Article
Multidisciplinary Sciences
Hengli Yang, Ping Zhao, Yonggang Zhou, Qiaoying Li, Wenbin Cai, Zongxia Zhao, Jian Shen, Kechun Yao, Yunyou Duan
Summary: IR780-NBs-DTX, a novel nanosized ultrasound contrast agents (UCAs), show excellent performance in dual-mode molecular targeted imaging and combined therapy for pancreatic cancer, with high efficiency and potential applications in precise detection and effective therapy of small and metastatic lesions.
SCIENTIFIC REPORTS
(2021)
Article
Multidisciplinary Sciences
Chuan Chen, Reshani Perera, Michael C. Kolios, Hessel Wijkstra, Agata A. Exner, Massimo Mischi, Simona Turco
Summary: Investigation of a unique second-wave phenomenon in nanobubble contrast-enhanced ultrasound (CEUS) imaging was conducted. The second wave was observed accompanying the first pass of the contrast agent bolus, which has not been previously observed in CEUS with microbubbles. The study aimed to investigate this phenomenon and its potential clinical applications, and found that the characteristics of the second wave differed between tumor and normal tissue, suggesting its potential for cancer diagnosis.
SCIENTIFIC REPORTS
(2022)
Article
Acoustics
Mawia Khairalseed, Kenneth Hoyt
Summary: A generalized mathematical framework called pulse inversion spectral deconvolution (PISD) for contrast-enhanced ultrasound (CEUS) imaging is introduced in this article. The PISD approach is based on Gaussian derivative functions (GDFs) and uses PISD pulses to filter backscattered ultrasound (US) data for isolating nonlinear (NL) microbubble (MB) signals. The study evaluates the role of wide-beam transmit aperture size in CEUS imaging and quantifies image enhancement using a contrast-to-noise ratio (CNR). In vivo data collected in rats demonstrates that PISD-based CEUS imaging improves vascular visualization compared to the NL imaging strategy.
Article
Acoustics
Rafey A. Feroze, Jonathan Kopechek, Jianhui Zhu, Xucai Chen, Flordeliza S. Villanueva
Summary: This study investigated the potential of using ultrasound-targeted microbubble cavitation (UTMC) to deliver miR-29b and mitigate cardiac fibrosis while preserving left ventricular (LV) function. The results showed that UTMC treatment with miR-29b-loaded microbubbles reduced fibrosis markers and preserved cardiac function in cell and mouse models.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2023)
Article
Chemistry, Multidisciplinary
Sinan Sabuncu, Ruth Javier Ramirez, Jared M. Fischer, Fehmi Civitci, Adem Yildirim
Summary: Localization-based ultrasound imaging methods using microbubbles or nanodroplets provide high-resolution images with reduced background signal, but suffer from long acquisition times. A new ultrafast localization method using blinking ultrasound-responsive nanoparticles (BNPs) is introduced, enabling background-free ultrasound images with acquisition times as low as 11 ms. In vivo background-free ultrasound imaging in mice is also demonstrated with the use of BNPs, suggesting its potential for more sensitive detection of cancer and other diseases.
Article
Chemistry, Analytical
Eduardo M. Paiva, Florian M. Schmidt
Summary: Mid-infrared photothermal microscopy is a valuable tool for chemical imaging with high spatial resolution. This study introduces a widefield mid-infrared photothermal heterodyne imaging technique using a digital frequency-domain lock-in filter for simultaneous multiharmonic demodulation of MIP signals. The technique achieves high sensitivity, spatial resolution, and speed. It has the potential to be used for real-time chemical imaging in biology, medicine, and material science.
ANALYTICAL CHEMISTRY
(2022)
Review
Nanoscience & Nanotechnology
Anna Kastelik-Hryniewiecka, Pawel Jewula, Karolina Bakalorz, Gabriela Kramer-Marek, Nikodem Kuznik
Summary: The demand for hybrid PET/MRI imaging techniques has increased significantly in recent years, driving research into new methods to track multiple molecular targets simultaneously and improve the localization and expression of biochemical markers. Multimodal imaging probes have emerged as powerful tools for enhancing detection sensitivity and accuracy, but only a limited number of bimodal probes have been studied in preclinical models. This article briefly describes the strengths and limitations of PET and MRI modalities, emphasizing the need for the development of multimodal molecularly-targeted agents.
