All Stories

  1. A tutorial in photoacoustic microscopy and tomography signal processing methods
  2. Feasibility of detecting change in backscattered energy of acoustic harmonics in locally heated tissues
  3. Intrinsically absorbing photoacoustic and ultrasound contrast agents for cancer therapy and imaging
  4. Simultaneous Ultra-high Frequency Photoacoustic Microscopy and Photoacoustic Radiometry of Zebrafish Larvae in vivo
  5. Photoacoustic cardiovascular imaging: a new technique for imaging of atherosclerosis and vulnerable plaque detection
  6. Chemotherapy-Response Monitoring of Breast Cancer Patients Using Quantitative Ultrasound-Based Intra-Tumour Heterogeneities
  7. Honey, I shrunk the bubbles: microfluidic vacuum shrinkage of lipid-stabilized microbubbles
  8. Shrinking microbubbles with microfluidics: mathematical modelling to control microbubble sizes
  9. Magnetic nanoparticle-promoted droplet vaporization for in vivo stimuli-responsive cancer theranostics
  10. High-Frequency Acoustic Impedance Imaging of Cancer Cells
  11. Temperature dependence of acoustic harmonics generated by nonlinear ultrasound beam propagation inex vivotissue and tissue-mimicking phantoms
  12. Classification of blood cells and tumor cells using label-free ultrasound and photoacoustics
  13. Exact solution for a photoacoustic wave from a finite-length cylindrical source
  14. Multifunctional perfluorocarbon nanoemulsions for cancer therapy and imaging
  15. High-frequency photoacoustic imaging of erythrocyte aggregation and oxygen saturation: probing hemodynamic relations under pulsatile blood flow
  16. Probing the in vivo changes in oxygen saturation with photoacoustic imaging as a non-invasive means of assessing treatment progression
  17. Numerical investigation of plasmonic properties of gold nanoshells
  18. Realistic photoacoustic image simulations of collections of solid spheres using linear array transducer
  19. Gold-nanoshells as surface plasmon resonance (SPR)
  20. Quantitative Ultrasound Spectroscopic Imaging for Characterization of Disease Extent in Prostate Cancer Patients
  21. Influence of the pressure-dependent resonance frequency on the bifurcation structure and backscattered pressure of ultrasound contrast agents: a numerical investigation
  22. Laser-Activatible PLGA Microparticles for Image-Guided Cancer Therapy In Vivo
  23. Modeling photoacoustic spectral features of micron-sized particles
  24. Assessing storage-induced red blood cell lesions using photoacoustic measurements of oxygen saturation and the frequency content of photoacoustic signals
  25. Comparison of different image reconstruction algorithms for synthetic transmit aperture imaging using sparse receiving array
  26. Delay-encoded transmission in synthetic transmit aperture (DE-STA) imaging
  27. Development of a microfluidic device with integrated high frequency ultrasound probe for particle characterization
  28. Effective scatterer size estimates in HT-29 spheroids at 55 MHz and 80 MHz
  29. In vitro study of PLGA/PFH particles loaded with gold nanoparticles as theranostic agents for photoacoustic imaging and cancer therapy
  30. Laser-activated PLGA theranostic agents for cancer therapy in vivo
  31. Longitudinal monitoring of oxygen saturation with photoacoustic imaging
  32. Quantitative ultrasound analyses of cell starvation in HT-29 pellets
  33. Simultaneous measurement of erythrocyte aggregarion and oxygen saturation under in vitro pulsatile blood flow by high-frequency photoacoustics
  34. Temperature dependence of harmonics generated by nonlinear ultrasound beam propagation in water: A simulation study
  35. Ultra-high frequency acoustic impedance maps of MCF-7 cells
  36. Speckle statistics in OCT images: Monte Carlo simulations and experimental studies
  37. Optoacoustic characterization of prostate cancer in anin vivotransgenic murine model
  38. Photoacoustic detection and optical spectroscopy of high-intensity focused ultrasound-induced thermal lesions in biologic tissue
  39. Detecting apoptosis in vivo and ex vivo using spectroscopic OCT and dynamic light scattering
  40. PLGA/PFC particles loaded with gold nanoparticles as dual contrast agents for photoacoustic and ultrasound imaging
  41. Photoacoustic tissue characterization using envelope statistics and ultrasonic spectral parameters
  42. Identification of red blood cell rouleaux formation using photoacoustic ultrasound spectroscopy
  43. Circulating tumor cell detection using photoacoustic spectral methods
