| human | Q5 |
| P496 | ORCID iD | 0000-0002-5757-6911 |
| P108 | employer | University of North Carolina at Chapel Hill | Q192334 |
| P734 | family name | Dayton | Q30584230 |
| Dayton | Q30584230 | ||
| Dayton | Q30584230 | ||
| P735 | given name | Paul | Q4925623 |
| Paul | Q4925623 | ||
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | male | Q6581097 |
| Q30468214 | 3-D microvessel-mimicking ultrasound phantoms produced with a scanning motion system |
| Q38477758 | A method for radiation-force localized drug delivery using gas-filled lipospheres |
| Q30491503 | A stimulus-responsive contrast agent for ultrasound molecular imaging |
| Q53430824 | Acoustic characterization of contrast-to-tissue ratio and axial resolution for dual-frequency contrast-specific acoustic angiography imaging. |
| Q30500915 | Acoustic response from adherent targeted contrast agents |
| Q47635943 | Acoustic signatures of submicron contrast agents. |
| Q30490507 | Acoustically-active microbubbles conjugated to liposomes: characterization of a proposed drug delivery vehicle |
| Q57440134 | Advances in Molecular Imaging with Ultrasound |
| Q30475340 | Advances in molecular imaging with ultrasound |
| Q98194690 | An Improved CMUT Structure Enabling Release and Collapse of the Plate in the Same Tx/Rx Cycle for Dual-Frequency Acoustic Angiography |
| Q30458183 | An in vivo evaluation of the effect of repeated administration and clearance of targeted contrast agents on molecular imaging signal enhancement |
| Q30478534 | Angiogenic response to bioactive glass promotes bone healing in an irradiated calvarial defect |
| Q30501162 | Application of ultrasound to selectively localize nanodroplets for targeted imaging and therapy |
| Q57434440 | Assessment of Molecular Imaging of Angiogenesis with Three-Dimensional Ultrasonography |
| Q30454657 | Assessment of molecular imaging of angiogenesis with three-dimensional ultrasonography |
| Q30499825 | Asymmetric oscillation of adherent targeted ultrasound contrast agents |
| Q96617037 | Conventional dose rate spatially-fractionated radiation therapy (SFRT) treatment response and its association with dosimetric parameters-A preclinical study in a Fischer 344 rat model |
| Q44462240 | Direct observations of ultrasound microbubble contrast agent interaction with the microvessel wall |
| Q47135426 | Early Assessment of Tumor Response to Radiation Therapy using High-Resolution Quantitative Microvascular Ultrasound Imaging |
| Q91115915 | Effect of Hydrostatic Pressure, Boundary Constraints and Viscosity on the Vaporization Threshold of Low-Boiling-Point Phase-Change Contrast Agents |
| Q30467900 | Effect of anesthesia carrier gas on in vivo circulation times of ultrasound microbubble contrast agents in rats |
| Q44460746 | Effect of coupled oscillations on microbubble behavior |
| Q57133029 | Erratum: Early Assessment of Tumor Response to Radiation Therapy using High-Resolution Quantitative Microvascular Ultrasound Imaging: Erratum |
| Q62609554 | Erratum: “3aBB4. Ultrasound contrast agents retain acoustic activity post phagocytosis by leukocytes” [J. Acoust. Soc. Am. 106, 2192(A) (1999)] |
| Q30446931 | High-frequency dynamics of ultrasound contrast agents |
| Q44927479 | Imaging of angiogenesis using Cadence contrast pulse sequencing and targeted contrast agents |
| Q57440665 | Improving Sensitivity in Ultrasound Molecular Imaging by Tailoring Contrast Agent Size Distribution: In Vivo Studies |
| Q30476105 | Improving sensitivity in ultrasound molecular imaging by tailoring contrast agent size distribution: in vivo studies |
| Q92730896 | In Vitro Superharmonic Contrast Imaging Using a Hybrid Dual-Frequency Probe |
| Q47237048 | In Vivo Assessment of the Potential for Renal Bio-Effects from the Vaporization of Perfluorocarbon Phase-Change Contrast Agents |
| Q57477458 | In Vivo Molecular Imaging Using Low-Boiling-Point Phase-Change Contrast Agents: A Proof of Concept Study |
| Q30407437 | In vivo demonstration of cancer molecular imaging with ultrasound radiation force and buried-ligand microbubbles |
| Q30446982 | Influence of lipid shell physicochemical properties on ultrasound-induced microbubble destruction |
| Q44867216 | Intracellular delivery and ultrasonic activation of folate receptor-targeted phase-change contrast agents in breast cancer cells in vitro. |
| Q45953267 | Lateral phase separation in lipid-coated microbubbles. |