INTERNATIONAL JOURNAL OF NANOMEDICINE
(2021)
Article
Chemistry, Multidisciplinary
Benjamin van Elburg, Joke Deprez, Martin van den Broek, Stefaan C. De Smedt, Michel Versluis, Guillaume Lajoinie, Ine Lentacker, Tim Segers
Summary: Sonoporation is a process facilitated by ultrasound-driven microbubble oscillations that enhances intracellular drug delivery. This study aimed to investigate the role of microbubble size on sonoporation and the relevant mechanism(s). The results showed that sonoporation efficiency strongly depended on the equilibrium bubble size, with bubbles of approximately 4.7 μm radius being the most efficient. Shear stress was unlikely to be the mechanism of action, while normal stress correlated well with sonoporation efficiency.
JOURNAL OF CONTROLLED RELEASE
(2023)
Article
Optics
Ziyu Hua, Kaiyi Zhu, Yifan Wang, Zhaoli Zeng, Yidong Tan
Summary: A contrast-enhanced ultrasound-modulated laser feedback imaging system is proposed, which exhibits high sensitivity and contrast-to-noise ratio. By using laser feedback technique and clinical microbubbles, the system reduces photon consumption in imaging and enhances contrast. Experimental results show that with higher microbubble concentration and thinner depth, the contrast-to-noise ratio increases.
OPTICS AND LASERS IN ENGINEERING
(2022)
Review
Biotechnology & Applied Microbiology
Natacha Jugniot, Rakesh Bam, Emmanuelle J. Meuillet, Evan C. Unger, Ramasamy Paulmurugan
Summary: PDAC is often diagnosed late with limited treatment options, highlighting the urgent need for new imaging technologies with high sensitivity and specificity. CETUS, a novel molecular imaging modality, shows promise for accurate detection of PDAC and has potential clinical translational applications.
BIOENGINEERING & TRANSLATIONAL MEDICINE
(2021)
Article
Nanoscience & Nanotechnology
Yanan Feng, Yongsheng Hao, Yuanyuan Wang, Weijian Song, Shanxin Zhang, Dong Ni, Fei Yan, Litao Sun
Summary: In this study, a nanoscale acoustic probe based on gas vesicles (GVs) was developed by conjugating ZD2 peptides to the biosynthetic GVs. The resulting ZD2-GVs showed excellent binding capability to tumor cells and demonstrated strong penetration ability in tumor tissues. This study suggests that ZD2-GVs can serve as a potential UMI probe for early diagnosis of bladder cancer.
INTERNATIONAL JOURNAL OF NANOMEDICINE
(2023)
Article
Engineering, Biomedical
Sua Bae, Bae-Hyung Kim, Azra Alizad, Mostafa Fatemi, Tai-Kyong Song
Summary: This study demonstrates the feasibility and advantage of aperiodic plane wave imaging (APWI) for ultrafast three-dimensional ultrasonic imaging. Experimental results show that APWI enhances contrast without compromising spatial resolution and frame rate. It is significant for the advancement of ultrafast 3-D ultrasonic imaging.
IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING
(2022)
Article
Medicine, Research & Experimental
Roman A. Barmin, Anshuman Dasgupta, Celine Bastard, Laura De Laporte, Stephan Ruetten, Marek Weiler, Fabian Kiessling, Twan Lammers, Roger M. Pallares
Summary: Gas-filled microbubbles (MB) are used as ultrasound contrast agents and drug delivery vehicles. The properties of MB can be improved by changing the characteristics of surfactants used in their synthesis. It was found that higher-molecular-weight surfactants can increase the shell thickness of MB, leading to higher drug loading capacity and acoustic stability. Additionally, the presence of smaller polymer chains in Triton X-based MB improves drug loading capacity and ultrasound contrast response compared to Tween-based MB.
MOLECULAR PHARMACEUTICS
(2022)
Article
Chemistry, Multidisciplinary
Jie Cen, Xianjun Ye, Xiao Liu, Wenhao Pan, Lei Zhang, Guoying Zhang, Nianan He, Aizong Shen, Jinming Hu, Shiyong Liu
Summary: Amphiphilic copolypeptides containing fluorinated blocks are synthesized to stabilize gas-filled microbubbles (MBs), improving their stability and enhancing ultrasound imaging performance.