  44. Optical coherence tomography detection of shear wave propagation in MCF7 cell modules
  45. Optical coherence tomography detection of shear wave propagation in inhomogeneous tissue equivalent phantoms and ex-vivo carotid artery samples
  46. Quantifying temperature changes in tissue-mimicking fluid phantoms using optical coherence tomography and envelope statistics
  47. High frequency label-free photoacoustic microscopy of single cells
  48. Low-frequency quantitative ultrasound imaging of cell death in vivo
  49. Nonlinear dynamics of polymer shell ultrasound contrast agents at 8–32 MHz ultrasonic excitations
  50. Probing Red Blood Cell Morphology Using High-Frequency Photoacoustics
  51. Vaporization, photoacoustic and acoustic characterization of PLGA/PFH particles loaded with optically absorbing materials
  52. Conventional Frequency Ultrasonic Biomarkers of Cancer Treatment Response In Vivo
  53. Optical coherence tomography detection of shear wave propagation in layered tissue equivalent phantoms
  54. Photoacoustic assessment of oxygen saturation: effect of red blood cell aggregation
  55. Photoacoustic radio-frequency spectroscopy (PA-RFS): A technique for monitoring absorber size and concentration
  56. Improving the quality of photoacoustic images using the short-lag spatial coherence imaging technique
  57. Classifying normal and abnormal vascular tissues using photoacoustic signals
  58. A photoacoustic technique to measure the properties of single cells
  59. Quantitative Ultrasound Evaluation of Tumor Cell Death Response in Locally Advanced Breast Cancer Patients Receiving Chemotherapy
  60. Investigating longitudinal changes in the mechanical properties of MCF-7 cells exposed to paclitaxol using particle tracking microrheology
  61. Non-invasive Monitoring of Ultrasound-Stimulated Microbubble Radiation Enhancement Using Photoacoustic Imaging
  62. Acoustic and photoacoustic imaging of spheroids
  63. Acoustical imaging of internal spheroid structures for a series of frequencies
  64. An analysis of the acoustic properties of the cell cycle and apoptosis in MCF-7 cells
  65. Bifurcation structure of the ultrasonically excited microbubbles undergoing buckling and rupture
  66. From high-frequency to low-frequency cell death detection: quantitative ultrasound evaluation of tumor response in breast cancer
  67. Sound speed estimation in single cells using the ultrasound backscatter power spectrum
  68. Photoacoustic ultrasound spectroscopy for assessing red blood cell aggregation and oxygenation
  69. Detection and characterization of higher order nonlinearities in the oscillations of Definity at higher frequencies and very low acoustic pressures
  70. Numerical and experimental classification of the oscillations of single isolated microbubbles: Occurrence of higher order subharmonics
  71. Photoacoustic measurements of single red blood cells
  72. Simultaneous photoacoustic detection of red blood cell aggregation and oxygenation
  73. Acoustic and photoacoustic characterization of micron-sized perfluorocarbon emulsions
  74. Surface modes and acoustic scattering of microspheres and ultrasound contrast agents
  75. On the use of photoacoustics to detect red blood cell aggregation
  76. Classification of the nonlinear dynamics and bifurcation structure of ultrasound contrast agents excited at higher multiples of their resonance frequency
  77. Quantitative Ultrasound for the Monitoring of Novel Microbubble and Ultrasound Radiosensitization
  78. Imaging innovations for cancer therapy response monitoring
  79. Validity of a theoretical model to examine blood oxygenation dependent optoacoustics
  80. Feasibility of optical coherence elastography measurements of shear wave propagation in homogeneous tissue equivalent phantoms
  81. Biomechanical properties of soft tissue measurement using optical coherence elastography
  82. Detection and characterization of red blood cell (RBC) aggregation with photoacoustics
  83. Frequency analysis of optoacoustic signals in laser heated tissues
  84. Measuring intracellular motion using dynamic light scattering with optical coherence tomography in a mouse tumor model
  85. On the potential of using photoacoustic spectroscopy to monitor red blood cell aggregation
  86. Photoacoustic spectral characterization of perfluorocarbon droplets
  87. Optimization of the shear stress induced by ultrasonically-stimulated oscillating MBs: A theoretical investigation
  88. The utilization of the bubble pressure dependent harmonic resonance frequency for enhanced heating during high intensity focused ultrasound treatments
