedical research

et al. 2011

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Optical coherence tomography (OCT) is a non-invasive imaging technique providing real-time twoand three-dimensional images of scattering samples with micrometer resolution. Mapping the local reflectivity, OCT visualizes the morphology of the sample. In addition, functional properties such as birefringence, motion or the distribution of certain substances can be detected with high spatial resolution. The main field of application is bio-medical imaging and diagnostics. In ophthalmology, OCT is accepted as a clinical standard for diagnosing and monitoring treatment of a number of retinal diseases, and OCT is becoming an important instrument for clinical cardiology. New applications are emerging in various medical fields, e. g. early-stage cancer detection, surgical guidance, and early diagnosis of musculoskeletal diseases. OCT has also proven its value as a tool for developmental biology. The number of companies involved in manufacturing OCT systems has increased substantially during the last years-especially due to its success in opthalmology-and this technology can be expected to continue to spread into various fields of application.

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Novel algorithm of processing optical coherence tomography images for differentiation of biological tissue pathologies

Cited by 78 publications

References 22 publications

Combining Optical Coherence Tomography with Fluorescence Imaging

Combining Optical Coherence Tomography with Fluorescence Imaging

Optical coherence tomography in diagnosing inflammatory diseases of ENT

Optical coherence tomography—current technology and applications in clinical and biomedical research

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