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
(2022)
Article
Acoustics
Ayoung Choe, David Qin, Anthony M. Yu, Euisuk Chung, Anamik Jhunjhunwala, Julian A. Rose, Stanislav Y. Emelianov
Summary: The cancer microenvironment has a lower pH than healthy tissues, which can be exploited for more accurate cancer biopsy. A needle coated with pH-responsive PANI nanoparticles is developed for minimally invasive and quantitative pH analysis using ratiometric PA imaging. The PANI-needle shows a linear response in the 850-700 nm wavelength range as pH changes from 7.5 to 6.5. Its high surface area allows for fast and reversible response in just a few seconds. The PANI-needle successfully differentiates local pH in a hydrogel phantom with different pH regions, making it a promising technology for malignant tissue detection during needle biopsy through quantitative pH analysis guided by ultrasound PA imaging.
Article
Biochemical Research Methods
Viacheslav Mazlin, Peng Xiao, Kristina Irsch, Jules Scholler, Kassandra Groux, Kate Grieve, Mathias Fink, A. Claude Boccara
Summary: This study investigates the natural axial movements of the human eye and demonstrates the potential to modulate optical phase and retrieve tomographic images using time-domain full-field optical coherence tomography. The research suggests a simplified ophthalmic imaging device that operates without the need for piezo motor-camera synchronization.
BIOMEDICAL OPTICS EXPRESS
(2022)
Article
Physics, Multidisciplinary
Xinhua Wen, Xinghong Zhu, Alvin Fan, Wing Yim Tam, Jie Zhu, Hong Wei Wu, Fabrice Lemoult, Mathias Fink, Jensen Li
Summary: This study demonstrates the achievement of unidirectional amplification in a non-Hermitian system through the control of space-time varying metamaterials. By dynamically varying the gain and loss and introducing modulation phase delay, the efficiency of frequency conversion is increased. This experimental realization provides further opportunities to study non-Hermitian topological physics in dynamic and nonreciprocal systems.
COMMUNICATIONS PHYSICS
(2022)
Article
Biochemistry & Molecular Biology
Julien Claron, Julie Royo, Fabrice Arcizet, Thomas Deffieux, Mickael Tanter, Pierre Pouget
Summary: The activity of the medial prefrontal cortex (SEF) is found to be related to pupil dynamics, and manipulating pupil diameter can affect the neurovascular activity in SEF. These findings provide a novel understanding of the physiological links between pupil and SEF.
Article
Neurosciences
Clement Brunner, Emilie Mace, Gabriel Montaldo, Alan Urban
Summary: Researchers have developed a directional flow filter to accurately measure red blood cell velocity (RBCv) in small cortical vessels using functional ultrasound imaging without contrast agents. They observed a significant increase in RBCv in vessels during forepaw stimulation, with higher RBCv in penetrating arterioles located in the center of the activated area.
FRONTIERS IN NEUROSCIENCE
(2022)
Review
Neurosciences
Gabriel Montaldo, Alan Urban, Emilie Mace
Summary: This review introduces the principles, implementation, and applications of functional ultrasound, aiming to make the method accessible to all neuroscientists.
ANNUAL REVIEW OF NEUROSCIENCE
(2022)
Article
Acoustics
Matthieu Blons, Thomas Deffieux, Bruno -Felix Osmanski, Mickael Tanter, Beatrice Berthon
Summary: Ultrafast ultrasound is an emerging imaging modality that provides high spatial and temporal resolution. In this study, a real-time enhancement strategy based on deep-learning techniques was proposed to improve the quality of Doppler imaging. The proposed method outperformed standard filters in reducing noise, increasing contrast, and preserving details.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2023)
Article
Clinical Neurology
David Attali, Thomas Tiennot, Mark Schafer, Elsa Fouragnan, Jerome Sallet, Charles F. Caskey, Robert Chen, Ghazaleh Darmani, Ellen J. Bubrick, Christopher Butler, Charlotte J. Stagg, Miriam Klein-Fluegge, Lennart Verhagen, Seung-Schik Yoo, Kim Butts Pauly, Jean-Francois Aubry
Summary: Transcranial ultrasound stimulation (TUS) is a safe and effective technique for non-invasive brain stimulation. However, there are no international guidelines for estimating the acoustic attenuation of the human skull. This study proposes a three-layer model to calculate the maximum pressure transmission through the human skull.