| Q35914697 | Long-term stability by lipid coating monodisperse microbubbles formed by a flow-focusing device |
| Q36914927 | Maintaining monodispersity in a microbubble population formed by flow-focusing |
| Q47105144 | Methods of Generating Submicrometer Phase-Shift Perfluorocarbon Droplets for Applications in Medical Ultrasonography |
| Q62609499 | Microbubble oscillation in tubes with diameters of 12, 25, and 195 microns |
| Q30487035 | Microbubble tunneling in gel phantoms |
| Q30470588 | Microbubbles in Imaging: Applications Beyond Ultrasound |
| Q89848650 | Microvascular Ultrasonic Imaging of Angiogenesis Identifies Tumors in a Murine Spontaneous Breast Cancer Model |
| Q30483694 | Modeling of the acoustic response from contrast agent microbubbles near a rigid wall |
| Q30479830 | Motion corrected cadence CPS ultrasound for quantifying response to vasoactive drugs in a rat kidney model. |
| Q44469654 | Nondestructive subharmonic imaging |
| Q30498834 | Observation of contrast agent response to chirp insonation with a simultaneous optical-acoustical system |
| Q92233935 | On Command Drug Delivery via Cell-Conveyed Phototherapeutics |
| Q90224927 | On the Relationship between Dynamic Contrast-Enhanced Ultrasound Parameters and the Underlying Vascular Architecture Extracted from Acoustic Angiography |
| Q30496810 | On-chip generation of microbubbles as a practical technology for manufacturing contrast agents for ultrasonic imaging |
| Q46735659 | Optical and acoustical interrogation of submicron contrast agents |
| Q62609531 | Optical observation of lipid- and polymer-shelled ultrasound microbubble contrast agents |
| Q30478883 | Optical tracking of acoustic radiation force impulse-induced dynamics in a tissue-mimicking phantom |
| Q91516516 | Optimization of Phase-Change Contrast Agents for Targeting MDA-MB-231 Breast Cancer Cells |
| Q55074421 | Oxygen microbubbles improve radiotherapy tumor control in a rat fibrosarcoma model - A preliminary study. |
| Q62609469 | Parameter space for microbubble wall interaction estimated from gel phantom |
| Q96168683 | Perspectives on high resolution microvascular imaging with contrast ultrasound |
| Q37294756 | Quantitative Volumetric Perfusion Mapping of the Microvasculature Using Contrast Ultrasound |
| Q30503010 | Radiation-force assisted targeting facilitates ultrasonic molecular imaging |
| Q92659810 | Super harmonic ultrasound for motion-independent localization microscopy: applications to microvascular imaging from low to high flow rates |
| Q92887293 | Super-resolution Ultrasound Imaging |
| Q30494515 | Tailoring the size distribution of ultrasound contrast agents: possible method for improving sensitivity in molecular imaging |
| Q35964379 | Targeted imaging using ultrasound contrast agents. Progess and opportunities for clinical and research applications |
| Q86495905 | The implementation of acoustic angiography for microvascular and angiogenesis imaging |
| Q46126850 | The magnitude of radiation force on ultrasound contrast agents |
| Q100949011 | Transient acoustic vaporization signatures unique to low boiling point phase change contrast agents enable super-resolution ultrasound imaging without spatiotemporal filtering |
| Q30493883 | Ultrasonic analysis of peptide- and antibody-targeted microbubble contrast agents for molecular imaging of alphavbeta3-expressing cells |
| Q30503581 | Ultrasound assessment of angiogenesis in a matrigel model in rats |
| Q93158980 | Ultrasound multiple scattering with microbubbles can differentiate between tumor and healthy tissue in vivo |
| Q30499622 | Ultrasound radiation force enables targeted deposition of model drug carriers loaded on microbubbles |
| Q30541217 | Ultrasound radiation force modulates ligand availability on targeted contrast agents |
| Q50902464 | Ultrasound-driven microbubble oscillation and translation within small phantom vessels. |
| Q30467253 | Validation of dynamic contrast-enhanced ultrasound in rodent kidneys as an absolute quantitative method for measuring blood perfusion |
| Q93349306 | Vaporization Detection Imaging: A Technique for Imaging Low-Boiling-Point Phase-Change Contrast Agents with a High Depth of Penetration and Contrast-to-Tissue Ratio |
| Q97680589 | Visualization of Microvascular Angiogenesis Using Dual-Frequency Contrast-Enhanced Acoustic Angiography: A Review |
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