2024
Simulating Chemistry on Bosonic Quantum Devices
Dutta R, Cabral D, Lyu N, Vu N, Wang Y, Allen B, Dan X, Cortiñas R, Khazaei P, Schäfer M, Albornoz A, Smart S, Nie S, Devoret M, Mazziotti D, Narang P, Wang C, Whitfield J, Wilson A, Hendrickson H, Lidar D, Pérez-Bernal F, Santos L, Kais S, Geva E, Batista V. Simulating Chemistry on Bosonic Quantum Devices. Journal Of Chemical Theory And Computation 2024, 20: 6426-6441. PMID: 39068594, DOI: 10.1021/acs.jctc.4c00544.Peer-Reviewed Original ResearchQuantum devicesQuantum two-level systemTwo-level systemMolecular vibronic spectraCalculations of electronic structureQuantum simulationBoson operatorsSystem HamiltonianQuantum computationVibronic spectraElectronic structureChemical dynamicsSolution-phaseReview recent progressGas-phaseChemical structureChemical problemsRecent progressCalculationsSimulate chemistryBosonsHamiltonianOscillationsDynamicsDevicesNext-generation digital chest tomosynthesis
Gange C, Ku J, Gosangi B, Liu J, Maolinbay M. Next-generation digital chest tomosynthesis. Journal Of Clinical Imaging Science 2024, 14: 22. PMID: 38975057, PMCID: PMC11225395, DOI: 10.25259/jcis_4_2024.Peer-Reviewed Original ResearchRadiation doseLow dose chest CTLung phantomLung nodulesEffective radiation dosePlane resolutionLow radiation doseLow dose CTPhantomSimulated pulmonary nodulesChest CTChest radiologistsHealthy volunteersPulmonary nodulesDose CTAnatomical locationNodule detectionImaging characteristicsTomosynthesisNodulesLungDoseDetect lung nodulesDevicesPotential utilityA Shocking Discovery Electrostatic Discharge-Induced Pump Failure in an Implantable Left Ventricular Assist Device
Quien M, Paquette D, Montealegre-Gallegos M, Szabo C, Anwer M, Munoz-Acuna R. A Shocking Discovery Electrostatic Discharge-Induced Pump Failure in an Implantable Left Ventricular Assist Device. JACC Case Reports 2024, 29: 102392. PMID: 38912318, PMCID: PMC11190473, DOI: 10.1016/j.jaccas.2024.102392.Peer-Reviewed Original ResearchIntravascular Microaxial Left Ventricular Assist Device Manufacturer Payments to Cardiologists and Use of Devices
Dhruva S, Ross J, Steinman M, Gan S, Muluk S, Anderson T. Intravascular Microaxial Left Ventricular Assist Device Manufacturer Payments to Cardiologists and Use of Devices. JAMA 2024, 331: 1499-1501. PMID: 38598231, PMCID: PMC11007652, DOI: 10.1001/jama.2024.4682.Peer-Reviewed Original ResearchLow Dislocation Density Homoepitaxy Ultraviolet-A Micro-LEDs Scale Down to 3 μm
Liu Y, Wang G, Feng F, Li Z, Xu K, Kwok H, Liu Z. Low Dislocation Density Homoepitaxy Ultraviolet-A Micro-LEDs Scale Down to 3 μm. IEEE Electron Device Letters 2024, 45: 641-644. DOI: 10.1109/led.2024.3368513.Peer-Reviewed Original ResearchDislocation densityIn-plane compressive stressHigh dislocation densitySeries resistanceCompressive stressIdeality factorStable emission wavelengthEnhanced crystal qualityEfficiency droopOptoelectronic performanceDevice levelMaterial levelSize effectCrystal qualityHeteroepitaxial substratesUniform emissionLattice mismatchMicro-LEDsHigh stressEmission wavelengthMinimum valueDevicesCm-2DroopSubstrate