Article
Engineering, Biomedical
Justine Robin, Charlie Demene, Baptiste Heiles, Victor Blanvillain, Liene Puke, Fabienne Perren, Mickael Tanter
Summary: This study proposes an adaptive aberration correction technique for imaging the human brain vasculature using intravenously injected microbubbles. The technique improves image quality and increases contrast and the number of detected microbubble tracks. It has significant implications for better diagnosis and follow-up of brain pathologies and makes transcranial ultrasound imaging possible in difficult-to-image human adults.
PHYSICS IN MEDICINE AND BIOLOGY
(2023)
Article
Nanoscience & Nanotechnology
Sara Cadoni, Charlie Demene, Ignacio Alcala, Matthieu Provansal, Diep Nguyen, Dasha Nelidova, Guillaume Labernede, Jules Lubetzki, Ruben Goulet, Emma Burban, Julie Degardin, Manuel Simonutti, Gregory Gauvain, Fabrice Arcizet, Olivier Marre, Deniz Dalkara, Botond Roska, Jose Alain Sahel, Mickael Tanter, Serge Picaud
Summary: Researchers have successfully achieved precise control and activation of retinal and cortical neurons by expressing ultrasound-sensitive proteins and combining unconventional high-frequency ultrasound stimulation. The spatiotemporal resolution and acoustic energy deposit achieved are compatible with the requirements of visual restoration. Sonogenetics provides neuron-specific activation at high spatiotemporal resolution both in retina and in the deep visual cortex, providing a less invasive approach for visual restoration compared to current brain-machine interfaces.
NATURE NANOTECHNOLOGY
(2023)
Article
Physics, Multidisciplinary
Samuel Hidalgo-Caballero, Surabhi Kottigegollahalli Sreenivas, Vincent Bacot, Sander Wildeman, Maxime Harazi, Xiaoping Jia, Arnaud Tourin, Mathias Fink, Alvaro Cassinelli, Matthieu Labousse, Emmanuel Fort
Summary: This article presents a counterintuitive concept of achieving time reversal of waves by using a transitory dissipation pulse. By applying sudden and strong damping in a limited time, a time-reversed wave can be generated. In the case of high damping shock, the initial wave freezes by maintaining the wave amplitude and cancelling its time derivative, resulting in two counterpropagating waves with halved amplitude and opposite time evolutions. This damping-based time reversal is demonstrated using phonon waves in a lattice of interacting magnets on an air cushion, and computer simulations show its applicability to broadband time reversal in complex disordered systems.
PHYSICAL REVIEW LETTERS
(2023)
Article
Engineering, Biomedical
Hugues Favre, Mathieu Pernot, Mickael Tanter, Clement Papadacci
Summary: By using a multi-lens diffracting layer, ultrasound localization microscopy (ULM) can effectively map and quantify blood microflows in the brain. In this study, a 16 elements prototype was developed and in vitro experiments were performed to validate the imaging capabilities of this new probe concept.
PHYSICS IN MEDICINE AND BIOLOGY
(2023)
Article
Multidisciplinary Sciences
Beatrice Berthon, Antoine Bergel, Marta Matei, Mickael Tanter
Summary: Functional Ultrasound (fUS) provides high-resolution and high-sensitivity spatial and temporal frames of vascular activity in the brain. However, the resulting data is currently underused due to the lack of proper visualization and interpretation tools. This study demonstrates that neural networks can utilize the information in fUS datasets to accurately determine behavior after appropriate training.
SCIENTIFIC REPORTS
(2023)
Article
Cell Biology
Julien Claron, Matthieu Provansal, Quentin Salardaine, Pierre Tissier, Alexandre Dizeux, Thomas Deffieux, Serge Picaud, Mickael Tanter, Fabrice Arcizet, Pierre Pouget
Summary: To better understand the brain's role in primate behavior, simultaneous recording of neural activity at different spatiotemporal scales is necessary but challenging. This study uses functional ultrasound imaging and single-unit activity (SUA) recordings in macaque monkeys to show that SUA can estimate neurovascular response below the typical fMRI spatial resolution. The study also finds that SUA and cerebral blood volume (CBV) activities are not correlated during resting state but are correlated during tasks, suggesting implications for interpreting functional imaging findings.
