0000000000320772

AUTHOR

Ulla Ruotsalainen

0000-0001-7775-3412

showing 6 related works from this author

Compensation of missing wedge effects with sequential statistical reconstruction in electron tomography.

2014

Electron tomography (ET) of biological samples is used to study the organization and the structure of the whole cell and subcellular complexes in great detail. However, projections cannot be acquired over full tilt angle range with biological samples in electron microscopy. ET image reconstruction can be considered an ill-posed problem because of this missing information. This results in artifacts, seen as the loss of three-dimensional (3D) resolution in the reconstructed images. The goal of this study was to achieve isotropic resolution with a statistical reconstruction method, sequential maximum a posteriori expectation maximization (sMAP-EM), using no prior morphological knowledge about …

Electron Microscope TomographyComputer scienceImage Processinglcsh:MedicineBioinformaticsDiagnostic Radiologylaw.inventionComputer-AssistedMathematical and Statistical TechniqueslawImage Processing Computer-AssistedMedicine and Health SciencesElectron Microscopylcsh:ScienceTomographyMicroscopyMultidisciplinaryMaximum Likelihood EstimationPhysical SciencesBiomedical ImagingTomographyCellular Structures and OrganellesArtifactsAlgorithmAlgorithmsStatistics (Mathematics)Research ArticleGeneral Science & TechnologyImaging TechniquesBioengineeringImage processingIterative reconstructionResearch and Analysis MethodsImaging phantomElectron Beam TomographyDiagnostic MedicineExpectation–maximization algorithmMaximum a posteriori estimationStatistical Methodsta217lcsh:Rta1182Biology and Life SciencesComputational BiologyCell BiologyElectron tomographyTransmission Electron Microscopylcsh:QGeneric health relevanceElectron microscopeMathematicsElectron Microscope TomographyPLoS ONE
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Performance of the AX-PET Demonstrator

2011

The goal of the AX-PET project is to build and test a demonstrator for a high resolution, high sensitivity PET scanner, based on a novel geometrical concept of long axially oriented crystals. The demonstrator comprises two PET modules used in coincidence. The two modules have been constructed and characterized (both individually and in coincidence) in dedicated test setups, with point-like sources. Good performance in terms of energy, spatial and timing resolution have been demonstrated. First measurements with extended phantoms filled with FDG-radiotracers have been recently performed.

Nuclear and High Energy PhysicsEngineeringbusiness.industryPet scannerResolution (electron density)Sensitivity (control systems)businessAtomic and Molecular Physics and OpticsEnergy (signal processing)CoincidenceSimulation
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AX-PET: Concept, proof of principle and first results with phantoms

2010

AX-PET is a novel PET concept based on long crystals axially arranged and orthogonal Wavelength shifter (WLS) strips, both individually readout by Geiger-mode Avalanche Photo Diodes (G-APD). Its design was conceived in order to reduce the parallax error and simultaneously improve spatial resolution and sensitivity. The assessment of the AX-PET concept and potential was carried out through a set of measurements comprising individual module characterizations and scans in coincidence mode of point-like and extended sources. The estimated energy and spatial resolutions from point-like measurements are R FWHM =11.6% (at 511 keV) and 1.7–1.9 mm (FWHM) respectively as measured with point-like sour…

Coincidence modePhysicsbusiness.industryExtended sourcesSTRIPSIterative reconstructionConcept-basedWavelength shifterAvalanche photodiodeCoincidencelaw.inventionOpticslawCoincidence mode; Concept-based; Extended sourcesbusinessParallaxImage resolutionDiodeIEEE Nuclear Science Symposuim & Medical Imaging Conference
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The AX-PET Concept: New Developments And Tomographic Imaging

2011

The Axial PET (AX-PET) concept proposes a novel detection geometry for PET, based on layers of long scintillating crystals axially aligned with the bore axis. Arrays of wavelength shifting (WLS) strips are placed orthogonally and underneath the crystal layers; both crystals and strips are individually readout by G-APDs. The axial coordinate is obtained from the WLS signals by means of a Center-of-Gravity method combined with a cluster algorithm. This design allows spatial resolution and sensitivity to be decoupled and thus simultaneously optimized. In this work we present the latest results obtained with the 2-module AX-PET scanner prototype, which consists of 6 radial layers of 8 LYSO crys…

PhysicsScannerTomographic reconstructionbusiness.industrySTRIPSIterative reconstructionImaging phantomLyso-law.inventionOpticsData acquisitionlawcount ratebusinessImage resolution
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A Monte-Carlo based model of the AX-PET demonstrator and its experimental validation

2013

AX-PET is a novel PET detector based on axially oriented crystals and orthogonal wavelength shifter (WLS) strips, both individually read out by silicon photo-multipliers. Its design decouples sensitivity and spatial resolution, by reducing the parallax error due to the layered arrangement of the crystals. Additionally the granularity of AX-PET enhances the capability to track photons within the detector yielding a large fraction of inter-crystal scatter events. These events, if properly processed, can be included in the reconstruction stage further increasing the sensitivity. Its unique features require dedicated Monte-Carlo simulations, enabling the development of the device, interpreting …

PhotonRadiological and Ultrasound TechnologyPhysics::Instrumentation and Detectors010308 nuclear & particles physicsComputer scienceDetectorMonte Carlo methodWavelength shifter01 natural sciences030218 nuclear medicine & medical imagingComputational science03 medical and health sciences0302 clinical medicinePositron-Emission Tomography0103 physical sciencesRadiology Nuclear Medicine and imagingSensitivity (control systems)ParallaxMonte Carlo MethodImage resolutionSimulationPhysics in Medicine and Biology
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Long axial crystals for PET applications: The AX-PET demonstrator and beyond

2013

The usage of long, axially oriented scintillator crystals in a PET scanner has been shown by the AX-PET Demonstrator as a possible solution for a high resolution and high sensitivity PET detector. In the AX-PET implementation, arrays of wavelength shifting (WLS) strips, placed orthogonally behind every crystal layer, are used to define the axial coordinate. After extensive characterization measurements, the AX-PET Demonstrator has been successfully used for the reconstruction of several phantoms and a few rodents. Possible extensions of the AX-PET concept towards Time Of Flight capabilities have been investigated, using Philips digital SiPMs as alternative photodetector. Promising CRT value…

Materials sciencebusiness.industryDetectorPhotodetectorSTRIPSIterative reconstructionScintillatorlaw.inventionTime of flightOpticslawbusinessAxial symmetryImage resolution2013 IEEE Nuclear Science Symposium and Medical Imaging Conference (2013 NSS/MIC)
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