  89. Optoacoustic signal amplitude and frequency spectrum analysis laser heated bovine liver ex vivo
  90. A Monte Carlo study on the effects of erythrocyte oxygenation on photoacoustic signals
  91. Characterization of red blood cell aggregation with photoacoustics: A theoretical and experimental study
  92. Sound velocity and attenuation measurements of perfluorocarbon liquids using photoacoustic methods
  93. Effects of cell spatial organization and size distribution on ultrasound backscattering
  94. Ultrasound drug targeting to tumors with thermosensitive liposomes
  95. Vaporization of perfluorocarbon droplets using optical irradiation
  96. A simulation study on photoacoustic signals from red blood cells
  97. Hybrid Quantum Dot−Fatty Ester Stealth Nanoparticles: Toward Clinically Relevantin VivoOptical Imaging of Deep Tissue
  98. Cell death monitoring using quantitative optical coherence tomography methods
  99. Detecting abnormal vasculature from photoacoustic signals using wavelet-packet features
  100. Dynamics of laser induced thermoelastic expansion of native and coagulated ex-vivo soft tissue samples and their optical and thermo-mechanical properties
  101. Optical droplet vaporization of micron-sized perfluorocarbon droplets and their photoacoustic detection
  102. Optical coherence tomography speckle decorrelation for detecting cell death
  103. Effects of erythrocyte oxygenation on optoacoustic signals
  104. Detecting apoptosis using dynamic light scattering with optical coherence tomography
  105. Detecting cell death with optical coherence tomography and envelope statistics
  106. Ultrasound Imaging of Apoptosis: Spectroscopic Detection of DNA-Damage Effects at High and Low Frequencies
  107. A comparison of cellular ultrasonic properties during apoptosis and mitosis using acoustic microscopy
  108. A simulation study on ultrasound backscattering by cell aggregates with poly-disperse cells
  109. Optical droplet vaporization (ODV): Photoacoustic characterization of perfluorocarbon droplets
  110. Quantitative measurements of apoptotic cell properties using acoustic microscopy
  111. An Increase in Cellular Size Variance Contributes to the Increase in Ultrasound Backscatter During Cell Death
  112. The measurement of ultrasound scattering from individual micron-sized objects and its application in single cell scattering
  113. Evaluating the extent of cell death in 3D high frequency ultrasound by registration with whole-mount tumor histopathologya)
  114. Optoacoustic imaging of an animal model of prostate cancer
  115. Dynamics of thermoelastic expansion for native and coagulated ex vivo bovine liver tissues
  116. Gigahertz optoacoustic imaging for cellular imaging
  117. Ultrasound detection of cell death
  118. A Theoretical Model for RF Ablation of Kidney Tissue and Its Experimental Validation
  119. Study of laser-induced thermoelastic deformation of native and coagulated ex-vivo bovine liver tissues for estimating their optical and thermomechanical properties
  120. Potential use of ultrasound for the detection of cell changes in cancer treatment
  121. A novel technique for measuring ultrasound backscatter from single micron-sized objects
  122. High frequency optoacoustic microscopy
  123. Measuring the mechanical properties of cells using acoustic microscopy
  124. Quantifying the ultrasonic properties of cells during apoptosis using time resolved acoustic microscopy
  125. Signal analysis for the estimation of mechanical parameters of viable cells using GHz-acoustic microscopy
  126. Quantitative Ultrasound Characterization of Responses to Radiotherapy in Cancer Mouse Models
  127. Monitoring of Cell Death in Epithelial Cells Using High Frequency Ultrasound Spectroscopy
  128. Assessment of opto-mechanical behavior of biological samples by interferometry
  129. Optoacoustic detection of thermal lesions
  130. A study of high frequency ultrasound scattering from non-nucleated biological specimens
  131. Quantitative Ultrasound Characterization of Cancer Radiotherapy Effects In Vitro
  132. Ultrasound Imaging of Apoptosis in Tumor Response: Novel Preclinical Monitoring of Photodynamic Therapy Effects
  133. High Frequency Ultrasound Tissue Characterization and Acoustic Microscopy of Intracellular Changes
  134. Novel Low-frequency Ultrasound Monitoring of Tumor Cell Death in Response to Therapy
  135. Modeling scattering from cells and biological structures