2023
Vertical GaN-on-GaN Trench Junction Barrier Schottky Diodes With a Slanted Sidewall
Liu X, Li B, Wu J, Li J, Yue W, Zhu R, Wang Q, Li X, Ben J, He W, Chiu H, Xu K, Zhong Z. Vertical GaN-on-GaN Trench Junction Barrier Schottky Diodes With a Slanted Sidewall. IEEE Journal Of The Electron Devices Society 2023, 12: 34-38. DOI: 10.1109/jeds.2023.3340512.Peer-Reviewed Original ResearchJunction Barrier SchottkyPower device figureState resistance RonHigh voltage applicationsFree-standing GaN substratesElectric field distributionSlanted sidewallsBreakdown voltage VBREdges of devicesVertical GaNJBS diodesVoltage applicationsDevice figureResistance RonHigh voltageGaN substrateField distributionSidewallsGW/cm2SchottkyGreat potentialDevicesVoltageRONDiodesA narrative commentary about interoperability in medical devices and data used in diabetes therapy from an academic EU/UK/US perspective
Jendle J, Adolfsson P, Choudhary P, Dovc K, Fleming A, Klonoff D, Mader J, Oliver N, Sherr J, Šoupal J, Heinemann L. A narrative commentary about interoperability in medical devices and data used in diabetes therapy from an academic EU/UK/US perspective. Diabetologia 2023, 67: 236-245. PMID: 38041737, PMCID: PMC10789828, DOI: 10.1007/s00125-023-06049-5.Peer-Reviewed Original ResearchLimitations of interoperabilityData-sharing protocolsData interoperabilitySecure integrationElectronic health recordsData ownershipInteroperabilitySeamless integrationTransparent handlingData handlingHealth recordsMedical devicesPractical challengesKey issuesTransparent frameworkPrivacyFrameworkDevicesCritical aspectsDifferent sourcesIntegrationProtocolNeeds of peopleLegal issuesIssuesValue Proposition of FDA-Approved Artificial Intelligence Algorithms for Neuroimaging
Bajaj S, Khunte M, Moily N, Payabvash S, Wintermark M, Gandhi D, Malhotra A. Value Proposition of FDA-Approved Artificial Intelligence Algorithms for Neuroimaging. Journal Of The American College Of Radiology 2023, 20: 1241-1249. PMID: 37574094, DOI: 10.1016/j.jacr.2023.06.034.Peer-Reviewed Original ResearchConceptsArtificial intelligence algorithmsAI algorithmsIntelligence algorithmsValue propositionUser timeAI developersMost vendorsProduct informationDevelopersAlgorithmVendorsProduct websitesDeveloper websitesWebsitesUser testimonialsCentral databaseTechnologyDatabaseInformationAIDevicesAdoptionPropositionCostPatient Safety in MRI with the Use of a Joint-Spanning External Fixator for Knee Dislocation
Marcel A, Green J, Alaia E, Alaia M, Katz L, Medvecky M. Patient Safety in MRI with the Use of a Joint-Spanning External Fixator for Knee Dislocation. JBJS Reviews 2023, 11: e23.00070. PMID: 37535762, DOI: 10.2106/jbjs.rvw.23.00070.Peer-Reviewed Original ResearchConceptsMagnetic resonance imagingKnee-spanning external fixatorExternal fixatorMR boreConstruct configurationsKnee dislocationMR ConditionalMRI scanningPatient benefitUS FoodDrug AdministrationClinical decisionResonance imagingMedical teamPatient safetySmall sample sizeFixatorPhysiciansSafety guidelinesManufacturer's labelSample sizeBorePrevious studiesPatientsDevicesDetection of left ventricular systolic dysfunction from single-lead electrocardiography adapted for portable and wearable devices
