Search results for " deconvolution"

showing 10 items of 15 documents

Two simple criteria to estimate an objective's performance when imaging in non design tissue clearing solutions

2019

Tissue clearing techniques are undergoing a renaissance motivated by the need to image fluorescent neurons, and other cells, deep in the sample without physical sectioning. Optical transparency is achieved by equilibrating tissues with high refractive index (RI) solutions. When the microscope objective is not perfectly matched to the RI of the cleared sample, aberrations are introduced. We present two simple-to-calculate numerical criteria predicting: (i) the degradation in image quality (brightness and resolution) from optimal conditions of any clearing solution/objective combination; (ii) which objective, among several available, achieves the highest resolution in a given medium. We deriv…

0301 basic medicineBrightnessMicroscopeDeconvolution; Fluorescence; Microscopy; Neuron; Serial optical sectioning; Spherical aberration; Tissue clearingComputer scienceImage qualitySample (material)DeconvolutionFluorescencelaw.invention03 medical and health sciences0302 clinical medicineSimple (abstract algebra)lawSerial optical sectioningMicroscopyFluorescence microscopeMicroscopistSpherical aberrationColoring AgentsSettore MAT/07 - Fisica MatematicaNeuronsMicroscopyTissue clearingGeneral NeuroscienceMicroscopy Tissue clearing Fluorescence Neuron Spherical aberration Serial optical sectioning DeconvolutionNeuronFluorescenceRefractometrySpherical aberration030104 developmental biologyMicroscopy FluorescenceDeconvolutionAlgorithm030217 neurology & neurosurgeryTissue clearing
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Dissection of DLBCL microenvironment provides a gene expression-based predictor of survival applicable to formalin-fixed paraffin-embedded tissue

2018

Abstract Background Gene expression profiling (GEP) studies recognized a prognostic role for tumor microenvironment (TME) in diffuse large B-cell lymphoma (DLBCL), but the routinely adoption of prognostic stromal signatures remains limited. Patients and methods Here, we applied the computational method CIBERSORT to generate a 1028-gene matrix incorporating signatures of 17 immune and stromal cytotypes. Then, we carried out a deconvolution on publicly available GEP data of 482 untreated DLBCLs to reveal associations between clinical outcomes and proportions of putative tumor-infiltrating cell types. Forty-five genes related to peculiar prognostic cytotypes were selected and their expression …

0301 basic medicineOncologyMalePathologyHematologic MalignanciesBiopsyDatasets as TopicPredictive Value of TestDeconvolutionCohort StudiesTranscriptomeAntibodies Monoclonal Murine-Derived0302 clinical medicineprognosticatorsimmune system diseaseshemic and lymphatic diseasesTumor MicroenvironmentCluster Analysisdigital expression analysisRandomized Controlled Trials as TopicParaffin EmbeddingHematology; OncologyHematologyMiddle AgedPrognosisCorrigendaProgression-Free SurvivalAlgorithmOncology030220 oncology & carcinogenesisCell-of-originFemaleLymphoma Large B-Cell DiffuseSurvival AnalysiAlgorithmsHumanAdultmedicine.medical_specialtyStromal cellMicroenvironmentFormalin fixed paraffin embeddedPrognosiReproducibility of ResultDissection (medical)03 medical and health sciencesDigital expression analysiYoung AdultPrognosticatorPredictive Value of TestsFormaldehydeInternal medicinemedicineHumansProgression-free survivalGeneSurvival analysisAgedTumor microenvironmentCluster AnalysiProportional hazards modelbusiness.industryGene Expression ProfilingReproducibility of ResultsComputational BiologyOriginal Articlesmedicine.diseaseSurvival AnalysisGene expression profiling030104 developmental biologyDLBCLCohort StudieTranscriptomebusinessDiffuse large B-cell lymphomaDLBCL microenvironment deconvolution cell-of-origin digital expression analysis prognosticators
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Assessing the Contribution of Relative Macrophage Frequencies to Subcutaneous Adipose Tissue

