Search results for "Acquisition time"

showing 5 items of 5 documents

Repeatability of patellar cartilage thickness patterns in the living, using a fat-suppressed magnetic resonance imaging sequence with short acquisiti…

1998

A fast, reproducible, and noninvasive method is required for quantifying cartilage thickness clinically and for studying the deformation of articular cartilage during and after mechanical loading in vivo. The objective of the current investigation was to test the repeatability of regional distribution patterns of patellar cartilage thickness in the living on the basis of a fat-suppressed magnetic resonance imaging sequence with a short acquisition time and three-dimensional digital data processing. The knees of eight healthy volunteers were transversally imaged with a fat-suppressed FLASH-3D (fast low angle shot) sequence (acquisition time: 4 minutes and 10 seconds). In each case, the joint…

AdultCartilage ArticularMalePatellar cartilageMaterials sciencemedicine.diagnostic_testCoefficient of variationCartilageReproducibility of ResultsMagnetic resonance imagingPatellaRepeatabilityImage EnhancementMagnetic Resonance ImagingNuclear magnetic resonancemedicine.anatomical_structureHealthy volunteersImage Processing Computer-AssistedmedicineHumansFemaleOrthopedics and Sports MedicineAcquisition timeDigital data processingBiomedical engineeringJournal of Orthopaedic Research
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On the Use of the Eddy Covariance Latent Heat Flux and Sap Flow Transpiration for the Validation of a Surface Energy Balance Model

2018

Actual evapotranspiration is assessed via surface energy balance at an hourly rate. However, a robust estimation of daily evapotranspiration from hourly values is required. Outcomes of surface energy balance are frequently determined via measures of eddy covariance latent heat flux. Surface energy balance can be applied on images acquired at different times and spatial resolutions. In addition, hourly actual evapotranspiration needs to be integrated at a daily rate for operational uses. Questions arise whether the validation of surface energy balance models can benefit from complementary in situ measures of latent heat flux and sap flow transpiration. Here, validation was driven by image ac…

CanopyAcquisition time; Flux tower; Heat dissipation technique; Spatial resolution; Time lag; Earth and Planetary Sciences (all)010504 meteorology & atmospheric sciencesScienceAcquisition time; Flux tower; Heat dissipation technique; Spatial resolution; Time lag; Earth and Planetary Sciences0208 environmental biotechnologyEnergy balanceEddy covariance02 engineering and technologyAtmospheric sciences01 natural sciencestime lagFlux (metallurgy)Latent heatEvapotranspirationSettore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestaliflux tower; heat dissipation technique; time lag; spatial resolution; acquisition timeacquisition timeImage resolutionspatial resolution0105 earth and related environmental sciencesTranspirationSettore ICAR/02 - Costruzioni Idrauliche E Marittime E IdrologiaQ020801 environmental engineeringEarth and Planetary Sciencesheat dissipation techniqueGeneral Earth and Planetary SciencesEnvironmental scienceEarth and Planetary Sciences (all)Settore ICAR/06 - Topografia E Cartografiaflux towerRemote Sensing
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An advanced system for the simulation and planning of orthodontic treatment

2000

This paper presents a new system for three-dimensional (3-D) orthodontic treatment planning and movement of teeth. We describe a computer vision technique for the acquisition and processing of 3-D images of the profile of hydrocolloid dental imprints. Profile measurement is based on the triangulation method which detects deformation of the projection of a laser line on the dental imprints. The system is computer-controlled and designed to achieve depth and lateral resolutions of 0.1 and 0.2 mm, respectively, within a depth range of 40 mm. The 3-D image of the imprint is segmented in order to identify different teeth. Two operators are presented: one for the detection of molars and premolars…

Computer scienceComputer measurementOrthodonticsHealth InformaticsModels BiologicalPatient Care Planningstomatognathic systemHumansComputer SimulationRadiology Nuclear Medicine and imagingDiagnosis Computer-AssistedLaser lineProjection (set theory)Dental alveolusOrthodonticsMeasurement methodRadiological and Ultrasound TechnologyReproducibility of ResultsDental ModelsTriangulation (computer vision)Computer Graphics and Computer-Aided DesignModels DentalBiomechanical Phenomenastomatognathic diseasesTherapy Computer-AssistedAcquisition timeComputer Vision and Pattern RecognitionMedical Image Analysis
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Deep learning-accelerated T2-weighted imaging of the prostate: Reduction of acquisition time and improvement of image quality.

2021

Abstract Purpose To introduce a novel deep learning (DL) T2-weighted TSE imaging (T2DL) sequence in prostate MRI and investigate its impact on examination time, image quality, diagnostic confidence, and PI-RADS classification compared to standard T2-weighted TSE imaging (T2S). Method Thirty patients who underwent multiparametric MRI (mpMRI) of the prostate due to suspicion of prostatic cancer were included in this retrospective study. Standard sequences were acquired consisting of T1- and T2-weighted imaging and diffusion-weighted imaging as well as the novel T2DL. Axial acquisition time of T2S was 4:37 min compared to 1:38 min of T2DL. Two radiologists independently evaluated all imaging d…

Malemedicine.medical_specialtyImage qualityLesionDeep LearningProstateMedicineHumansRadiology Nuclear Medicine and imagingAgedRetrospective Studiesmedicine.diagnostic_testbusiness.industryDeep learningProstatic NeoplasmsMagnetic resonance imagingRetrospective cohort studyGeneral MedicineMiddle AgedMagnetic Resonance Imagingmedicine.anatomical_structureAcquisition timeArtificial intelligenceRadiologymedicine.symptombusinessT2 weightedEuropean journal of radiology
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In-vitro-Untersuchung von biologischen und technischen Herzklappenprothesen im MRT: Beurteilung möglicher Anziehung und Erhitzung der Implantate

2000

PURPOSE In vitro evaluation of possible deflection and heating of present-day prosthetic heart valves during MR imaging at 1.5 T. METHODS 17 prosthetic heart valves, 12 technical and 5 biological, were investigated using a 1.5 Tesla Siemens Vision system. Deflection was measured at the edge of a 1.5 Tesla superconducting magnet. Each valve was then submerged in a vial of a 1/1 electrolyte solution and temperature was measured before and after imaging with a turbo-spin-echo sequence (TR 5200 ms, TE 138 ms, Flip angle 180 degrees, acquisition time 10.5 minutes, length of echo train 29). MR imaging was performed with phase encoding parallel and perpendicular to the plane of the valves. RESULTS…

medicine.medical_specialtyMaterials sciencemedicine.diagnostic_testmedicine.medical_treatmentMagnetic resonance imagingBiological effectMr imagingProsthesisSurgerymedicine.anatomical_structureFlip anglemedicineRadiology Nuclear Medicine and imagingAcquisition timeHeart valveBiomedical engineeringProsthetic heartRöFo - Fortschritte auf dem Gebiet der Röntgenstrahlen und der bildgebenden Verfahren
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