Khunte A, Sangha V, Oikonomou E, Dhingra L, Aminorroaya A, Mortazavi B, Coppi A, Brandt C, Krumholz H, Khera R. Detection of left ventricular systolic dysfunction from single-lead electrocardiography adapted for portable and wearable devices. Npj Digital Medicine 2023, 6: 124. PMID: 37433874, PMCID: PMC10336107, DOI: 10.1038/s41746-023-00869-w.Peer-Reviewed Original ResearchArtificial intelligenceRandom Gaussian noiseNoisy electrocardiogramGaussian noiseElectrocardiogram (ECGWearable devicesSingle-lead electrocardiogramPortable devicesSNRWearableNoiseDevice noiseRepositoryAI-based screeningIntelligenceDetectionDevicesNoise sourcesVentricular systolic dysfunctionModelElectrocardiogramSingle-lead electrocardiographyTraining
2022
An update on computational pathology tools for genitourinary pathology practice: A review paper from the Genitourinary Pathology Society (GUPS)
Parwani A, Patel A, Zhou M, Cheville J, Tizhoosh H, Humphrey P, Reuter V, True L. An update on computational pathology tools for genitourinary pathology practice: A review paper from the Genitourinary Pathology Society (GUPS). Journal Of Pathology Informatics 2022, 14: 100177. PMID: 36654741, PMCID: PMC9841212, DOI: 10.1016/j.jpi.2022.100177.Peer-Reviewed Original ResearchThe Need for Medical Artificial Intelligence That Incorporates Prior Images.
Acosta JN, Falcone GJ, Rajpurkar P. The Need for Medical Artificial Intelligence That Incorporates Prior Images. Radiology 2022, 304: 283-288. PMID: 35438563, DOI: 10.1148/radiol.212830.Peer-Reviewed Original ResearchConceptsArtificial intelligenceImage interpretation tasksCurrent AI algorithmsMedical artificial intelligenceBenchmark data setsFuture artificial intelligencePrioritization of tasksData setsAI algorithmsDynamic scenariosPrior imageInterpretation taskRelevant tasksSingle pointTaskIntelligenceSetArchitectureMachineAlgorithmCurationDevicesImagesScenariosInformationImproving acetabular shell deformation testing
Beitler BG, Crich A, Tommasini SM, Wiznia DH. Improving acetabular shell deformation testing. Journal Of The Mechanical Behavior Of Biomedical Materials 2022, 130: 105203. PMID: 35381517, PMCID: PMC9246253, DOI: 10.1016/j.jmbbm.2022.105203.Peer-Reviewed Original ResearchConceptsAcetabular shell deformationISO 7206Peak loadShell deformationOptical displacement measurementsTesting deviceMaterial testing deviceDeformation testingScrew fastenersDisplacement measurementsMinimal deformationDeformationExperimental setupStructural integrityAcetabular shellLoadDevicesISO standardsShellFastenersImplant failureOptical dataShell typeInstronMeasurementsPET respiratory motion correction: quo vadis?