2021

Background: Macrophages play an important role in regulating adipose tissue function, while their frequencies in adipose tissue vary between individuals. Adipose tissue infiltration by high frequencies of macrophages has been linked to changes in adipokine levels and low-grade inflammation, frequently associated with the progression of obesity. The objective of this project was to assess the contribution of relative macrophage frequencies to the overall subcutaneous adipose tissue gene expression using publicly available datasets.Methods: Seven publicly available microarray gene expression datasets from human subcutaneous adipose tissue biopsies (n = 519) were used together with TissueDecod…

0301 basic medicinemedicine.medical_specialtyDOWN-REGULATIONsubcutaneous adipose tissueEndocrinology Diabetes and MetabolismAdipose tissueAdipokine030209 endocrinology & metabolismInflammationBiologycell-type composition03 medical and health scienceschemistry.chemical_compound0302 clinical medicineDownregulation and upregulationINFLAMMATIONInternal medicineGene expressionlipid metabolismmedicinelow-grade inflammationpublicly available dataMacrophagecomputational deconvolutionTX341-641OXIDATIVE STRESSPHOSPHORYLATIONFatty acid synthesisGENE-EXPRESSIONNutritionOriginal ResearchINSULIN-RESISTANCENutrition and DieteticsNutrition. Foods and food supplyWOMENLipid metabolismmacrophages030104 developmental biologyEndocrinologychemistryOBESITYmedicine.symptomSTEM-CELLSFood ScienceACID-METABOLISMFrontiers in Nutrition
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Deconvolution procedure of the UV-vis spectra. A powerful tool for the estimation of the binding of a model drug to specific solubilisation loci of b…

2015

UV-vis-spectra evolution of Nile Red loaded into Tween 20 micelles with pH and [Tween 20] have been analysed in a non-conventional manner by exploiting the deconvolution method. The number of buried sub-bands has been found to depend on both pH and bio-surfactant concentration, whose positions have been associated to Nile Red confined in aqueous solution and in the three micellar solubilisation sites. For the first time, by using an extended classical two-pseudo-phases-model, the robust treatment of the spectrophotometric data allows the estimation of Nile Red binding constant to the available loci. Hosting capability towards Nile Red is exalted by the pH enhancement. Comparison between bin…

Atomic and Molecular Physics and OpticOxazineAnalytical chemistrySpecific solubilisation lociTween 20PolysorbatesDeconvolutionNile RedMicelleSpectral lineUV-vis spectraAnalytical ChemistrySurface-Active Agentchemistry.chemical_compoundSurface-Active AgentsUltraviolet visible spectroscopycmc; Deconvolution; Nile Red; Specific solubilisation loci; Tween 20; UV-vis spectra; Binding Sites; Oxazines; Polysorbates; Solubility; Spectrophotometry Ultraviolet; Surface-Active Agents; Micelles; Instrumentation; Atomic and Molecular Physics and Optics; Analytical Chemistry; Spectroscopy; Medicine (all)Pulmonary surfactantOxazinesInstrumentationSpectroscopyMicellesAqueous solutionBinding SitesChemistryMedicine (all)Nile redBinding SiteBinding constantAtomic and Molecular Physics and OpticsPolysorbateSolubilitycmcSpectrophotometry UltravioletDeconvolutionMicelle
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Blind deconvolution using TV regularization and Bregman iteration

2005

In this paper we formulate a new time dependent model for blind deconvolution based on a constrained variational model that uses the sum of the total variation norms of the signal and the kernel as a regularizing functional. We incorporate mass conservation and the nonnegativity of the kernel and the signal as additional constraints. We apply the idea of Bregman iterative regularization, first used for image restoration by Osher and colleagues [S.J. Osher, M. Burger, D. Goldfarb, J.J. Xu, and W. Yin, An iterated regularization method for total variation based on image restoration, UCLA CAM Report, 04-13, (2004)]. to recover finer scales. We also present an analytical study of the model disc…

Blind deconvolutionDeblurringMathematical optimizationBregman divergenceTotal variation denoisingRegularization (mathematics)Electronic Optical and Magnetic MaterialsKernel (image processing)Iterated functionApplied mathematicsComputer Vision and Pattern RecognitionElectrical and Electronic EngineeringSoftwareImage restorationMathematicsInternational Journal of Imaging Systems and Technology
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Free-depths reconstruction with synthetic impulse response in integral imaging

