Underwater drilling of foam-like materials and wax using ultrasound technology

A hybrid-induced energy transfer strategy using photoacoustic and piezo-ultrasound technology was proposed to achieve a 3D twining multifunctional implant.

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Guest Editorial Introduction to the Special Issue on Recent Advances in Ultrasound Technology for Brain Imaging and Therapy

IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control ◽

10.1109/tuffc.2020.3042349 ◽

2021 ◽

Vol 68 (1) ◽

pp. 3-5

Author(s):

Weibao Qiu ◽

Ayache Bouakaz ◽

Elisa E. Konofagou ◽

Hairong Zheng

Keyword(s):

Brain Imaging ◽

Guest Editorial ◽

Editorial Introduction ◽

Special Issue ◽

Recent Advances ◽

Ultrasound Technology

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Ultrasound and Doppler US in Evaluation of Superficial Soft-tissue Lesions

Journal of Clinical Imaging Science ◽

10.4103/2156-7514.127965 ◽

2014 ◽

Vol 4 ◽

pp. 12 ◽

Cited By ~ 22

Author(s):

Huseyin Toprak ◽

Erkan Kiliç ◽

Asli Serter ◽

Ercan Kocakoç ◽

Salih Ozgocmen

Keyword(s):

Soft Tissue ◽

Imaging Modality ◽

Power Doppler ◽

Soft Tissue Lesions ◽

Doppler Us ◽

Size Number ◽

Ultrasound Technology ◽

Superficial Tissue ◽

Superficial Soft Tissue

Improved developments in digital ultrasound technology and the use of high-frequency broadband transducers make ultrasound (US) imaging the first screening tool in investigating superficial tissue lesions. US is a safe (no ionizing radiation), portable, easily repeatable, and cheap form of imaging compared to other imaging modalities. US is an excellent imaging modality to determine the nature of a mass lesion (cystic or solid) and its anatomic relation to adjoining structures. Masses can be characterized in terms of their size, number, component, and vascularity with US and Doppler US especially with power Doppler US. US, however, is operator dependent and has a number of artifacts that can result in misinterpretation. In this review, we emphasize the role of ultrasound, particularly power Doppler, in superficial soft-tissue lesions.

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P1-230: Targeted drug delivery using focused ultrasound technology: Investigation of antibody delivery through the blood brain barrier

Alzheimer s & Dementia ◽

10.1016/j.jalz.2012.05.509 ◽

2012 ◽

Vol 8 (4S_Part_5) ◽

pp. P187-P188

Author(s):

Lisa Strobel ◽

Zsofia Kovacs ◽

Beat Werner ◽

Ernst Martin-Fiori ◽

Roger Nitsch

Keyword(s):

Drug Delivery ◽

Blood Brain Barrier ◽

Targeted Drug Delivery ◽

Focused Ultrasound ◽

Brain Barrier ◽

Blood Brain ◽

Ultrasound Technology ◽

Targeted Drug ◽

Antibody Delivery

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Laser-Excited Acoustics for Contact-Free Inspection of Aerospace Composites

Materials Evaluation ◽

10.32548/2021.me-04188 ◽

2021 ◽

Vol 79 (1) ◽

pp. 28-37

Author(s):

Matthias Brauns ◽

Fabian Lucking ◽

Balthasar Fischer ◽

Clint Thomson ◽

Igor Ivakhnenko

Keyword(s):