Lamare F, Bousse A, Thielemans K, Liu C, Merlin T, Fayad H, Visvikis D. PET respiratory motion correction: quo vadis? Physics In Medicine And Biology 2022, 67: 03tr02. PMID: 34915465, DOI: 10.1088/1361-6560/ac43fc.Peer-Reviewed Original ResearchConceptsRespiratory motion correctionPET respiratory motion correctionMotion correctionGeneric motion modelImage reconstruction processRespiratory motion informationMotion estimationMotion informationTerms of synchronizationImage spaceSynchronization stepsReconstruction processMotion modelOverall approachPET/magnetic resonance imagingDevice systemRespiratory motionImaging devicesMRI deviceDevicesSynchronizationNumber of stepsComprehensive coverageDatasetGreat interest
2021
An induced annealing technique for SiPMs neutron radiation damage
Cordelli M, Diociaiuti E, Ferrari A, Miscetti S, Müller S, Pezzullo G, Sarra I. An induced annealing technique for SiPMs neutron radiation damage. Journal Of Instrumentation 2021, 16: t12012. DOI: 10.1088/1748-0221/16/12/t12012.Peer-Reviewed Original ResearchNeutron radiation damageSilicon Photo-MultipliersPhoto-MultipliersSource facilityDetector areaNeutron damageTotal fluenceSiPM arrayNeutron fluenceRadiation damageSiPMsFluencePixel sizeExperimental apparatusThermal dissipationAnnealing techniqueNeutronsDevicesHamamatsuCm2MM2 cellsAnnealingLeakageSensorsDissipationContinuous monitoring of deep-tissue haemodynamics with stretchable ultrasonic phased arrays
Wang C, Qi B, Lin M, Zhang Z, Makihata M, Liu B, Zhou S, Huang Y, Hu H, Gu Y, Chen Y, Lei Y, Lee T, Chien S, Jang K, Kistler E, Xu S. Continuous monitoring of deep-tissue haemodynamics with stretchable ultrasonic phased arrays. Nature Biomedical Engineering 2021, 5: 749-758. PMID: 34272524, DOI: 10.1038/s41551-021-00763-4.Peer-Reviewed Original ResearchConceptsUltrasonic phased arrayPhased arrayStretchable wearable devicesContinuous monitoring of physiological signalsMonitoring of physiological signalsDepth of signal penetrationIncident angleDoppler spectrumSignal penetrationWearable diagnosticsFlow waveformsArrayUltrasound beamWearable devicesBlood flow waveformsResolved signalsReal timeDevicesCerebral blood supplyContinuous monitoringHealthy volunteersCurrent concepts of spondylosis and posterior spinal motion preservation for radiologists
Porrino J, Rao A, Moran J, Wang A, Grauer J, Haims A, Kani K. Current concepts of spondylosis and posterior spinal motion preservation for radiologists. Skeletal Radiology 2021, 50: 2169-2184. PMID: 34131792, DOI: 10.1007/s00256-021-03840-6.Peer-Reviewed Original ResearchAn ex vivo physiologic and hyperplastic vessel culture model to study intra-arterial stent therapies
Wang J, Kural MH, Wu J, Leiby KL, Mishra V, Lysyy T, Li G, Luo J, Greaney A, Tellides G, Qyang Y, Huang N, Niklason LE. An ex vivo physiologic and hyperplastic vessel culture model to study intra-arterial stent therapies. Biomaterials 2021, 275: 120911. PMID: 34087584, PMCID: PMC9195126, DOI: 10.1016/j.biomaterials.2021.120911.Peer-Reviewed Original ResearchCosmos, Chaos and Order: Mapping as Knowing
Natarajan P. Cosmos, Chaos and Order: Mapping as Knowing. Leonardo 2021, 54: 107-114. DOI: 10.1162/leon_a_01989.Peer-Reviewed Original Research
2020
Doing nano-enabled water treatment right: sustainability considerations from design and research through development and implementation
Falinski M, Turley R, Kidd J, Lounsbury A, Lanzarini-Lopes M, Backhaus A, Rudel H, Lane M, Fausey C, Barrios A, Loyo-Rosales J, Perreault F, Walker W, Stadler L, Elimelech M, Gardea-Torresdey J, Westerhoff P, Zimmerman J. Doing nano-enabled water treatment right: sustainability considerations from design and research through development and implementation. Environmental Science Nano 2020, 7: 3255-3278. DOI: 10.1039/d0en00584c.Peer-Reviewed Original ResearchConventional water treatment systemsWater treatment systemsUnique physicochemical propertiesBroad electromagnetic spectrumFundamental nanoscienceTreatment systemWater treatmentIndustrial wastewater treatmentWater treatment technologiesWater treatment devicesConventional water treatmentPerformance enhancementWastewater treatmentElectromagnetic spectrumTreatment technologiesIndustrial wastewaterPhysicochemical propertiesTreatment devicesSustainability considerationsDevicesWorld lack accessNanoscienceTechnology developmentContaminants of concernNano
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