  136. Towards the modeling of high‐frequency ultrasound scattering from cells
  137. Photoacoustic detection of protein coagulation in albumen-based phantoms
  138. Monitoring Responses to Treatment With High-Frequency Ultrasound In Vivo: Assessing Response to Radiation vs. Photodynamic Therapy in Melanoma Xenograft Tumors
  139. P6C-4 Extended System Transfer Compensation for Parametric Imaging in Ultrasonic Response Assessment of Anti-Cancer Therapies
  140. P3D-3 Transmission Ultrasound Imaging to Guide Thermal Therapy
  141. Ultrasonic Characterization of Whole Cells and Isolated Nuclei
  142. Two-dimensional velocity estimation for Doppler optical coherence tomography
  143. High-Frequency Ultrasound Assessment of Antimicrobial Photodynamic Therapy In Vitro
  144. Wide dynamic range detection of bidirectional flow in Doppler optical coherence tomography using a two-dimensional Kasai estimator
  145. The fluid and elastic nature of nucleated cells: Implications from the cellular backscatter response
  146. Finite-element modeling of microsphere surface modes and high-frequency ultrasound scattering from a single cell
  147. Ultrasonic detection of anti cancer treatment success using tissue acoustic properties and parametric imaging
  148. An investigation of the use of transmission ultrasound to measure acoustic attenuation changes in thermal therapy
  149. Examination of contrast mechanisms in optoacoustic imaging of thermal lesions
  150. 2G-4 Investigating the Effect of Cell Size on the Backscatter from Suspensions of Varying Volume Fractions
  151. P3E-3 Finite Element Modeling of Ultrasound Scattering by Spherical Objects and Cells
  152. 2G-1 Ultrasonic Assessment of Death in HEp2 Cells Using Spectral and Wavelet Based Analysis of Backscattered RF-Signals
  153. Monitoring structural changes in cells with high-frequency ultrasound signal statistics
  154. High-frequency ultrasound scattering from microspheres and single cells
  155. High-frequency ultrasound for monitoring changes in liver tissue during preservation
  156. Changes in dielectric properties at 460 kHz of kidney and fat during heating: importance for radio-frequency thermal therapy
  157. Ultrasound backscatter microscopy/spectroscopy and optical coherence (Doppler) tomography for mechanism-specific monitoring of photodynamic therapy in vivo and in vitro
  158. Ultrasonic spectral parameter characterization of apoptosis
  159. A model based upon pseudo regular spacing of cells combined with the randomisation of the nuclei can explain the significant changes in high-frequency ultrasound signals during apoptosis
  160. Comparison of thermal damage calculated using magnetic resonance thermometry, with magnetic resonance imaging post-treatment and histology, after interstitial microwave thermal therapy of rabbit brain
  161. The effects of dynamic optical properties during interstitial laser photocoagulation
  162. Ultrasound imaging of apoptosis: high-resolution non-invasive monitoring of programmed cell death in vitro, in situ and in vivo
  163. An investigation of the flow dependence of temperature gradients near large vessels during steady state and transient tissue heating
  164. A theoretical comparison of energy sources - microwave, ultrasound and laser - for interstitial thermal therapy
  165. Experimental evaluation of two simple thermal models using transient temperature analysis
  166. Magnetic resonance imaging of temperature changes during interstitial microwave heating: A phantom study
  167. Ultrasonic biomicroscopy of viable, dead and apoptotic cells
  168. Blood flow cooling and ultrasonic lesion formation
  169. Large blood vessel cooling in heated tissues: a numerical study
  170. Influence of transition rates and scan rate on kinetic simulations of differential scanning calorimetry profiles of reversible and irreversible protein denaturation
  171. The effect of volume fraction on the backscatter from nucleated cells at high frequencies
  172. Using high frequency ultrasound envelope statistics to determine scatterer number density in dilute cell solutions
  173. Visualization of apoptotic cells using scanning acoustic microscopy and high frequency ultrasound
  174. High frequency ultrasound in monitoring liver suitability for transplantation
  175. High frequency ultrasound signal statistics from mouse mammary tissue during involution
  176. Towards understanding the nature of high frequency backscatter from cells and tissues: an investigation of backscatter power spectra from different concentrations of cells of different sizes