2015

Integral Imaging provides spatial and angular information of three-dimensional (3D) objects, which can be used both for 3D display and for computational post-processing purposes. In order to recover the depth information from an integral image, several algorithms have been developed. In this paper, we propose a new free depth synthesis and reconstruction method based on the two-dimensional (2D) deconvolution between the integral image and a simplified version of the periodic impulse response function (IRF) of the system. The period of the IRF depends directly on the axial position within the object space. Then, we can retrieve the depth information by performing the deconvolution with compu…

Blind deconvolutionIntegral imagingComputer scienceImage qualitybusiness.industryFast Fourier transformImage processingImpulse (physics)Atomic and Molecular Physics and OpticsOpticsDigital image processingDeconvolutionbusinessImpulse responseOptics Express
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Free segmentation in rendered 3D images through synthetic impulse response in integral imaging

2016

Integral Imaging is a technique that has the capability of providing not only the spatial, but also the angular information of three-dimensional (3D) scenes. Some important applications are the 3D display and digital post-processing as for example, depth-reconstruction from integral images. In this contribution we propose a new reconstruction method that takes into account the integral image and a simplified version of the impulse response function (IRF) of the integral imaging (InI) system to perform a two-dimensional (2D) deconvolution. The IRF of an InI system has a periodic structure that depends directly on the axial position of the object. Considering different periods of the IRFs we …

Blind deconvolutionIntegral imagingbusiness.industrySegmentationComputer visionDeconvolutionArtificial intelligenceImpulse (physics)Stereo displaybusinessReconstruction methodImpulse responseMathematicsSPIE Proceedings
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A time evolution model for total-variation based blind deconvolution

2007

Departamento Matematica Aplicada, Universidad de Valencia, Burjassot 46100, Spain.We propose a time evolution model for total-variation based blind deconvolution consisting of two evolution equations evolv-ing the signal by means of a nonlinear scale space method and the kernel by using a diffusion equation starting from the zerosignal and a delta function respectively. A preliminary numerical test consisting of blind deconvolution of a noiseless blurredimage is presented.

Blind deconvolutionMathematical optimizationNonlinear systemsymbols.namesakeDiffusion equationKernel (image processing)symbolsTime evolutionApplied mathematicsDirac delta functionNumerical testsMathematicsScale spacePAMM
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Automatic program for peak detection and deconvolution of multi-overlapped chromatographic signals

2005

Several interlinked algorithms for peak deconvolution by non-linear regression are presented. These procedures, together with the peak detection methods outlined in Part I, have allowed the implementation of an automatic method able to process multi-overlapped signals, requiring little user interaction. A criterion based on the evaluation of the multivariate selectivity of the chromatographic signal is used to auto-select the most efficient deconvolution procedure for each chromatographic situation. In this way, non-optimal local solutions are avoided in cases of high overlap, and short computation times are obtained in situations of high resolution. A new algorithm, fitting both the origin…

Blind deconvolutionPolynomialPropagation of uncertaintyChromatographySeries (mathematics)business.industryNoise (signal processing)ChemistryGaussianOrganic ChemistryGeneral MedicineAutomationBiochemistryPeak detectionAnalytical Chemistrysymbols.namesakeLocal optimumApproximation errorsymbolsDeconvolutionbusinessAlgorithmSmoothingSecond derivativeJournal of Chromatography A
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Sparse Deconvolution Using Support Vector Machines

2008

Sparse deconvolution is a classical subject in digital signal processing, having many practical applications. Support vector machine (SVM) algorithms show a series of characteristics, such as sparse solutions and implicit regularization, which make them attractive for solving sparse deconvolution problems. Here, a sparse deconvolution algorithm based on the SVM framework for signal processing is presented and analyzed, including comparative evaluations of its performance from the points of view of estimation and detection capabilities, and of robustness with respect to non-Gaussian additive noise. Publicado

Blind deconvolutionSignal processingTelecomunicacionesSparse deconvolutionSupport vector machinesDual modelsbusiness.industryComputer sciencelcsh:ElectronicsComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONlcsh:TK7800-8360Pattern recognitionSparse approximationRegularization (mathematics)lcsh:TelecommunicationSupport vector machineRobustness (computer science)lcsh:TK5101-6720Sysmology3325 Tecnología de las TelecomunicacionesArtificial intelligenceDeconvolutionbusinessDigital signal processing
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