Article
Medicine, General & Internal
Guillaume Goudot, Anatole Jimenez, Nassim Mohamedi, Jonas Sitruk, Lina Khider, Helene Mortelette, Clement Papadacci, Fabien Hyafil, Mickael Tanter, Emmanuel Messas, Mathieu Pernot, Tristan Mirault
Summary: Ultrasound localization microscopy (ULM) based on ultrafast ultrasound imaging of circulating microbubbles can visualize microvascular blood flows in vivo up to the micron scale. This study aimed to perform vasa vasorum ULM of the carotid wall in patients with Takayasu arteritis (TA) and demonstrate that ULM can provide imaging markers to assess TA activity.
Article
Multidisciplinary Sciences
Flavien Bureau, Justine Robin, Arthur Le Ber, William Lambert, Mathias Fink, Alexandre Aubry
Summary: Matrix imaging is revolutionizing wave physics by optimizing compensation for aberrations and multiple scattering in heterogeneous media. This paper extends ultrasound matrix imaging to a 3D geometry and proposes a non-invasive approach to make the skull transparent for improved brain imaging.
NATURE COMMUNICATIONS
(2023)
Article
Acoustics
Ting Luo, Zhen Wang, Xiaoling Yu, Zhiyu Han, Zhigang Cheng, Fangyi Liu, Jie Yu, Ping Liang
Summary: This study aimed to investigate the contribution of subtotal ultrasound-guided percutaneous microwave ablation (MWA) to the inhibition of programmed cell death protein-1 (PD-1) in advanced hepatocellular carcinoma (HCC). The results showed that MWA >50% AR could enhance immune-related gene expression, activate CD8+ T cells, and thereby boost the immunomodulatory effect of PD-1 inhibitors.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Letter
Acoustics
Bernard Cosyns, Sharon L. Mulvagh
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Article
Acoustics
Keith Barron, Michael Blaivas, Laura Blaivas, John Sadler, Isadora Deal
Summary: Researchers investigated whether quantitative ultrasound assessment of hyoid bone movement during induced swallowing would predict the failure of traditional assessment methods in stroke patients. They found that manual ultrasound measurement was not accurate in predicting the assessment outcome, but a machine learning algorithm showed substantial agreement with the results, suggesting its potential for improving dysphagia assessment.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Article
Acoustics
Sheng Chen, Yi-Jie Qiu, Qi Zhang, Xiu-Yun Lu, Yun-Lin Huang, Yi Dong, Wen-Ping Wang
Summary: The impact of hepatocellular carcinoma (HCC) tumor size on Sonazoid contrast-enhanced ultrasound (CEUS) enhancement features was evaluated. The study found that tumor size had a significant impact on the washout features of HCC lesions, with smaller lesions exhibiting a later occurrence of washout.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Article
Acoustics
Sean Mcgrath, Yu-Jack Shen, Masato Aragaki, Yamato Motooka, Takamasa Koga, Alexander Gregor, Nicholas Bernards, Emmanuel Cherin, Christine E. M. Demore, Kazuhiro Yasufuku, Naomi Matsuura
Summary: This study assessed the imaging ability of CE-EBUS in vitro and in vivo and found that CE-EBUS can produce contrast imaging comparable to commercial pre-clinical and clinical ultrasound systems. CE-EBUS has the potential for clinical characterization of mediastinal lymph nodes in lung cancer patients.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Review
Acoustics
Ahmed M. Al-Jumaily, Hassan Liaquat, Sharad Paul
Summary: This article presents a comprehensive review on the effect of various operational parameters of focused ultrasound (FUS) on the injury zone produced by ultrasound beams for different dermatological applications. The article highlights the efficient operational parameters of FUS to enhance pain relief during surgery and make skin treatment more affordable. Additionally, a prospective future technique for efficient FUS is discussed.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Article
Acoustics
Celine Porte, Thomas Lisson, Matthias Kohlen, Finn von Maltzahn, Stefanie Dencks, Saskia von Stillfried, Marion Piepenbrock, Anne Rix, Anshuman Dasgupta, Patrick Koczera, Peter Boor, Elmar Stickeler, Georg Schmitz, Fabian Kiessling