Laser Excitation ◽

Surface Condition ◽

Ultrasonic Transducers ◽

Fiber Reinforced Polymer ◽

Coupling Agents ◽

Laser Ultrasound ◽

Reinforced Polymer ◽

Glass Fiber Reinforced ◽

Ultrasound Technology ◽

Contact Free

Ultrasonic testing (UT) is widely used for the nondestructive testing (NDT) of composite materials in the aerospace industry. Liquid-coupled piezoelectric ultrasonic transducers are the most common technology used in this field; however, liquid coupling agents are not always practical, economical, or compatible with materials that cannot get wet. Alternative couplant-free technologies such as air-coupled ultrasound or laser ultrasound (LUS) are available, but either lack the required sensitivity and resolution, or are very costly, large, and sensitive to surface condition and properties. In this paper, we introduce a new couplant-free approach using laser excitation and a commercially available optical micro-phone. This technique is termed laser-excited acoustics (LEA) NDT, which combines the advantages of a contact-free ultrasound technology with the potential for improved sensitivity and resolution required for NDT in industrial environments. We will demonstrate the capabilities of LEA on aerospace composite parts made of carbon and glass fiber–reinforced polymer (CFRP/GFRP) under realistic conditions.

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PSIII-8 Sire breed differences for carcass attributes in feedlot steers using ultrasound technology

Journal of Animal Science ◽

10.1093/jas/skab235.534 ◽

2021 ◽

Vol 99 (Supplement_3) ◽

pp. 291-291

Author(s):

Harley Buie ◽

Noah P Jesko

Keyword(s):

Pearson Correlation ◽

Marbling Score ◽

Live Animal ◽

Feedlot Steers ◽

Significant Difference ◽

Ultrasound Measurements ◽

Ribeye Area ◽

Ultrasound Technology ◽

Fat Thickness ◽

Sire Breed

Abstract Live animal ultrasound measurements were taken on thirty-two feedlot steers and heifers for estimation of carcass endpoints including 12th rib fat thickness (FTU), ribeye area (REAU) and intramuscular fat (%FatU). Ultrasound measurements were collected by an inexperienced technician using an Aloka 500 ultrasound unit using Beef Image Analysis (BIA) software. The objective of the study was to evaluate carcass differences of four sire breed types including Angus (n = 11), Ultrablack (n = 6), Nelore (n = 6), Braunvieh (n = 1) and Angus X Nelore X Braunvieh hybrid (n = 8). Carcass data collected at harvest included 12th rib fat Thickness (FTC), Ribeye area (REAC), marbling score (MS), Yield Grade (YG), and Quality Grade (QG). The data were analyzed using SAS to determine breed effects. Means for FTU, FTC, REAU, REAC, %FatU and MS were 0.59 cm, 0.57 cm, 90.80 cm2, 83.53 cm2, 4.83%, and 483.75, respectively. There was no significant difference (P > 0.05) in YG and FT due to breed of sire. However, there was a trend for sire breed for ribeye area (P = 0.0728) for Angus X Nelore X Braunvieh cross and MS (P = 0.0786) for Ultrablack. Pearson correlation values between FTU and FTC, REAU and REAC, and %FatU and MS were 0.1217 (P = 0.05068), 0.3545 (P = .0465) and 0.5161 (P = 0.0025), respectively. These data suggest little differences existed in carcass attributes between various sire breeds out of a set of crossbred commercial cows.

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Vascular Duplex Study: A Historical Perspective

Cardiovascular Journal ◽

10.3329/cardio.v14i1.55375 ◽

2021 ◽

Vol 14 (1) ◽

pp. 55-60

Author(s):

Abul Hasan Muhammad Bashar

Keyword(s):

Present Article ◽

Medical Practice ◽

Historical Perspective ◽

Medical Science ◽

Diagnosis And Treatment ◽

Recent History ◽

Medical Ultrasound ◽

Historical Aspects ◽

Ultrasound Technology

Ultrasound is a key investigating tool aiding diagnosis and treatment in the day-to-day medical practice nowadays. Like any other invention, ultrasound technology also has a long history strewn with successes and setbacks. From its modest beginning, it has come a long way to be applied not only in medical science but also in many other areas including navigation and warfare. Scientistsengineers, physicists, mathematicians, biomedical engineers and physicians worked relentlessly over centuries to bring about developments in the field of ultrasound technology as a whole. Medical ultrasound has a relatively recent history that has seen great dedication and commitment from researchers to achieve the degree of finesse we see today. The present article looks back on the historical aspects of ultrasound technology with a focus on medical ultrasound. Cardiovasc j 2021; 14(1): 55-60

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