Summary: This study aimed to refine ULM for breast cancer patients by optimizing the measurement protocol, identifying translational challenges, and combining ULM with shear wave elastography. The results showed that the settings for microbubble injection strongly influence ULM images, requiring optimized protocols for different indications. Patient and examiner motion were identified as the main translational challenges for ULM.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Review
Acoustics
Jocelyne Rivera, Antonia Digklia, Anna S. Christou, James Anibal, Katherine A. Vallis, Bradford J. Wood, Eleanor Stride
Summary: Immunotherapy is a major modality in cancer medicine, but its efficacy is limited and it has potential side effects. Ultrasound and cavitation agents can enhance the effectiveness of immunotherapy and stimulate immune responses.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Article
Acoustics
Shyamala Guruvare, Shripad Hebbar, Lakshmi Bai, Padmapriya Jaiprakash, Deepa Reddy, Deepa Hc
Summary: This study assessed the accuracy of 3-D surface rendering of 2-D ultrasound images of the uterus using FMRA software for mapping uterine fibroids compared to pathological evaluation. The results showed good correlation between the two methods in terms of fibroid size and location. Inter-observer analysis also demonstrated reproducibility of measurements from two sonologists using the 3-D model.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Article
Acoustics
Yuting Shen, Jiadong Zhang, Daohuai Jiang, Zijian Gao, Yuwei Zheng, Feng Gao, Fei Gao
Summary: This study proposes a straightforward simulation approach based on superposed Wave (s-Wave) to accelerate photoacoustic simulation. By manipulating the phase and amplitude of sensor data, the computation time is significantly reduced. The results show that s-Wave exhibits a speed improvement >2000 times compared with k-Wave in a sparse system configuration, and in terms of optimization-based image reconstruction, the reconstruction time is reduced by approximately 50 times.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Article
Acoustics
Jason Voorneveld, Johan G. Bosch
Summary: This study assesses the effect of spatial velocity gradients (SVGs) on block matching, and finds that the sinusoidal flow wavelength and SVG angle have significant impact on the bias and precision of block matching.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Article
Acoustics
Kartini Rahmat, Nazimah Ab Mumin, Wei Lin Ng, Nur Aishah Mohd Taib, Wai Yee Chan, Marlina Tanty Ramli Hamid
Summary: This study demonstrates the value of ABUS as an adjunct to DBT in breast screening and diagnosis, with improved cancer detection rates.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Article
Acoustics
Jieyu Hu, Sindre Hellum Olaisen, Erik Smistad, Havard Dalen, Lasse Lovstakken
Summary: This study introduces a fully automated, real-time method for measuring left atrial volume in echocardiography using a neural network to identify key time points and segmentation techniques. The results show that this method provides comparable accuracy to manual measurements while saving time and reducing operator variability, with an average volume difference of 2.9 mL for 2-D and 7.8 mL for 3-D imaging. The application of pseudo-labeling improves the stability of volume curves and the accuracy of end-systole measurement.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Article
Acoustics
Anam Bhatti, Takuro Ishii, Yoshifumi Saijo
Summary: A new protocol for fabricating a microflow phantom with bifurcated geometry at a superficial region was proposed in this study. Ultrasound imaging confirmed the successful creation of the desired flow tract with bifurcation at a depth of 2-5 mm. The experiments demonstrated the validity of the proposed protocol for creating a microscale intricate flow tract with desired dimensions and depth. This new phantom will facilitate further improvement in ultrasound technologies for precise visualization of superficial complex vasculatures.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
Article
Acoustics
Nima Mobadersany, Pengcheng Liang, Paul Kemper, Elisa E. Konofagou
Summary: This study describes a technique for manufacturing arterial phantoms using polyvinyl alcohol and evaluates the use of pulse wave imaging (PWI) to assess plaque stiffness. The results show that PWI can distinguish between plaques of different stiffness and composition.
ULTRASOUND IN MEDICINE AND BIOLOGY
(2024)
